| Vacuum & Electrical Pulse Method for Plant Seed Electroporation |
| Fertile transgenic plants were regenerated and self-fertilized seeds were obtained in rice and wheat. Transgene integration was confirmed by Southern hybridization. Transmission of the transgene into the next generation (T1) was indicated by PCR analysis… |
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| Vacuum & Electrical Pulse Method for Plant Seed Electroporation |
| Fertile transgenic plants were regenerated and self-fertilized seeds were obtained in rice and wheat. Transgene integration was confirmed by Southern hybridization. Transmission of the transgene into the next generation (T1) was indicated by PCR analysis… |
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| Vacuum & Electrical Pulse Method for Plant Seed Electroporation |
| Fertile transgenic plants were regenerated and self-fertilized seeds were obtained in rice and wheat. Transgene integration was confirmed by Southern hybridization. Transmission of the transgene into the next generation (T1) was indicated by PCR analysis… |
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| Mouse/Rat – Muscle |
| Since no surgery is involved, the researcher can easily perform electroporation and do so consecutively in a short period of time. In our opinion, this is the best method. However, as the volume of muscle affects the resistance value, and thus, actual… |
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| Adherent Cells |
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| In Utero Electroporation |
| As evident from the review by H Tabata and K Nakajima in their book ‘Electroporation and Sonoporation in Developmental Biology’, (Chapter 14, In Utero Electroporation: Assay System for Migration of Cerebral Cortical Neurons, p 143 – 152), the optimal… |
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| In Utero Electroporation |
| As evident from the review by H Tabata and K Nakajima in their book ‘Electroporation and Sonoporation in Developmental Biology’, (Chapter 14, In Utero Electroporation: Assay System for Migration of Cerebral Cortical Neurons, p 143 – 152), the optimal… |
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| Zebrafish Fin Electrode Recommendation |
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| Cancer Therapy & CUY21 |
| The CUY21 EDIT and CUY21 SC electroporator range has been used to perform electro-chemotherapy on human skin cancer as a clinical test. Kindly note the article: ‘Electrochemotherapy for digital chondrosarcoma’. In this article, bleomycine is introduced… |
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| CUY21SC - Square Wave Electroporator |
| The CUY21SC measures and displays the delivered current immediately after an EP event. This data is crucial to enable the researcher to verify (on the basis of V=IR) that the correct electroporation protocol has been delivered. As the CUY21SC can measure… |
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| Zebrafish Fin Electrode Recommendation |
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| In Ovo Electroporation |
| Some clients, however, who have to contend with a large number of samples on a daily basis find it difficult to manipulate a pair of electrodes vertically. Such clients prefer to move the pair of electrodes horizontally. The CUY613 series was designed… |
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| Xenopus Tadpole - Tail |
| Kindly note that the article titled: ‘Matrix metalloproteinase expression and function during fin regeneration in zebrafish: Analysis of MT1-MMP, MMP2 and TIMP2*.' This article cites the use of the CUY21EDIT electroporator and the CUY650P3 electrode… |
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| Plant Protoplast Fusion by Electroporation |
| Plant Protoplast Fusion may be performed by Electroporation. Per this new technique, genes are delivered into a seed by electroporation. (This new electroporation method has been developed and patented by Dr. Hagio of the Japanese Institute of… |
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| Mouse/Rat Adult – Brain (Cerebellum) |
| Alternatively, one could use the CUY567 electrode. It too is a needle electrodes but it cannot be used to inject plasmid. Accordingly, one must first inject genes into the brain and then insert the needle electrodes into the target where the plasmid… |
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| Mouse/Rat – Muscle |
| Since no surgery is involved, the researcher can easily perform electroporation and do so consecutively in a short period of time. In our opinion, this is the best method. However, as the volume of muscle affects the resistance value, and thus, actual… |
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| Mouse/Rat – Muscle |
| Since no surgery is involved, the researcher can easily perform electroporation and do so consecutively in a short period of time. In our opinion, this is the best method. However, as the volume of muscle affects the resistance value, and thus, actual… |
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| Mouse/Rat - Skin |
| For your further information, some clients prefer to use the CUY650P electrode series for the same application. The CUY650P series is also a tweezers type electrode but it incorporates disk electrodes. With the CUY650P series, skin is picked up and… |
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| Mouse/Rat - Skin |
| For your further information, some clients prefer to use the CUY650P electrode series for the same application. The CUY650P series is also a tweezers type electrode but it incorporates disk electrodes. With the CUY650P series, skin is picked up and… |
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| Cultured Mouse Embryos and Large Tissue |
| For smaller tissue of less than 0.5mm, we do not recommend the CUY520 series. The reason for this is practical; most clients want to minimize the required volume of DNA as much as possible and do not want to waste DNA. For such applications we believe… |
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| Connector Cables for NEPA21 / CUY21 Electroporator and Electrodes |
| If one uses the tweezers-type electrode with the ECM830 the C117 is not required. The C117 is used to hook a needle-type electrode such as the CUY611 series and the CUY613 series. Tweezers-type electrodes such as the CUY650 series have the required… |
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| Plant Protoplast Fusion By Electro Cell Fusion |
| 3. Unlike the CUY21 range of electroporators, the LF101 and LF201 do not have an automatic safety cut-off switch. As compared with that of CUY21 range, the DC pulse length of both the LF101 and LF201 is very short (usec).  In addition, unlike the… |
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| Protocol: CUY21SC for Mouse and Rat Brain |
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| Adult Mouse and Rat (In vivo) - Liver |
| Zang  et al.Inhibition  of  nuclear  delivery  of  plasmid  DNA  and  transcription  by  interferon  γ: hurdles to be overcome for sustained gene  therapy.Gene  Ther. 2011 Sep;18(9):891-7. doi: 10.1038/gt.2011.35. Epub 2011 Mar 31… |
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| Adult Mouse and Rat (In vivo) - Testis, Ovary |
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| Chick and Quail Embryo (in ovo) - Neural Tube, Mesencephalon, Diencephalon (HH* Stage 10 |
| Please also note the following links and attached articles for further information on the NEPA21’s In Ovo capacity. (Please note where a reference is made in the resource material to the CUY21 systems (EDIT or SC), the NEPA21 replaces them and can… |
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| Vacuum Chamber & CUY21EDIT |
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| CUY21SC - Square Wave Electroporator |
| Because in vivo impedance (electrical resistance) is generally less stable than in vitro impedance, an accurate measurement of the target sample resistance prior to the electroporation event is the most important critical success factor for accurate… |
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| CUY21SC - Square Wave Electroporator |
| The CUY21SC measures and displays the delivered current immediately after an EP event. This data is crucial to enable the researcher to verify (on the basis of V=IR) that the correct electroporation protocol has been delivered. As the CUY21SC can measure… |
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| Compare CUY21 System with Competing Devices |
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| Compare CUY21 System with Competing Devices |
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| Compare CUY21 System with Competing Devices |
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| Compare CUY21 System with Competing Devices |
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| Compare CUY21 System with Competing Devices |
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| Compare CUY21 System with Competing Devices |
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| Compare CUY21 System with Competing Devices |
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| Compare CUY21 System with Competing Devices |
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| Compare CUY21 System with Competing Devices |
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| Compare CUY21 System with Competing Devices |
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| Compare CUY21 System with Competing Devices |
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| Compare CUY21 System with Competing Devices |
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| Adherent Cells |
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| Adherent Cells |
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| Compare CUY21 System with Competing Devices |
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| Compare CUY21 System with Competing Devices |
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| Compare CUY21 System with Competing Devices |
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| Compare CUY21 System with Competing Devices |
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| Compare CUY21 System with Competing Devices |
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| Compare CUY21 System with Competing Devices |
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| Compare CUY21 System with Competing Devices |
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| Compare CUY21 System with Competing Devices |
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| Compare CUY21 System with Competing Devices |
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| Compare CUY21 System with Competing Devices |
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| Vacuum & Electrical Pulse Method for Plant Seed Electroporation |
| Fertile transgenic plants were regenerated and self-fertilized seeds were obtained in rice and wheat. Transgene integration was confirmed by Southern hybridization. Transmission of the transgene into the next generation (T1) was indicated by PCR analysis… |
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| CUY21 Publications by Research Interest |
| Eiko Nakahira and Shigeki Yuasa Neuronal generation, migration, and differentiation in the mouse hippocampal primoridium as revealed by enhanced green fluorescent protein gene transfer by means of in utero electroporation The Journal of Comparative Neurology… |
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| CUY21 Publications by Research Interest |
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| CUY21 Publications by Research Interest |
| Eiko Nakahira and Shigeki Yuasa Neuronal generation, migration, and differentiation in the mouse hippocampal primoridium as revealed by enhanced green fluorescent protein gene transfer by means of in utero electroporation The Journal of Comparative Neurology… |
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| CUY21 Publications by Research Interest |
| Eiko Nakahira and Shigeki Yuasa Neuronal generation, migration, and differentiation in the mouse hippocampal primoridium as revealed by enhanced green fluorescent protein gene transfer by means of in utero electroporation The Journal of Comparative Neurology… |
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| Compare CUY21 System with Competing Devices |
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| Compare CUY21 System with Competing Devices |
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| CUY21 Publications by Research Interest |
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| CUY21 Publication List, Electrode Recommendations and Protocol Information |
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| CUY21 Publication List, Electrode Recommendations and Protocol Information |
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| CUY21SC - Square Wave Electroporator |
| The CUY21SC measures and displays the delivered current immediately after an EP event. This data is crucial to enable the researcher to verify (on the basis of V=IR) that the correct electroporation protocol has been delivered. As the CUY21SC can measure… |
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| CUY21SC - Square Wave Electroporator |
| The CUY21SC measures and displays the delivered current immediately after an EP event. This data is crucial to enable the researcher to verify (on the basis of V=IR) that the correct electroporation protocol has been delivered. As the CUY21SC can measure… |
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| Compare CUY21 System with Competing Devices |
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| Zebrafish Fin |
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| Zebrafish Fin |
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| CUY21 Publication List, Electrode Recommendations and Protocol Information |
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| CUY21 Publication List, Electrode Recommendations and Protocol Information |
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| NEPA21 / CUY21 Publications by Research Interest |
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| CUY21SC Applications and Electrode Recommendations |
| CUY21SC Applications and Electrode Recommendations
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| CUY21SC Applications and Electrode Recommendations |
| CUY21SC Applications and Electrode Recommendations
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| CUY21 Publications by Research Interest |
| Eiko Nakahira and Shigeki Yuasa Neuronal generation, migration, and differentiation in the mouse hippocampal primoridium as revealed by enhanced green fluorescent protein gene transfer by means of in utero electroporation The Journal of Comparative Neurology… |
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| Compare CUY21 System with Competing Devices |
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| Compare CUY21 System with Competing Devices |
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| Compare CUY21 System with Competing Devices |
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| Compare CUY21 System with Competing Devices |
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| Compare CUY21 System with Competing Devices |
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| Compare CUY21 System with Competing Devices |
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| Compare CUY21 System with Competing Devices |
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| Compare CUY21 System with Competing Devices |
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| Compare CUY21 System with Competing Devices |
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| Compare CUY21 System with Competing Devices |
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| Compare CUY21 System with Competing Devices |
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| Compare CUY21 System with Competing Devices |
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| CUY21 Publication List, Electrode Recommendations and Protocol Information |
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| CUY21 Publication List, Electrode Recommendations and Protocol Information |
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| Compare CUY21 System with Competing Devices |
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| NEPA21 / CUY21 Publications by Research Interest |
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| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The NEPA21 can do in one device what each of the EDIT and SC did individually, i.e., it combines BOTH the… |
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| CUY21 Publications by Research Interest |
| Eiko Nakahira and Shigeki Yuasa Neuronal generation, migration, and differentiation in the mouse hippocampal primoridium as revealed by enhanced green fluorescent protein gene transfer by means of in utero electroporation The Journal of Comparative Neurology… |
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| CUY21 Publication List, Electrode Recommendations and Protocol Information |
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| CUY21 Publication List, Electrode Recommendations and Protocol Information |
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| Compare CUY21 System with Competing Devices |
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| CUY21SC Applications and Electrode Recommendations |
| CUY21SC Applications and Electrode Recommendations
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| CUY21SC Applications and Electrode Recommendations |
| CUY21SC Applications and Electrode Recommendations
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| CUY21SC Applications and Electrode Recommendations |
| CUY21SC Applications and Electrode Recommendations
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| CUY21 Publications by Research Interest |
| Eiko Nakahira and Shigeki Yuasa Neuronal generation, migration, and differentiation in the mouse hippocampal primoridium as revealed by enhanced green fluorescent protein gene transfer by means of in utero electroporation The Journal of Comparative Neurology… |
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| CUY21 Publications by Research Interest |
| Eiko Nakahira and Shigeki Yuasa Neuronal generation, migration, and differentiation in the mouse hippocampal primoridium as revealed by enhanced green fluorescent protein gene transfer by means of in utero electroporation The Journal of Comparative Neurology… |
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| CUY21 Publications by Research Interest |
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| CUY21 Publications by Research Interest |
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| CUY21 Publications by Research Interest |
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| CUY21 Publications by Research Interest |
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| CUY21 Publications by Research Interest |
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| Compare CUY21 System with Competing Devices |
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| CUY21 Publication List, Electrode Recommendations and Protocol Information |
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| CUY21 Publication List, Electrode Recommendations and Protocol Information |
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| CUY21 Publication List, Electrode Recommendations and Protocol Information |
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| NEPA21_Retina_EP |
| (B) The current was applied with the positive electrode contralateral to the injected eye. After prior injection of plasmid DNA into the subretinal space of the right eye, this arrangement electrophoresed the negatively-charged DNA toward the RPE layer… |
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| CUY21SC - Square Wave Electroporator |
| The CUY21SC measures and displays the delivered current immediately after an EP event. This data is crucial to enable the researcher to verify (on the basis of V=IR) that the correct electroporation protocol has been delivered. As the CUY21SC can measure… |
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| CUY21SC - Square Wave Electroporator |
| The CUY21SC measures and displays the delivered current immediately after an EP event. This data is crucial to enable the researcher to verify (on the basis of V=IR) that the correct electroporation protocol has been delivered. As the CUY21SC can measure… |
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| CUY21SC - Square Wave Electroporator |
| The CUY21SC measures and displays the delivered current immediately after an EP event. This data is crucial to enable the researcher to verify (on the basis of V=IR) that the correct electroporation protocol has been delivered. As the CUY21SC can measure… |
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| CUY21SC - Square Wave Electroporator |
| The CUY21SC measures and displays the delivered current immediately after an EP event. This data is crucial to enable the researcher to verify (on the basis of V=IR) that the correct electroporation protocol has been delivered. As the CUY21SC can measure… |
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| CUY21SC - Square Wave Electroporator |
| The CUY21SC measures and displays the delivered current immediately after an EP event. This data is crucial to enable the researcher to verify (on the basis of V=IR) that the correct electroporation protocol has been delivered. As the CUY21SC can measure… |
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| CUY21SC - Square Wave Electroporator |
| The CUY21SC measures and displays the delivered current immediately after an EP event. This data is crucial to enable the researcher to verify (on the basis of V=IR) that the correct electroporation protocol has been delivered. As the CUY21SC can measure… |
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| CUY21SC - Square Wave Electroporator |
| The CUY21SC measures and displays the delivered current immediately after an EP event. This data is crucial to enable the researcher to verify (on the basis of V=IR) that the correct electroporation protocol has been delivered. As the CUY21SC can measure… |
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| CUY21SC - Square Wave Electroporator |
| The CUY21SC measures and displays the delivered current immediately after an EP event. This data is crucial to enable the researcher to verify (on the basis of V=IR) that the correct electroporation protocol has been delivered. As the CUY21SC can measure… |
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| CUY21SC - Square Wave Electroporator |
| The CUY21SC measures and displays the delivered current immediately after an EP event. This data is crucial to enable the researcher to verify (on the basis of V=IR) that the correct electroporation protocol has been delivered. As the CUY21SC can measure… |
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| CUY21SC - Square Wave Electroporator |
| The CUY21SC measures and displays the delivered current immediately after an EP event. This data is crucial to enable the researcher to verify (on the basis of V=IR) that the correct electroporation protocol has been delivered. As the CUY21SC can measure… |
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| CUY21SC - Square Wave Electroporator |
| The CUY21SC measures and displays the delivered current immediately after an EP event. This data is crucial to enable the researcher to verify (on the basis of V=IR) that the correct electroporation protocol has been delivered. As the CUY21SC can measure… |
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| CUY21SC - Square Wave Electroporator |
| The CUY21SC measures and displays the delivered current immediately after an EP event. This data is crucial to enable the researcher to verify (on the basis of V=IR) that the correct electroporation protocol has been delivered. As the CUY21SC can measure… |
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| CUY21SC - Square Wave Electroporator |
| The CUY21SC measures and displays the delivered current immediately after an EP event. This data is crucial to enable the researcher to verify (on the basis of V=IR) that the correct electroporation protocol has been delivered. As the CUY21SC can measure… |
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| CUY21SC - Square Wave Electroporator |
| The CUY21SC measures and displays the delivered current immediately after an EP event. This data is crucial to enable the researcher to verify (on the basis of V=IR) that the correct electroporation protocol has been delivered. As the CUY21SC can measure… |
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| CUY21SC - Square Wave Electroporator |
| The CUY21SC measures and displays the delivered current immediately after an EP event. This data is crucial to enable the researcher to verify (on the basis of V=IR) that the correct electroporation protocol has been delivered. As the CUY21SC can measure… |
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| CUY21SC - Square Wave Electroporator |
| The CUY21SC measures and displays the delivered current immediately after an EP event. This data is crucial to enable the researcher to verify (on the basis of V=IR) that the correct electroporation protocol has been delivered. As the CUY21SC can measure… |
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| CUY21SC - Square Wave Electroporator |
| The CUY21SC measures and displays the delivered current immediately after an EP event. This data is crucial to enable the researcher to verify (on the basis of V=IR) that the correct electroporation protocol has been delivered. As the CUY21SC can measure… |
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| CUY21SC - Square Wave Electroporator |
| The CUY21SC measures and displays the delivered current immediately after an EP event. This data is crucial to enable the researcher to verify (on the basis of V=IR) that the correct electroporation protocol has been delivered. As the CUY21SC can measure… |
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| CUY21SC - Square Wave Electroporator |
| The CUY21SC measures and displays the delivered current immediately after an EP event. This data is crucial to enable the researcher to verify (on the basis of V=IR) that the correct electroporation protocol has been delivered. As the CUY21SC can measure… |
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| CUY21SC - Square Wave Electroporator |
| The CUY21SC measures and displays the delivered current immediately after an EP event. This data is crucial to enable the researcher to verify (on the basis of V=IR) that the correct electroporation protocol has been delivered. As the CUY21SC can measure… |
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| CUY21SC - Square Wave Electroporator |
| The CUY21SC measures and displays the delivered current immediately after an EP event. This data is crucial to enable the researcher to verify (on the basis of V=IR) that the correct electroporation protocol has been delivered. As the CUY21SC can measure… |
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| CUY21SC - Square Wave Electroporator |
| The CUY21SC measures and displays the delivered current immediately after an EP event. This data is crucial to enable the researcher to verify (on the basis of V=IR) that the correct electroporation protocol has been delivered. As the CUY21SC can measure… |
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| CUY21SC - Square Wave Electroporator |
| The CUY21SC measures and displays the delivered current immediately after an EP event. This data is crucial to enable the researcher to verify (on the basis of V=IR) that the correct electroporation protocol has been delivered. As the CUY21SC can measure… |
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| CUY21SC - Square Wave Electroporator |
| The CUY21SC measures and displays the delivered current immediately after an EP event. This data is crucial to enable the researcher to verify (on the basis of V=IR) that the correct electroporation protocol has been delivered. As the CUY21SC can measure… |
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| CUY21SC - Square Wave Electroporator |
| The CUY21SC measures and displays the delivered current immediately after an EP event. This data is crucial to enable the researcher to verify (on the basis of V=IR) that the correct electroporation protocol has been delivered. As the CUY21SC can measure… |
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| CUY21SC - Square Wave Electroporator |
| The CUY21SC measures and displays the delivered current immediately after an EP event. This data is crucial to enable the researcher to verify (on the basis of V=IR) that the correct electroporation protocol has been delivered. As the CUY21SC can measure… |
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| CUY21SC - Square Wave Electroporator |
| The CUY21SC measures and displays the delivered current immediately after an EP event. This data is crucial to enable the researcher to verify (on the basis of V=IR) that the correct electroporation protocol has been delivered. As the CUY21SC can measure… |
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| CUY21SC - Square Wave Electroporator |
| The CUY21SC measures and displays the delivered current immediately after an EP event. This data is crucial to enable the researcher to verify (on the basis of V=IR) that the correct electroporation protocol has been delivered. As the CUY21SC can measure… |
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| CUY21 Publications by Research Interest |
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| Cancer Therapy & CUY21 |
| The CUY21 EDIT and CUY21 SC electroporator range has been used to perform electro-chemotherapy on human skin cancer as a clinical test. Kindly note the article: ‘Electrochemotherapy for digital chondrosarcoma’. In this article, bleomycine is introduced… |
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| Cancer Therapy & CUY21 |
| The CUY21 has also been used to perform electroporation on hepatocellular carcinoma (HCC). Kindly note the paper titled: ‘Electroporation-mediated Interleukin-12 Gene Therapy for Hepatocellular carcinoma in Mice Models'. In this paper, genes which… |
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| CUY21 Publications by Research Interest |
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| CUY21SC - Square Wave Electroporator |
| The CUY21SC measures and displays the delivered current immediately after an EP event. This data is crucial to enable the researcher to verify (on the basis of V=IR) that the correct electroporation protocol has been delivered. As the CUY21SC can measure… |
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| CUY21SC - Square Wave Electroporator |
| The CUY21SC measures and displays the delivered current immediately after an EP event. This data is crucial to enable the researcher to verify (on the basis of V=IR) that the correct electroporation protocol has been delivered. As the CUY21SC can measure… |
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| CUY21SC - Square Wave Electroporator |
| The CUY21SC measures and displays the delivered current immediately after an EP event. This data is crucial to enable the researcher to verify (on the basis of V=IR) that the correct electroporation protocol has been delivered. As the CUY21SC can measure… |
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| CUY21SC - Square Wave Electroporator |
| The CUY21SC measures and displays the delivered current immediately after an EP event. This data is crucial to enable the researcher to verify (on the basis of V=IR) that the correct electroporation protocol has been delivered. As the CUY21SC can measure… |
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| CUY21SC - Square Wave Electroporator |
| The CUY21SC measures and displays the delivered current immediately after an EP event. This data is crucial to enable the researcher to verify (on the basis of V=IR) that the correct electroporation protocol has been delivered. As the CUY21SC can measure… |
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| CUY21SC - Square Wave Electroporator |
| The CUY21SC measures and displays the delivered current immediately after an EP event. This data is crucial to enable the researcher to verify (on the basis of V=IR) that the correct electroporation protocol has been delivered. As the CUY21SC can measure… |
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| CUY21SC - Square Wave Electroporator |
| The CUY21SC measures and displays the delivered current immediately after an EP event. This data is crucial to enable the researcher to verify (on the basis of V=IR) that the correct electroporation protocol has been delivered. As the CUY21SC can measure… |
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| CUY21SC - Square Wave Electroporator |
| The CUY21SC measures and displays the delivered current immediately after an EP event. This data is crucial to enable the researcher to verify (on the basis of V=IR) that the correct electroporation protocol has been delivered. As the CUY21SC can measure… |
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| CUY21SC - Square Wave Electroporator |
| The CUY21SC measures and displays the delivered current immediately after an EP event. This data is crucial to enable the researcher to verify (on the basis of V=IR) that the correct electroporation protocol has been delivered. As the CUY21SC can measure… |
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| CUY21SC - Square Wave Electroporator |
| The CUY21SC measures and displays the delivered current immediately after an EP event. This data is crucial to enable the researcher to verify (on the basis of V=IR) that the correct electroporation protocol has been delivered. As the CUY21SC can measure… |
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| CUY21SC - Square Wave Electroporator |
| The CUY21SC measures and displays the delivered current immediately after an EP event. This data is crucial to enable the researcher to verify (on the basis of V=IR) that the correct electroporation protocol has been delivered. As the CUY21SC can measure… |
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| CUY21SC - Square Wave Electroporator |
| The CUY21SC measures and displays the delivered current immediately after an EP event. This data is crucial to enable the researcher to verify (on the basis of V=IR) that the correct electroporation protocol has been delivered. As the CUY21SC can measure… |
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| CUY21SC - Square Wave Electroporator |
| The CUY21SC measures and displays the delivered current immediately after an EP event. This data is crucial to enable the researcher to verify (on the basis of V=IR) that the correct electroporation protocol has been delivered. As the CUY21SC can measure… |
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| CUY21SC - Square Wave Electroporator |
| The CUY21SC measures and displays the delivered current immediately after an EP event. This data is crucial to enable the researcher to verify (on the basis of V=IR) that the correct electroporation protocol has been delivered. As the CUY21SC can measure… |
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| CUY21SC - Square Wave Electroporator |
| The CUY21SC measures and displays the delivered current immediately after an EP event. This data is crucial to enable the researcher to verify (on the basis of V=IR) that the correct electroporation protocol has been delivered. As the CUY21SC can measure… |
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| CUY21SC - Square Wave Electroporator |
| The CUY21SC measures and displays the delivered current immediately after an EP event. This data is crucial to enable the researcher to verify (on the basis of V=IR) that the correct electroporation protocol has been delivered. As the CUY21SC can measure… |
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| CUY21SC - Square Wave Electroporator |
| The CUY21SC measures and displays the delivered current immediately after an EP event. This data is crucial to enable the researcher to verify (on the basis of V=IR) that the correct electroporation protocol has been delivered. As the CUY21SC can measure… |
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| CUY21SC - Square Wave Electroporator |
| The CUY21SC measures and displays the delivered current immediately after an EP event. This data is crucial to enable the researcher to verify (on the basis of V=IR) that the correct electroporation protocol has been delivered. As the CUY21SC can measure… |
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| CUY21SC - Square Wave Electroporator |
| The CUY21SC measures and displays the delivered current immediately after an EP event. This data is crucial to enable the researcher to verify (on the basis of V=IR) that the correct electroporation protocol has been delivered. As the CUY21SC can measure… |
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| CUY21SC - Square Wave Electroporator |
| The CUY21SC measures and displays the delivered current immediately after an EP event. This data is crucial to enable the researcher to verify (on the basis of V=IR) that the correct electroporation protocol has been delivered. As the CUY21SC can measure… |
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| CUY21SC - Square Wave Electroporator |
| The CUY21SC measures and displays the delivered current immediately after an EP event. This data is crucial to enable the researcher to verify (on the basis of V=IR) that the correct electroporation protocol has been delivered. As the CUY21SC can measure… |
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| CUY21SC - Square Wave Electroporator |
| The CUY21SC measures and displays the delivered current immediately after an EP event. This data is crucial to enable the researcher to verify (on the basis of V=IR) that the correct electroporation protocol has been delivered. As the CUY21SC can measure… |
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| Cancer Therapy & CUY21 |
| The CUY21 has also been used to perform electroporation on hepatocellular carcinoma (HCC). Kindly note the paper titled: ‘Electroporation-mediated Interleukin-12 Gene Therapy for Hepatocellular carcinoma in Mice Models'. In this paper, genes which… |
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| Comparison of the CUY21SC and BTX ECM830 Square Waves at various voltages |
| This page is password protected and is provided exclusively for the use of SONIDEL Limited customers who have signed up for membership of the SONIDEL Limited webstie (www.sonidel.com) AND who have specifically requested access to this information. … |
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| Cancer Therapy & CUY21 |
| The CUY21 has also been used to perform electroporation on hepatocellular carcinoma (HCC). Kindly note the paper titled: ‘Electroporation-mediated Interleukin-12 Gene Therapy for Hepatocellular carcinoma in Mice Models'. In this paper, genes which… |
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| Electroporation Protocols - In Vitro, In Ovo, In Utero, In Vivo, Ex Vivo and New Culture |
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| Electroporation Protocols - In Vitro, In Ovo, In Utero, In Vivo, Ex Vivo and New Culture |
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| Electroporation Protocols - In Vitro, In Ovo, In Utero, In Vivo, Ex Vivo and New Culture |
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| Electroporation Protocols - In Vitro, In Ovo, In Utero, In Vivo, Ex Vivo and New Culture |
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| Electroporation Protocols - In Vitro, In Ovo, In Utero, In Vivo, Ex Vivo and New Culture |
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| NEPA21_Retina_EP |
| (B) The current was applied with the positive electrode contralateral to the injected eye. After prior injection of plasmid DNA into the subretinal space of the right eye, this arrangement electrophoresed the negatively-charged DNA toward the RPE layer… |
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| Electroporation Protocols - In Vitro, In Ovo, In Utero, In Vivo, Ex Vivo and New Culture |
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| In Utero Electroporation |
| As evident from the review by H Tabata and K Nakajima in their book ‘Electroporation and Sonoporation in Developmental Biology’, (Chapter 14, In Utero Electroporation: Assay System for Migration of Cerebral Cortical Neurons, p 143 – 152), the optimal… |
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| In Utero Electroporation |
| As evident from the review by H Tabata and K Nakajima in their book ‘Electroporation and Sonoporation in Developmental Biology’, (Chapter 14, In Utero Electroporation: Assay System for Migration of Cerebral Cortical Neurons, p 143 – 152), the optimal… |
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| In Utero Electroporation |
| As evident from the review by H Tabata and K Nakajima in their book ‘Electroporation and Sonoporation in Developmental Biology’, (Chapter 14, In Utero Electroporation: Assay System for Migration of Cerebral Cortical Neurons, p 143 – 152), the optimal… |
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| In Utero Electroporation |
| As evident from the review by H Tabata and K Nakajima in their book ‘Electroporation and Sonoporation in Developmental Biology’, (Chapter 14, In Utero Electroporation: Assay System for Migration of Cerebral Cortical Neurons, p 143 – 152), the optimal… |
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| In Utero Electroporation |
| As evident from the review by H Tabata and K Nakajima in their book ‘Electroporation and Sonoporation in Developmental Biology’, (Chapter 14, In Utero Electroporation: Assay System for Migration of Cerebral Cortical Neurons, p 143 – 152), the optimal… |
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| In Utero Electroporation |
| As evident from the review by H Tabata and K Nakajima in their book ‘Electroporation and Sonoporation in Developmental Biology’, (Chapter 14, In Utero Electroporation: Assay System for Migration of Cerebral Cortical Neurons, p 143 – 152), the optimal… |
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| In Utero Electroporation |
| As evident from the review by H Tabata and K Nakajima in their book ‘Electroporation and Sonoporation in Developmental Biology’, (Chapter 14, In Utero Electroporation: Assay System for Migration of Cerebral Cortical Neurons, p 143 – 152), the optimal… |
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| In Utero Electroporation |
| As evident from the review by H Tabata and K Nakajima in their book ‘Electroporation and Sonoporation in Developmental Biology’, (Chapter 14, In Utero Electroporation: Assay System for Migration of Cerebral Cortical Neurons, p 143 – 152), the optimal… |
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| In Utero Electroporation |
| As evident from the review by H Tabata and K Nakajima in their book ‘Electroporation and Sonoporation in Developmental Biology’, (Chapter 14, In Utero Electroporation: Assay System for Migration of Cerebral Cortical Neurons, p 143 – 152), the optimal… |
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| In Utero Electroporation |
| As evident from the review by H Tabata and K Nakajima in their book ‘Electroporation and Sonoporation in Developmental Biology’, (Chapter 14, In Utero Electroporation: Assay System for Migration of Cerebral Cortical Neurons, p 143 – 152), the optimal… |
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| CUY21SC - Square Wave Electroporator |
| The CUY21SC measures and displays the delivered current immediately after an EP event. This data is crucial to enable the researcher to verify (on the basis of V=IR) that the correct electroporation protocol has been delivered. As the CUY21SC can measure… |
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| CUY21SC - Square Wave Electroporator |
| The CUY21SC measures and displays the delivered current immediately after an EP event. This data is crucial to enable the researcher to verify (on the basis of V=IR) that the correct electroporation protocol has been delivered. As the CUY21SC can measure… |
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| CUY21SC - Square Wave Electroporator |
| The CUY21SC measures and displays the delivered current immediately after an EP event. This data is crucial to enable the researcher to verify (on the basis of V=IR) that the correct electroporation protocol has been delivered. As the CUY21SC can measure… |
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| CUY21SC - Square Wave Electroporator |
| The CUY21SC measures and displays the delivered current immediately after an EP event. This data is crucial to enable the researcher to verify (on the basis of V=IR) that the correct electroporation protocol has been delivered. As the CUY21SC can measure… |
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| CUY21SC - Square Wave Electroporator |
| The CUY21SC measures and displays the delivered current immediately after an EP event. This data is crucial to enable the researcher to verify (on the basis of V=IR) that the correct electroporation protocol has been delivered. As the CUY21SC can measure… |
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| CUY21 Publication List, Electrode Recommendations and Protocol Information |
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| CUY21 Publication List, Electrode Recommendations and Protocol Information |
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| CUY21 Publication List, Electrode Recommendations and Protocol Information |
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| CUY21 Publication List, Electrode Recommendations and Protocol Information |
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| CUY21 Publication List, Electrode Recommendations and Protocol Information |
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| CUY21 Publication List, Electrode Recommendations and Protocol Information |
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| CUY21 Publication List, Electrode Recommendations and Protocol Information |
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| CUY21 Publication List, Electrode Recommendations and Protocol Information |
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| CUY21 Publication List, Electrode Recommendations and Protocol Information |
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| CUY21 Publication List, Electrode Recommendations and Protocol Information |
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| CUY21 Publication List, Electrode Recommendations and Protocol Information |
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| CUY21 Publication List, Electrode Recommendations and Protocol Information |
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| Improve Electroporation Transfection Efficiency with the CU902 Polarity Exchanger |
| During electroporation, DNA naturally moves to and accumulates at the positive (+) electrode pole (similar to the process in electrophoresis). However, such accumulation (if not addressed) adversely impacts on electroporation transfection efficiency… |
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| Improve Electroporation Transfection Efficiency with the CU902 Polarity Exchanger |
| During electroporation, DNA naturally moves to and accumulates at the positive (+) electrode pole (similar to the process in electrophoresis). However, such accumulation (if not addressed) adversely impacts on electroporation transfection efficiency… |
| |
| Improve Electroporation Transfection Efficiency with the CU902 Polarity Exchanger |
| During electroporation, DNA naturally moves to and accumulates at the positive (+) electrode pole (similar to the process in electrophoresis). However, such accumulation (if not addressed) adversely impacts on electroporation transfection efficiency… |
| |
| Improve Electroporation Transfection Efficiency with the CU902 Polarity Exchanger |
| During electroporation, DNA naturally moves to and accumulates at the positive (+) electrode pole (similar to the process in electrophoresis). However, such accumulation (if not addressed) adversely impacts on electroporation transfection efficiency… |
| |
| Improve Electroporation Transfection Efficiency with the CU902 Polarity Exchanger |
| During electroporation, DNA naturally moves to and accumulates at the positive (+) electrode pole (similar to the process in electrophoresis). However, such accumulation (if not addressed) adversely impacts on electroporation transfection efficiency… |
| |
| Improve Electroporation Transfection Efficiency with the CU902 Polarity Exchanger |
| During electroporation, DNA naturally moves to and accumulates at the positive (+) electrode pole (similar to the process in electrophoresis). However, such accumulation (if not addressed) adversely impacts on electroporation transfection efficiency… |
| |
| Improve Electroporation Transfection Efficiency with the CU902 Polarity Exchanger |
| During electroporation, DNA naturally moves to and accumulates at the positive (+) electrode pole (similar to the process in electrophoresis). However, such accumulation (if not addressed) adversely impacts on electroporation transfection efficiency… |
| |
| Improve Electroporation Transfection Efficiency with the CU902 Polarity Exchanger |
| During electroporation, DNA naturally moves to and accumulates at the positive (+) electrode pole (similar to the process in electrophoresis). However, such accumulation (if not addressed) adversely impacts on electroporation transfection efficiency… |
| |
| Improve Electroporation Transfection Efficiency with the CU902 Polarity Exchanger |
| During electroporation, DNA naturally moves to and accumulates at the positive (+) electrode pole (similar to the process in electrophoresis). However, such accumulation (if not addressed) adversely impacts on electroporation transfection efficiency… |
| |
| Improve Electroporation Transfection Efficiency with the CU902 Polarity Exchanger |
| During electroporation, DNA naturally moves to and accumulates at the positive (+) electrode pole (similar to the process in electrophoresis). However, such accumulation (if not addressed) adversely impacts on electroporation transfection efficiency… |
| |
| Improve Electroporation Transfection Efficiency with the CU902 Polarity Exchanger |
| During electroporation, DNA naturally moves to and accumulates at the positive (+) electrode pole (similar to the process in electrophoresis). However, such accumulation (if not addressed) adversely impacts on electroporation transfection efficiency… |
| |
| Improve Electroporation Transfection Efficiency with the CU902 Polarity Exchanger |
| During electroporation, DNA naturally moves to and accumulates at the positive (+) electrode pole (similar to the process in electrophoresis). However, such accumulation (if not addressed) adversely impacts on electroporation transfection efficiency… |
| |
| Improve Electroporation Transfection Efficiency with the CU902 Polarity Exchanger |
| During electroporation, DNA naturally moves to and accumulates at the positive (+) electrode pole (similar to the process in electrophoresis). However, such accumulation (if not addressed) adversely impacts on electroporation transfection efficiency… |
| |
| Improve Electroporation Transfection Efficiency with the CU902 Polarity Exchanger |
| During electroporation, DNA naturally moves to and accumulates at the positive (+) electrode pole (similar to the process in electrophoresis). However, such accumulation (if not addressed) adversely impacts on electroporation transfection efficiency… |
| |
| Improve Electroporation Transfection Efficiency with the CU902 Polarity Exchanger |
| During electroporation, DNA naturally moves to and accumulates at the positive (+) electrode pole (similar to the process in electrophoresis). However, such accumulation (if not addressed) adversely impacts on electroporation transfection efficiency… |
| |
| Improve Electroporation Transfection Efficiency with the CU902 Polarity Exchanger |
| During electroporation, DNA naturally moves to and accumulates at the positive (+) electrode pole (similar to the process in electrophoresis). However, such accumulation (if not addressed) adversely impacts on electroporation transfection efficiency… |
| |
| Improve Electroporation Transfection Efficiency with the CU902 Polarity Exchanger |
| During electroporation, DNA naturally moves to and accumulates at the positive (+) electrode pole (similar to the process in electrophoresis). However, such accumulation (if not addressed) adversely impacts on electroporation transfection efficiency… |
| |
| Improve Electroporation Transfection Efficiency with the CU902 Polarity Exchanger |
| During electroporation, DNA naturally moves to and accumulates at the positive (+) electrode pole (similar to the process in electrophoresis). However, such accumulation (if not addressed) adversely impacts on electroporation transfection efficiency… |
| |
| Improve Electroporation Transfection Efficiency with the CU902 Polarity Exchanger |
| During electroporation, DNA naturally moves to and accumulates at the positive (+) electrode pole (similar to the process in electrophoresis). However, such accumulation (if not addressed) adversely impacts on electroporation transfection efficiency… |
| |
| Improve Electroporation Transfection Efficiency with the CU902 Polarity Exchanger |
| During electroporation, DNA naturally moves to and accumulates at the positive (+) electrode pole (similar to the process in electrophoresis). However, such accumulation (if not addressed) adversely impacts on electroporation transfection efficiency… |
| |
| Improve Electroporation Transfection Efficiency with the CU902 Polarity Exchanger |
| During electroporation, DNA naturally moves to and accumulates at the positive (+) electrode pole (similar to the process in electrophoresis). However, such accumulation (if not addressed) adversely impacts on electroporation transfection efficiency… |
| |
| Improve Electroporation Transfection Efficiency with the CU902 Polarity Exchanger |
| During electroporation, DNA naturally moves to and accumulates at the positive (+) electrode pole (similar to the process in electrophoresis). However, such accumulation (if not addressed) adversely impacts on electroporation transfection efficiency… |
| |
| Improve Electroporation Transfection Efficiency with the CU902 Polarity Exchanger |
| During electroporation, DNA naturally moves to and accumulates at the positive (+) electrode pole (similar to the process in electrophoresis). However, such accumulation (if not addressed) adversely impacts on electroporation transfection efficiency… |
| |
| Improve Electroporation Transfection Efficiency with the CU902 Polarity Exchanger |
| During electroporation, DNA naturally moves to and accumulates at the positive (+) electrode pole (similar to the process in electrophoresis). However, such accumulation (if not addressed) adversely impacts on electroporation transfection efficiency… |
| |
| Improve Electroporation Transfection Efficiency with the CU902 Polarity Exchanger |
| During electroporation, DNA naturally moves to and accumulates at the positive (+) electrode pole (similar to the process in electrophoresis). However, such accumulation (if not addressed) adversely impacts on electroporation transfection efficiency… |
| |
| Improve Electroporation Transfection Efficiency with the CU902 Polarity Exchanger |
| During electroporation, DNA naturally moves to and accumulates at the positive (+) electrode pole (similar to the process in electrophoresis). However, such accumulation (if not addressed) adversely impacts on electroporation transfection efficiency… |
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| Mouse/Rat - Skin |
| For your further information, some clients prefer to use the CUY650P electrode series for the same application. The CUY650P series is also a tweezers type electrode but it incorporates disk electrodes. With the CUY650P series, skin is picked up and… |
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| Cables for Electrodes |
| If one uses the tweezers-type electrode with the ECM830 the C117 is not required. The C117 is used to hook a needle-type electrode such as the CUY611 series and the CUY613 series. Tweezers-type electrodes such as the CUY650 series have the required… |
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| Plant Protoplast Fusion By Electro Cell Fusion |
| 3. Unlike the CUY21 range of electroporators, the LF101 and LF201 do not have an automatic safety cut-off switch. As compared with that of CUY21 range, the DC pulse length of both the LF101 and LF201 is very short (usec).  In addition, unlike the… |
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| Mouse/Rat Adult – Brain (Cerebellum) |
| Alternatively, one could use the CUY567 electrode. It too is a needle electrodes but it cannot be used to inject plasmid. Accordingly, one must first inject genes into the brain and then insert the needle electrodes into the target where the plasmid… |
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| Mouse/Rat Adult – Brain (Cerebellum) |
| Alternatively, one could use the CUY567 electrode. It too is a needle electrodes but it cannot be used to inject plasmid. Accordingly, one must first inject genes into the brain and then insert the needle electrodes into the target where the plasmid… |
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| Mouse/Rat Adult – Brain (Cerebellum) |
| Alternatively, one could use the CUY567 electrode. It too is a needle electrodes but it cannot be used to inject plasmid. Accordingly, one must first inject genes into the brain and then insert the needle electrodes into the target where the plasmid… |
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| Mouse/Rat Adult – Brain (Cerebellum) |
| Alternatively, one could use the CUY567 electrode. It too is a needle electrodes but it cannot be used to inject plasmid. Accordingly, one must first inject genes into the brain and then insert the needle electrodes into the target where the plasmid… |
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| NEPA21 / CUY21 Illustrated Applications |
| A 2 cm midline incision is then made in the abdominal wall along the linea alba using a set of forceps and scissors. A piece of sterile gauze with a hole cut in the center is placed over the incision, and one uterine horn is drawn out through the hole… |
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| NEPA21 / CUY21 Illustrated Applications |
| A 2 cm midline incision is then made in the abdominal wall along the linea alba using a set of forceps and scissors. A piece of sterile gauze with a hole cut in the center is placed over the incision, and one uterine horn is drawn out through the hole… |
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| Mouse/Rat Adult – Brain (Cerebellum) |
| Alternatively, one could use the CUY567 electrode. It too is a needle electrodes but it cannot be used to inject plasmid. Accordingly, one must first inject genes into the brain and then insert the needle electrodes into the target where… |
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| Method to introduce genes into epithelial cells of the chicken embryonic stomach (proventriculus) |
| 4. Apply pulses of 30V for 15 times with pulse length of 50ms, and interval time of 75ms. Remove agarose gel immediately and wash it in Tyrode's solution. Then take out the tissues from the gel and wash them well in Tryode's solution. The tissues… |
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| CUY21 Illustrated Applications |
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| CUY21 Illustrated Applications |
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| CUY21 Illustrated Applications |
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| CUY21SC - Square Wave Electroporator |
| The CUY21SC measures and displays the delivered current immediately after an EP event. This data is crucial to enable the researcher to verify (on the basis of V=IR) that the correct electroporation protocol has been delivered. As the CUY21SC can measure… |
| |
| CUY21SC - Square Wave Electroporator |
| The CUY21SC measures and displays the delivered current immediately after an EP event. This data is crucial to enable the researcher to verify (on the basis of V=IR) that the correct electroporation protocol has been delivered. As the CUY21SC can measure… |
| |
| CUY21SC - Square Wave Electroporator |
| The CUY21SC measures and displays the delivered current immediately after an EP event. This data is crucial to enable the researcher to verify (on the basis of V=IR) that the correct electroporation protocol has been delivered. As the CUY21SC can measure… |
| |
| CUY21SC - Square Wave Electroporator |
| The CUY21SC measures and displays the delivered current immediately after an EP event. This data is crucial to enable the researcher to verify (on the basis of V=IR) that the correct electroporation protocol has been delivered. As the CUY21SC can measure… |
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| CUY21 Publications by Research Interest |
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| CUY21 Publications by Research Interest |
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| CUY21 Publications by Research Interest |
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| CUY21 Publications by Research Interest |
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| CUY21 Publications by Research Interest |
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| CUY21 Publications by Research Interest |
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| CUY21 Publications by Research Interest |
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| CUY21 Publications by Research Interest |
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| CUY21 Publications by Research Interest |
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| CUY21 Publications by Research Interest |
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| CUY21 Publications by Research Interest |
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| CUY21 Publications by Research Interest |
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| CUY21 Publications by Research Interest |
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| CUY21 Publications by Research Interest |
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| CUY21 Publications by Research Interest |
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| CUY21 Publications by Research Interest |
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| CUY21 Publications by Research Interest |
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| CUY21 Publications by Research Interest |
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| CUY21SC - Square Wave Electroporator |
| The CUY21SC measures and displays the delivered current immediately after an EP event. This data is crucial to enable the researcher to verify (on the basis of V=IR) that the correct electroporation protocol has been delivered. As the CUY21SC can measure… |
| |
| CUY21SC - Square Wave Electroporator |
| The CUY21SC measures and displays the delivered current immediately after an EP event. This data is crucial to enable the researcher to verify (on the basis of V=IR) that the correct electroporation protocol has been delivered. As the CUY21SC can measure… |
| |
| CUY21SC - Square Wave Electroporator |
| The CUY21SC measures and displays the delivered current immediately after an EP event. This data is crucial to enable the researcher to verify (on the basis of V=IR) that the correct electroporation protocol has been delivered. As the CUY21SC can measure… |
| |
| CUY21SC - Square Wave Electroporator |
| The CUY21SC measures and displays the delivered current immediately after an EP event. This data is crucial to enable the researcher to verify (on the basis of V=IR) that the correct electroporation protocol has been delivered. As the CUY21SC can measure… |
| |
| CUY21SC - Square Wave Electroporator |
| The CUY21SC measures and displays the delivered current immediately after an EP event. This data is crucial to enable the researcher to verify (on the basis of V=IR) that the correct electroporation protocol has been delivered. As the CUY21SC can measure… |
| |
| CUY21SC - Square Wave Electroporator |
| The CUY21SC measures and displays the delivered current immediately after an EP event. This data is crucial to enable the researcher to verify (on the basis of V=IR) that the correct electroporation protocol has been delivered. As the CUY21SC can measure… |
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| CUY21SC - Square Wave Electroporator |
| The resistance of an EP target varies according to physical experimental factors such as the volume of the sample, the buffer used and the distance between the electrodes. Fluctuations in resistance impact on delivered current values and this negatively… |
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| CUY21 Illustrated Applications |
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| Gene transfer into embryonic brains using in utero electroporation technique |
| A 2 cm midline incision is then made in the abdominal wall along the linea alba using a set of forceps and scissors. A piece of sterile gauze with a hole cut in the center is placed over the incision, and one uterine horn is drawn out through the… |
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| Gene transfer into embryonic brains using in utero electroporation technique |
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| Gene transfer into embryonic brains using in utero electroporation technique |
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| Gene transfer into embryonic brains using in utero electroporation technique |
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| Gene transfer into embryonic brains using in utero electroporation technique |
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| Gene transfer into embryonic brains using in utero electroporation technique |
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| Gene transfer into embryonic brains using in utero electroporation technique |
| A 2 cm midline incision is then made in the abdominal wall along the linea alba using a set of forceps and scissors. A piece of sterile gauze with a hole cut in the center is placed over the incision, and one uterine horn is drawn out through the… |
| |
| Gene transfer into embryonic brains using in utero electroporation technique |
| … |
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| CUY21 Illustrated Applications |
| … |
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| Gene transfer into embryonic brains using in utero electroporation technique |
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| Gene transfer into embryonic brains using in utero electroporation technique |
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| Gene transfer into embryonic brains using in utero electroporation technique |
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| Gene transfer into embryonic brains using in utero electroporation technique |
| A 2 cm midline incision is then made in the abdominal wall along the linea alba using a set of forceps and scissors. A piece of sterile gauze with a hole cut in the center is placed over the incision, and one uterine horn is drawn out through the… |
| |
| Electroporated Transgene-Rescued Spermatogenesis in Infertile Mutant Mice with a Sertoli Cell Defect |
| Stereomicroscopic views of transfected testes charged with various voltages and observed under visible (A) or excitation (B) light after 5 wk. Voltage is indicated on each testis (A). Loss of testicular weight 5 wk after electric charge in 12-day-old… |
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| Electroporated Transgene-Rescued Spermatogenesis in Infertile Mutant Mice with a Sertoli Cell Defect |
| Stereomicroscopic views of transfected testes charged with various voltages and observed under visible (A) or excitation (B) light after 5 wk. Voltage is indicated on each testis (A). Loss of testicular weight 5 wk after electric charge in 12-day-old… |
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| Electroporated Transgene-Rescued Spermatogenesis in Infertile Mutant Mice with a Sertoli Cell Defect |
| Stereomicroscopic views of transfected testes charged with various voltages and observed under visible (A) or excitation (B) light after 5 wk. Voltage is indicated on each testis (A). Loss of testicular weight 5 wk after electric charge in 12-day-old… |
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| Electroporated Transgene-Rescued Spermatogenesis in Infertile Mutant Mice with a Sertoli Cell Defect |
| Stereomicroscopic views of transfected testes charged with various voltages and observed under visible (A) or excitation (B) light after 5 wk. Voltage is indicated on each testis (A). Loss of testicular weight 5 wk after electric charge in 12-day-old… |
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| Electroporated Transgene-Rescued Spermatogenesis in Infertile Mutant Mice with a Sertoli Cell Defect |
| Stereomicroscopic views of transfected testes charged with various voltages and observed under visible (A) or excitation (B) light after 5 wk. Voltage is indicated on each testis (A). Loss of testicular weight 5 wk after electric charge in 12-day-old… |
| |
| Electroporated Transgene-Rescued Spermatogenesis in Infertile Mutant Mice with a Sertoli Cell Defect |
| Stereomicroscopic views of transfected testes charged with various voltages and observed under visible (A) or excitation (B) light after 5 wk. Voltage is indicated on each testis (A). Loss of testicular weight 5 wk after electric charge in 12-day-old… |
| |
| Electroporated Transgene-Rescued Spermatogenesis in Infertile Mutant Mice with a Sertoli Cell Defect |
| Stereomicroscopic views of transfected testes charged with various voltages and observed under visible (A) or excitation (B) light after 5 wk. Voltage is indicated on each testis (A). Loss of testicular weight 5 wk after electric charge in 12-day-old… |
| |
| Electroporated Transgene-Rescued Spermatogenesis in Infertile Mutant Mice with a Sertoli Cell Defect |
| Stereomicroscopic views of transfected testes charged with various voltages and observed under visible (A) or excitation (B) light after 5 wk. Voltage is indicated on each testis (A). Loss of testicular weight 5 wk after electric charge in 12-day-old… |
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| Gene transfer into embryonic brains using in utero electroporation technique |
| … |
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| CUY21 Illustrated Applications |
| … |
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| Method to introduce genes into epithelial cells of the chicken embryonic stomach (proventriculus) |
| 4. Apply pulses of 30V for 15 times with pulse length of 50ms, and interval time of 75ms. Remove agarose gel immediately and wash it in Tyrode's solution. Then take out the tissues from the gel and wash them well in Tryode's solution. The tissues… |
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| Electroporated Transgene-Rescued Spermatogenesis in Infertile Mutant Mice with a Sertoli Cell Defect |
| Stereomicroscopic views of transfected testes charged with various voltages and observed under visible (A) or excitation (B) light after 5 wk. Voltage is indicated on each testis (A). Loss of testicular weight 5 wk after electric charge in 12-day-old… |
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| Electroporated Transgene-Rescued Spermatogenesis in Infertile Mutant Mice with a Sertoli Cell Defect |
| Stereomicroscopic views of transfected testes charged with various voltages and observed under visible (A) or excitation (B) light after 5 wk. Voltage is indicated on each testis (A). Loss of testicular weight 5 wk after electric charge in 12-day-old… |
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| Gene transfer into embryonic brains using in utero electroporation technique |
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| Gene transfer into embryonic brains using in utero electroporation technique |
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| Gene transfer into embryonic brains using in utero electroporation technique |
| A 2 cm midline incision is then made in the abdominal wall along the linea alba using a set of forceps and scissors. A piece of sterile gauze with a hole cut in the center is placed over the incision, and one uterine horn is drawn out through the… |
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| Method to introduce genes into epithelial cells of the chicken embryonic stomach (proventriculus) |
| 4. Apply pulses of 30V for 15 times with pulse length of 50ms, and interval time of 75ms. Remove agarose gel immediately and wash it in Tyrode's solution. Then take out the tissues from the gel and wash them well in Tryode's solution. The tissues… |
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| Method to introduce genes into epithelial cells of the chicken embryonic stomach (proventriculus) |
| 4. Apply pulses of 30V for 15 times with pulse length of 50ms, and interval time of 75ms. Remove agarose gel immediately and wash it in Tyrode's solution. Then take out the tissues from the gel and wash them well in Tryode's solution. The tissues… |
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| Method to introduce genes into epithelial cells of the chicken embryonic stomach (proventriculus) |
| 4. Apply pulses of 30V for 15 times with pulse length of 50ms, and interval time of 75ms. Remove agarose gel immediately and wash it in Tyrode's solution. Then take out the tissues from the gel and wash them well in Tryode's solution. The tissues… |
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| CUY21 Illustrated Applications |
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| Electroporation-mediated gene transfer in the adult rat brain |
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| Method to introduce genes into epithelial cells of the chicken embryonic stomach (proventriculus) |
| 4. Apply pulses of 30V for 15 times with pulse length of 50ms, and interval time of 75ms. Remove agarose gel immediately and wash it in Tyrode's solution. Then take out the tissues from the gel and wash them well in Tryode's solution. The tissues… |
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| Electroporation of Xenopus embryo: Gene Delivery into the Primordium Eye at the Neural Plate Stage |
| Fig.(1) shows the general setting of the electroporation. Vitelline membrane of the embryo (st.12-13) is usually kept intact. Inject 5-10nl of GFP-mRNA(1µg/µl, 0.05% Fast Green) into intercellular space of upper-few epithelial layers of the neural… |
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| Electroporation of Xenopus embryo: Gene Delivery into the Primordium Eye at the Neural Plate Stage |
| Fig.(1) shows the general setting of the electroporation. Vitelline membrane of the embryo (st.12-13) is usually kept intact. Inject 5-10nl of GFP-mRNA(1µg/µl, 0.05% Fast Green) into intercellular space of upper-few epithelial layers of the neural… |
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| Electroporation of Xenopus embryo: Gene Delivery into the Primordium Eye at the Neural Plate Stage |
| Fig.(1) shows the general setting of the electroporation. Vitelline membrane of the embryo (st.12-13) is usually kept intact. Inject 5-10nl of GFP-mRNA(1µg/µl, 0.05% Fast Green) into intercellular space of upper-few epithelial layers of the neural… |
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| Electroporation of Xenopus embryo: Gene Delivery into the Primordium Eye at the Neural Plate Stage |
| Fig.(1) shows the general setting of the electroporation. Vitelline membrane of the embryo (st.12-13) is usually kept intact. Inject 5-10nl of GFP-mRNA(1µg/µl, 0.05% Fast Green) into intercellular space of upper-few epithelial layers of the neural… |
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| Electroporation of Xenopus embryo: Gene Delivery into the Primordium Eye at the Neural Plate Stage |
| Fig.(1) shows the general setting of the electroporation. Vitelline membrane of the embryo (st.12-13) is usually kept intact. Inject 5-10nl of GFP-mRNA(1µg/µl, 0.05% Fast Green) into intercellular space of upper-few epithelial layers of the neural… |
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| CUY21 Illustrated Applications |
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| CUY21 Illustrated Applications |
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| CUY21 Illustrated Applications |
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| Electroporation of Xenopus embryo: Gene Delivery into the Primordium Eye at the Neural Plate Stage |
| Fig.(1) shows the general setting of the electroporation. Vitelline membrane of the embryo (st.12-13) is usually kept intact. Inject 5-10nl of GFP-mRNA(1µg/µl, 0.05% Fast Green) into intercellular space of upper-few epithelial layers of the neural… |
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| Protocol for in vivo electroporation into mouse and rat retina |
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| Protocol for in vivo electroporation into mouse and rat retina |
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| Protocol for in vivo electroporation into mouse and rat retina |
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| CUY21 Illustrated Applications |
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| Protocol for in vivo electroporation into mouse and rat retina |
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| Protocol for in vivo electroporation into mouse and rat retina |
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| Protocol for in vivo electroporation into mouse and rat retina |
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| Protocol for in vivo electroporation into mouse and rat retina |
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| CUY21 Illustrated Applications |
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| Protocol for in vivo electroporation into mouse and rat retina |
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| CUY21 Illustrated Applications |
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| CUY21 Illustrated Applications |
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| Protocol for in vivo electroporation into mouse and rat retina |
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| CUY21 Illustrated Applications |
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| Epidermis-Targeted Gene Transfer Using In Vivo Electroporation |
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| Epidermis-Targeted Gene Transfer Using In Vivo Electroporation |
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| Epidermis-Targeted Gene Transfer Using In Vivo Electroporation |
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| CUY21 Illustrated Applications |
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| Cancer Therapy & CUY21 |
| The CUY21 EDIT and CUY21 SC electroporator range has been used to perform electro-chemotherapy on human skin cancer as a clinical test. Kindly note the article: ‘Electrochemotherapy for digital chondrosarcoma’. In this article, bleomycine is introduced… |
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| Electroporation-mediated gene transfer system applied to cultured CNS neurons |
| (d, e) A mature hippocampal neuron maintained 14 days in dissociated culture after electroporation of a ß-actin-eGFP expression construct. Higher magni¢cation view of the region marked by a rectangle in (d) reveals dendritic spines on the surface of… |
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| Electroporation-mediated gene transfer system applied to cultured CNS neurons |
| (d, e) A mature hippocampal neuron maintained 14 days in dissociated culture after electroporation of a ß-actin-eGFP expression construct. Higher magni¢cation view of the region marked by a rectangle in (d) reveals dendritic spines on the surface of… |
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| Electroporation-mediated gene transfer system applied to cultured CNS neurons |
| (d, e) A mature hippocampal neuron maintained 14 days in dissociated culture after electroporation of a ß-actin-eGFP expression construct. Higher magni¢cation view of the region marked by a rectangle in (d) reveals dendritic spines on the surface of… |
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| CUY21 Illustrated Applications |
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| CUY21 Illustrated Applications |
| … |
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| Electroporation-mediated gene transfer system applied to cultured CNS neurons |
| (d, e) A mature hippocampal neuron maintained 14 days in dissociated culture after electroporation of a ß-actin-eGFP expression construct. Higher magni¢cation view of the region marked by a rectangle in (d) reveals dendritic spines on the surface of… |
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| Electroporation-mediated gene transfer system applied to cultured CNS neurons |
| (d, e) A mature hippocampal neuron maintained 14 days in dissociated culture after electroporation of a ß-actin-eGFP expression construct. Higher magni¢cation view of the region marked by a rectangle in (d) reveals dendritic spines on the surface of… |
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| Gene transfer into single cell by electroporation |
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| Gene transfer into single cell by electroporation |
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| Gene transfer into single cell by electroporation |
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| Gene transfer into single cell by electroporation |
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| Gene transfer into single cell by electroporation |
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| Gene transfer into single cell by electroporation |
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| Gene transfer into single cell by electroporation |
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| Gene transfer into single cell by electroporation |
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| CUY21 Illustrated Applications |
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| Gene transfer into single cell by electroporation |
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| Gene transfer into single cell by electroporation |
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| Electroporation-mediated gene transfer in the adult rat brain |
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| Method to introduce genes into epithelial cells of the chicken embryonic stomach (proventriculus) |
| 4. Apply pulses of 30V for 15 times with pulse length of 50ms, and interval time of 75ms. Remove agarose gel immediately and wash it in Tyrode's solution. Then take out the tissues from the gel and wash them well in Tryode's solution. The tissues… |
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| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The NEPA21 can do in one device what each of the EDIT and SC did individually, i.e., it combines BOTH the… |
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| CUY21 Illustrated Applications |
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| Electroporation for mammalian embryos in the whole embryo culture system |
| (B-E) Time-lapse analysis of neuroepithelial cells in the slice culture system. Histon-EGFP- and DsRed2-expression vectors were co-electroporated into the E12.0 rat spinal cord. The electroporated embryo was cultured for 24 hours in the WEC, then the… |
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| Electroporation for mammalian embryos in the whole embryo culture system |
| (B-E) Time-lapse analysis of neuroepithelial cells in the slice culture system. Histon-EGFP- and DsRed2-expression vectors were co-electroporated into the E12.0 rat spinal cord. The electroporated embryo was cultured for 24 hours in the WEC, then the… |
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| CUY21 Illustrated Applications |
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| Misexpression of the gene of interest by in ovo electroporation |
| Mechanisms of brain regionalization and neural circuit formation have been studied by misexpression of transcription factors (En1/2, Pax2/5/6, Otx2, Gbx2), secreted factors (Fgf, Shh, semaphoring), signal transduction molecule (Ras, Sprouty2) and receptors… |
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| Electroporation for mammalian embryos in the whole embryo culture system |
| (A) EGFP-expression vector was electroporated into E11.5 rat telencephalon. The electroporated embryo was cultured in the whole embryo culture system (WEC). (B) 24 hours after electroporation, EGFP-expression was specifically detected at the dorsal part… |
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| Electroporation for mammalian embryos in the whole embryo culture system |
| (A) EGFP-expression vector was electroporated into E11.5 rat telencephalon. The electroporated embryo was cultured in the whole embryo culture system (WEC). (B) 24 hours after electroporation, EGFP-expression was specifically detected at the dorsal part… |
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| Misexpression of the gene of interest by in ovo electroporation |
| Mechanisms of brain regionalization and neural circuit formation have been studied by misexpression of transcription factors (En1/2, Pax2/5/6, Otx2, Gbx2), secreted factors (Fgf, Shh, semaphoring), signal transduction molecule (Ras, Sprouty2) and receptors… |
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| Misexpression of the gene of interest by in ovo electroporation |
| Mechanisms of brain regionalization and neural circuit formation have been studied by misexpression of transcription factors (En1/2, Pax2/5/6, Otx2, Gbx2), secreted factors (Fgf, Shh, semaphoring), signal transduction molecule (Ras, Sprouty2) and receptors… |
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| CUY21 Illustrated Applications |
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| Knock-down by transfection of shRNA expression vector by electroporation |
| (B) Select target DNA sequence of 19 to 21 mer. Sense and antisense sequence were linked to a nucleotide spacer as a loop and put into expression vector that is driven by U6 or H1 promoter. Commercially available expression vector that dreives expression… |
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| Knock-down by transfection of shRNA expression vector by electroporation |
| (B) Select target DNA sequence of 19 to 21 mer. Sense and antisense sequence were linked to a nucleotide spacer as a loop and put into expression vector that is driven by U6 or H1 promoter. Commercially available expression vector that dreives expression… |
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| Knock-down by transfection of shRNA expression vector by electroporation |
| (B) Select target DNA sequence of 19 to 21 mer. Sense and antisense sequence were linked to a nucleotide spacer as a loop and put into expression vector that is driven by U6 or H1 promoter. Commercially available expression vector that dreives expression… |
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| Knock-down by transfection of shRNA expression vector by electroporation |
| (B) Select target DNA sequence of 19 to 21 mer. Sense and antisense sequence were linked to a nucleotide spacer as a loop and put into expression vector that is driven by U6 or H1 promoter. Commercially available expression vector that dreives expression… |
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| Knock-down by transfection of shRNA expression vector by electroporation |
| (B) Select target DNA sequence of 19 to 21 mer. Sense and antisense sequence were linked to a nucleotide spacer as a loop and put into expression vector that is driven by U6 or H1 promoter. Commercially available expression vector that dreives expression… |
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| CUY21 Illustrated Applications |
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| Gene transfer into muscle by In Vivo electroporation |
| Electric pulses were delivered using an electric pulse generator (Square Wave Electroporator CUY21EDIT; Nepa Gene Co., Ltd.). Electrodes consisted of a pair of stainless steel needles of 5 mm in length and 0.4 mm in diameter, fixed with a distance (… |
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| Gene transfer into muscle by In Vivo electroporation |
| Electric pulses were delivered using an electric pulse generator (Square Wave Electroporator CUY21EDIT; Nepa Gene Co., Ltd.). Electrodes consisted of a pair of stainless steel needles of 5 mm in length and 0.4 mm in diameter, fixed with a distance (… |
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| Gene transfer into muscle by In Vivo electroporation |
| Electric pulses were delivered using an electric pulse generator (Square Wave Electroporator CUY21EDIT; Nepa Gene Co., Ltd.). Electrodes consisted of a pair of stainless steel needles of 5 mm in length and 0.4 mm in diameter, fixed with a distance (… |
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| Gene transfer into muscle by In Vivo electroporation |
| Electric pulses were delivered using an electric pulse generator (Square Wave Electroporator CUY21EDIT; Nepa Gene Co., Ltd.). Electrodes consisted of a pair of stainless steel needles of 5 mm in length and 0.4 mm in diameter, fixed with a distance (… |
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| Gene transfer into muscle by In Vivo electroporation |
| Electric pulses were delivered using an electric pulse generator (Square Wave Electroporator CUY21EDIT; Nepa Gene Co., Ltd.). Electrodes consisted of a pair of stainless steel needles of 5 mm in length and 0.4 mm in diameter, fixed with a distance (… |
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| CUY21 Illustrated Applications |
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| CUY21 Illustrated Applications |
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| Chick embryo Electroporation using News culture gastrula |
| GFP gene was introduced to the prospective neural plate at HH4, and the embryo was cultured for about 34 hours (HH17 equivalent). GFP expression was occasionally monitored under a fluorescent dissecting microscope. GFP fluorescence was detectable as… |
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| Chick embryo Electroporation using News culture gastrula |
| GFP gene was introduced to the prospective neural plate at HH4, and the embryo was cultured for about 34 hours (HH17 equivalent). GFP expression was occasionally monitored under a fluorescent dissecting microscope. GFP fluorescence was detectable as… |
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| Chick embryo Electroporation using News culture gastrula |
| GFP gene was introduced to the prospective neural plate at HH4, and the embryo was cultured for about 34 hours (HH17 equivalent). GFP expression was occasionally monitored under a fluorescent dissecting microscope. GFP fluorescence was detectable as… |
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| CUY21 Illustrated Applications |
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| Connector Cables for NEPA21 / CUY21 Electroporator and Electrodes |
| If one uses the tweezers-type electrode with the ECM830 the C117 is not required. The C117 is used to hook a needle-type electrode such as the CUY611 series and the CUY613 series. Tweezers-type electrodes such as the CUY650 series have the required… |
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| Connector Cables for NEPA21 / CUY21 Electroporator and Electrodes |
| If one uses the tweezers-type electrode with the ECM830 the C117 is not required. The C117 is used to hook a needle-type electrode such as the CUY611 series and the CUY613 series. Tweezers-type electrodes such as the CUY650 series have the required… |
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| Cables for Electrodes |
| If one uses the tweezers-type electrode with the ECM830 the C117 is not required. The C117 is used to hook a needle-type electrode such as the CUY611 series and the CUY613 series. Tweezers-type electrodes such as the CUY650 series have the required… |
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| Cables for Electrodes |
| If one uses the tweezers-type electrode with the ECM830 the C117 is not required. The C117 is used to hook a needle-type electrode such as the CUY611 series and the CUY613 series. Tweezers-type electrodes such as the CUY650 series have the required… |
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| Chick embryo Electroporation using News culture (gastrula) |
| GFP gene was introduced to the prospective neural plate at HH4, and the embryo was cultured for about 34 hours (HH17 equivalent). GFP expression was occasionally monitored under a fluorescent dissecting microscope. GFP fluorescence was detectable as… |
| |
| Chick embryo Electroporation using News culture (gastrula) |
| GFP gene was introduced to the prospective neural plate at HH4, and the embryo was cultured for about 34 hours (HH17 equivalent). GFP expression was occasionally monitored under a fluorescent dissecting microscope. GFP fluorescence was detectable as… |
| |
| Chick embryo Electroporation using News culture gastrula |
| GFP gene was introduced to the prospective neural plate at HH4, and the embryo was cultured for about 34 hours (HH17 equivalent). GFP expression was occasionally monitored under a fluorescent dissecting microscope. GFP fluorescence was detectable as… |
| |
| Chick embryo Electroporation using News culture gastrula |
| GFP gene was introduced to the prospective neural plate at HH4, and the embryo was cultured for about 34 hours (HH17 equivalent). GFP expression was occasionally monitored under a fluorescent dissecting microscope. GFP fluorescence was detectable as… |
| |
| Chick embryo Electroporation using News culture gastrula |
| GFP gene was introduced to the prospective neural plate at HH4, and the embryo was cultured for about 34 hours (HH17 equivalent). GFP expression was occasionally monitored under a fluorescent dissecting microscope. GFP fluorescence was detectable as… |
| |
| Chick embryo Electroporation using News culture gastrula |
| GFP gene was introduced to the prospective neural plate at HH4, and the embryo was cultured for about 34 hours (HH17 equivalent). GFP expression was occasionally monitored under a fluorescent dissecting microscope. GFP fluorescence was detectable as… |
| |
| Connector Cables for CUY21 Electroporator and Electrodes |
| If one uses the tweezers-type electrode with the ECM830 the C117 is not required. The C117 is used to hook a needle-type electrode such as the CUY611 series and the CUY613 series. Tweezers-type electrodes such as the CUY650 series have the required… |
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| Direct Gene Transfer into Mature Seeds via Electroporation |
| Fertile transgenic plants were regenerated and self-fertilized seeds were obtained in rice and wheat. Transgene integration was confirmed by Southern hybridization. Transmission of the transgene into the next generation (T1) was indicated by PCR analysis… |
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| [Plant Seed] Direct Gene Transfer into Mature Seeds via Electroporation |
| Fertile transgenic plants were regenerated and self-fertilized seeds were obtained in rice and wheat. Transgene integration was confirmed by Southern hybridization. Transmission of the transgene into the next generation (T1) was indicated by PCR… |
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| Direct Gene Transfer into Mature Seeds via Electroporation |
| Fertile transgenic plants were regenerated and self-fertilized seeds were obtained in rice and wheat. Transgene integration was confirmed by Southern hybridization. Transmission of the transgene into the next generation (T1) was indicated by PCR analysis… |
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| Direct Gene Transfer into Mature Seeds via Electroporation |
| Fertile transgenic plants were regenerated and self-fertilized seeds were obtained in rice and wheat. Transgene integration was confirmed by Southern hybridization. Transmission of the transgene into the next generation (T1) was indicated by PCR analysis… |
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| Electrochemotherapy for digital chondrosarcoma |
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| Electrochemotherapy for digital chondrosarcoma |
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| Electrochemotherapy for digital chondrosarcoma |
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| Electrochemotherapy for digital chondrosarcoma |
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| Electrochemotherapy for digital chondrosarcoma |
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| Electrochemotherapy for digital chondrosarcoma |
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| CUY21 Illustrated Applications |
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| Direct Gene Transfer into Mature Seeds via Electroporation |
| Fertile transgenic plants were regenerated and self-fertilized seeds were obtained in rice and wheat. Transgene integration was confirmed by Southern hybridization. Transmission of the transgene into the next generation (T1) was indicated by PCR analysis… |
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| Direct Gene Transfer into Mature Seeds via Electroporation |
| Fertile transgenic plants were regenerated and self-fertilized seeds were obtained in rice and wheat. Transgene integration was confirmed by Southern hybridization. Transmission of the transgene into the next generation (T1) was indicated by PCR analysis… |
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| Vacuum & Electrical Pulse Method for Plant Seed Electroporation |
| Fertile transgenic plants were regenerated and self-fertilized seeds were obtained in rice and wheat. Transgene integration was confirmed by Southern hybridization. Transmission of the transgene into the next generation (T1) was indicated by PCR analysis… |
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| Direct Gene Transfer into Mature Seeds via Electroporation |
| Fertile transgenic plants were regenerated and self-fertilized seeds were obtained in rice and wheat. Transgene integration was confirmed by Southern hybridization. Transmission of the transgene into the next generation (T1) was indicated by PCR analysis… |
| |
| Direct Gene Transfer into Mature Seeds via Electroporation |
| Fertile transgenic plants were regenerated and self-fertilized seeds were obtained in rice and wheat. Transgene integration was confirmed by Southern hybridization. Transmission of the transgene into the next generation (T1) was indicated by PCR analysis… |
| |
| Direct Gene Transfer into Mature Seeds via Electroporation |
| Fertile transgenic plants were regenerated and self-fertilized seeds were obtained in rice and wheat. Transgene integration was confirmed by Southern hybridization. Transmission of the transgene into the next generation (T1) was indicated by PCR analysis… |
| |
| Direct Gene Transfer into Mature Seeds via Electroporation |
| Fertile transgenic plants were regenerated and self-fertilized seeds were obtained in rice and wheat. Transgene integration was confirmed by Southern hybridization. Transmission of the transgene into the next generation (T1) was indicated by PCR analysis… |
| |
| Direct Gene Transfer into Mature Seeds via Electroporation |
| Fertile transgenic plants were regenerated and self-fertilized seeds were obtained in rice and wheat. Transgene integration was confirmed by Southern hybridization. Transmission of the transgene into the next generation (T1) was indicated by PCR analysis… |
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| In vivo gene transfer into the adult honeybee brain by using electroporation |
| C) Schematic representation of the micropipette and electrodes placed in the honeybee brain. Purple indicates micropipette filled with DNA solution, blue indicates electrodes. AN, antennae; C, compound eyes; MB, mushroom bodies; Oc, ocelli; OL, optic… |
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| CUY21 Illustrated Applications |
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| In vivo gene transfer into the adult honeybee brain by using electroporation |
| C) Schematic representation of the micropipette and electrodes placed in the honeybee brain. Purple indicates micropipette filled with DNA solution, blue indicates electrodes. AN, antennae; C, compound eyes; MB, mushroom bodies; Oc, ocelli; OL, optic… |
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| Direct Gene Transfer into Mature Seeds via Electroporation |
| Fertile transgenic plants were regenerated and self-fertilized seeds were obtained in rice and wheat. Transgene integration was confirmed by Southern hybridization. Transmission of the transgene into the next generation (T1) was indicated by PCR analysis… |
| |
| Direct Gene Transfer into Mature Seeds via Electroporation |
| Fertile transgenic plants were regenerated and self-fertilized seeds were obtained in rice and wheat. Transgene integration was confirmed by Southern hybridization. Transmission of the transgene into the next generation (T1) was indicated by PCR analysis… |
| |
| Direct Gene Transfer into Mature Seeds via Electroporation |
| Fertile transgenic plants were regenerated and self-fertilized seeds were obtained in rice and wheat. Transgene integration was confirmed by Southern hybridization. Transmission of the transgene into the next generation (T1) was indicated by PCR analysis… |
| |
| CUY21 Illustrated Applications |
| … |
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| Direct Gene Transfer into Mature Seeds via Electroporation |
| Fertile transgenic plants were regenerated and self-fertilized seeds were obtained in rice and wheat. Transgene integration was confirmed by Southern hybridization. Transmission of the transgene into the next generation (T1) was indicated by PCR analysis… |
| |
| In vivo gene transfer into the adult honeybee brain by using electroporation |
| a) Schematic representation of the micropipette and electrodes placed in the honeybee brain. Purple indicates micropipette filled with DNA solution, blue indicates electrodes. AN, antennae; C, compound eyes; MB, mushroom bodies; Oc, ocelli; OL, optic… |
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| In vivo gene transfer into the adult honeybee brain by using electroporation |
| a) Schematic representation of the micropipette and electrodes placed in the honeybee brain. Purple indicates micropipette filled with DNA solution, blue indicates electrodes. AN, antennae; C, compound eyes; MB, mushroom bodies; Oc, ocelli; OL, optic… |
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| CUY21 Illustrated Applications |
| … |
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| In vivo gene transfer into the adult honeybee brain by using electroporation |
| a) Schematic representation of the micropipette and electrodes placed in the honeybee brain. Purple indicates micropipette filled with DNA solution, blue indicates electrodes. AN, antennae; C, compound eyes; MB, mushroom bodies; Oc, ocelli; OL, optic… |
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| Plant Protoplast Fusion by Electroporation |
| Plant Protoplast Fusion may be performed by Electroporation. Per this new technique, genes are delivered into a seed by electroporation. (This new electroporation method has been developed and patented by Dr. Hagio of the Japanese Institute of… |
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| Plant Protoplast Fusion by Electroporation |
| Plant Protoplast Fusion may be performed by Electroporation. Per this new technique, genes are delivered into a seed by electroporation. (This new electroporation method has been developed and patented by Dr. Hagio of the Japanese Institute of… |
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| Plant Protoplast Fusion by Electroporation |
| Plant Protoplast Fusion may be performed by Electroporation. Per this new technique, genes are delivered into a seed by electroporation. (This new electroporation method has been developed and patented by Dr. Hagio of the Japanese Institute of… |
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| NEPA21_In_Vivo_Tumor_EP |
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| CUY21SC - Square Wave Electroporator |
| Because in vivo impedance (electrical resistance) is generally less stable than in vitro impedance, an accurate measurement of the target sample resistance prior to the electroporation event is the most important critical success factor for accurate… |
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| CUY21SC - Square Wave Electroporator |
| The resistance of an EP target varies according to physical experimental factors such as the volume of the sample, the buffer used and the distance between the electrodes. Fluctuations in resistance impact on delivered current values and this negatively… |
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| CUY21SC - Square Wave Electroporator |
| Because in vivo impedance (electrical resistance) is generally less stable than in vitro impedance, an accurate measurement of the target sample resistance prior to the electroporation event is the most important critical success factor for accurate… |
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| Improve Electroporation Transfection Efficiency with the CU902 Polarity Exchanger |
| During electroporation, DNA naturally moves to and accumulates at the positive (+) electrode pole (similar to the process in electrophoresis). However, such accumulation (if not addressed) adversely impacts on electroporation transfection efficiency… |
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| CUY21SC - Square Wave Electroporator |
| Because in vivo impedance (electrical resistance) is generally less stable than in vitro impedance, an accurate measurement of the target sample resistance prior to the electroporation event is the most important critical success factor for accurate… |
| |
| Improve Electroporation Transfection Efficiency with the CU902 Polarity Exchanger |
| During electroporation, DNA naturally moves to and accumulates at the positive (+) electrode pole (similar to the process in electrophoresis). However, such accumulation (if not addressed) adversely impacts on electroporation transfection efficiency… |
| |
| CUY21SC - Square Wave Electroporator |
| Because in vivo impedance (electrical resistance) is generally less stable than in vitro impedance, an accurate measurement of the target sample resistance prior to the electroporation event is the most important critical success factor for accurate… |
| |
| CUY21SC - Square Wave Electroporator |
| Because in vivo impedance (electrical resistance) is generally less stable than in vitro impedance, an accurate measurement of the target sample resistance prior to the electroporation event is the most important critical success factor for accurate… |
| |
| CUY21SC - Square Wave Electroporator |
| Because in vivo impedance (electrical resistance) is generally less stable than in vitro impedance, an accurate measurement of the target sample resistance prior to the electroporation event is the most important critical success factor for accurate… |
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| CUY21SC - Square Wave Electroporator |
| Because in vivo impedance (electrical resistance) is generally less stable than in vitro impedance, an accurate measurement of the target sample resistance prior to the electroporation event is the most important critical success factor for accurate… |
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| CUY21SC - Square Wave Electroporator |
| Because in vivo impedance (electrical resistance) is generally less stable than in vitro impedance, an accurate measurement of the target sample resistance prior to the electroporation event is the most important critical success factor for accurate… |
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| CUY21SC - Square Wave Electroporator |
| Because in vivo impedance (electrical resistance) is generally less stable than in vitro impedance, an accurate measurement of the target sample resistance prior to the electroporation event is the most important critical success factor for accurate… |
| |
| CUY21SC - Square Wave Electroporator |
| Because in vivo impedance (electrical resistance) is generally less stable than in vitro impedance, an accurate measurement of the target sample resistance prior to the electroporation event is the most important critical success factor for accurate… |
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| CUY21SC - Square Wave Electroporator |
| Because in vivo impedance (electrical resistance) is generally less stable than in vitro impedance, an accurate measurement of the target sample resistance prior to the electroporation event is the most important critical success factor for accurate… |
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| Comparison of the CUY21SC and BTX ECM830 Square Waves at various voltages |
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| Comparison of the CUY21SC and BTX ECM830 Square Waves at various voltages |
| This page is password protected and is provided exclusively for the use of SONIDEL Limited customers who have signed up for membership of the SONIDEL Limited webstie (www.sonidel.com) AND who have specifically requested access to this information. … |
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| Comparison of the CUY21SC and BTX ECM830 Square Waves at various voltages |
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| Comparison of the CUY21SC and BTX ECM830 Square Waves at various voltages |
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| Comparison of the CUY21SC and BTX ECM830 Square Waves at various voltages |
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| Comparison of the CUY21SC and BTX ECM830 Square Waves at various voltages |
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| Comparison of the CUY21SC and BTX ECM830 Square Waves at various voltages |
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| Comparison of the CUY21SC and BTX ECM830 Square Waves at various voltages |
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| Comparison of the CUY21SC and BTX ECM830 Square Waves at various voltages |
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| Comparison of the CUY21SC and BTX ECM830 Square Waves at various voltages |
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| Comparison of the CUY21SC and BTX ECM830 Square Waves at 15V |
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| Comparison of the CUY21SC and BTX ECM830 Square Waves at various voltages |
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| Comparison of the CUY21SC and BTX ECM830 Square Waves at 15V |
| This page is password protected and is provided exclusively for the use of SONIDEL Limited customers who have signed up for membership of the SONIDEL Limited webstie (www.sonidel.com) AND who have specifically requested access to this information. … |
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| Comparison of the CUY21SC and BTX ECM830 Square Waves at 15V |
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| Comparison of the CUY21SC and BTX ECM830 Square Waves at 15V |
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| Comparison of the CUY21SC and BTX ECM830 Square Waves at 15V |
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| Comparison of the CUY21SC and BTX ECM830 Square Waves at 15V |
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| Comparison of the CUY21SC and BTX ECM830 Square Waves at 15V |
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| Comparison of the CUY21SC and BTX ECM830 Square Waves at 15V |
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| Comparison of the CUY21SC and BTX ECM830 Square Waves at 15V |
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| Comparison of the CUY21SC and BTX ECM830 Square Waves at 15V |
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| Comparison of the CUY21SC and BTX ECM830 Square Waves at 15V |
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| Comparison of the CUY21SC and BTX ECM830 Square Waves at 15V |
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| Comparison of the CUY21SC and BTX ECM830 Square Waves at 15V |
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| Comparison of the CUY21SC and BTX ECM830 Square Waves at 15V |
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| Comparison of the CUY21SC and BTX ECM830 Square Waves at 15V |
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| Comparison of the CUY21SC and BTX ECM830 Square Waves at 15V |
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| Comparison of the CUY21SC and BTX ECM830 Square Waves at 15V |
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| Comparison of the CUY21SC and BTX ECM830 Square Waves at 15V |
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| Comparison of the CUY21SC and BTX ECM830 Square Waves at 15V |
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| Comparison of the CUY21SC and BTX ECM830 Square Waves at 20V |
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| Comparison of the CUY21SC and BTX ECM830 Square Waves at 15V |
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| Comparison of the CUY21SC and BTX ECM830 Square Waves at 20V |
| This page is password protected and is provided exclusively for the use of SONIDEL Limited customers who have signed up for membership of the SONIDEL Limited webstie (www.sonidel.com) AND who have specifically requested access to this information. … |
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| Comparison of the CUY21SC and BTX ECM830 Square Waves at 20V |
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| Comparison of the CUY21SC and BTX ECM830 Square Waves at 20V |
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| Comparison of the CUY21SC and BTX ECM830 Square Waves at 25V |
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| Comparison of the CUY21SC and BTX ECM830 Square Waves at 20V |
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| Comparison of the CUY21SC and BTX ECM830 Square Waves at 25V |
| This page is password protected and is provided exclusively for the use of SONIDEL Limited customers who have signed up for membership of the SONIDEL Limited webstie (www.sonidel.com) AND who have specifically requested access to this information. … |
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| Comparison of the CUY21SC and BTX ECM830 Square Waves at 20V |
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| Comparison of the CUY21SC and BTX ECM830 Square Waves at 25V |
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| Comparison of the CUY21SC and BTX ECM830 Square Waves at 25V |
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| Comparison of the CUY21SC and BTX ECM830 Square Waves at 30V |
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| Comparison of the CUY21SC and BTX ECM830 Square Waves at 25V |
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| Comparison of the CUY21SC and BTX ECM830 Square Waves at 30V |
| This page is password protected and is provided exclusively for the use of SONIDEL Limited customers who have signed up for membership of the SONIDEL Limited webstie (www.sonidel.com) AND who have specifically requested access to this information. … |
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|
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| Comparison of the CUY21SC and BTX ECM830 Square Waves at 40V |
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| Comparison of the CUY21SC and BTX ECM830 Square Waves at 30V |
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| Comparison of the CUY21SC and BTX ECM830 Square Waves at 30V |
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| Comparison of the CUY21SC and BTX ECM830 Square Waves at 30V |
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| Comparison of the CUY21SC and BTX ECM830 Square Waves at 40V |
| This page is password protected and is provided exclusively for the use of SONIDEL Limited customers who have signed up for membership of the SONIDEL Limited webstie (www.sonidel.com) AND who have specifically requested access to this information. … |
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| Comparison of the CUY21SC and BTX ECM830 Square Waves at 40V |
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| Comparison of the CUY21SC and BTX ECM830 Square Waves at 40V |
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| Comparison of the CUY21SC and BTX ECM830 Square Waves at 40V |
| This page is password protected and is provided exclusively for the use of SONIDEL Limited customers who have signed up for membership of the SONIDEL Limited webstie (www.sonidel.com) AND who have specifically requested access to this information. … |
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| Comparison of the CUY21SC and BTX ECM830 Square Waves at 40V |
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| 30V |
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| Comparison of the CUY21SC and BTX ECM830 Square Waves at 50V |
| This page is password protected and is provided exclusively for the use of SONIDEL Limited customers who have signed up for membership of the SONIDEL Limited webstie (www.sonidel.com) AND who have specifically requested access to this information. … |
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|
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| Comparison of the CUY21SC and BTX ECM830 Square Waves at 50V |
| This page is password protected and is provided exclusively for the use of SONIDEL Limited customers who have signed up for membership of the SONIDEL Limited webstie (www.sonidel.com) AND who have specifically requested access to this information. … |
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| Comparison of the CUY21SC and BTX ECM830 Square Waves at 50V |
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| Comparison of the CUY21SC and BTX ECM830 Square Waves at 100V |
| This page is password protected and is provided exclusively for the use of SONIDEL Limited customers who have signed up for membership of the SONIDEL Limited webstie (www.sonidel.com) AND who have specifically requested access to this information. … |
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| Comparison of the CUY21SC and BTX ECM830 Square Waves at 100V |
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| Comparison of the CUY21SC and BTX ECM830 Square Waves at 100V |
| This page is password protected and is provided exclusively for the use of SONIDEL Limited customers who have signed up for membership of the SONIDEL Limited webstie (www.sonidel.com) AND who have specifically requested access to this information. … |
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| Comparison of the CUY21SC and BTX ECM830 Square Waves at 100V |
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| 100V |
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| Comparison of the CUY21SC and BTX ECM830 Square Waves at 100V |
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| Comparison of the CUY21SC and BTX ECM830 Square Waves at 15V |
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| 25V |
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| 20V |
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| 15V |
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| 100V |
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| Comparison of the CUY21SC and BTX ECM830 Square Waves at 50V |
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| Comparison of the CUY21SC and BTX ECM830 Square Waves at 15V |
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| Comparison of the CUY21SC and BTX ECM830 Square Waves at 20V |
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| Comparison of the CUY21SC and BTX ECM830 Square Waves at 25V |
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| Comparison of the CUY21SC and BTX ECM830 Square Waves at 30V |
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| Comparison of the CUY21SC and BTX ECM830 Square Waves at 40V |
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| Comparison of the CUY21SC and BTX ECM830 Square Waves at 50V |
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| Comparison of the CUY21SC and BTX ECM830 Square Waves at 100V |
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| Comparison of the CUY21SC and BTX ECM830 Square Waves at 15V |
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| Comparison of the CUY21SC and BTX ECM830 Square Waves at 100V |
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| Comparison of the CUY21SC and BTX ECM830 Square Waves at 20V |
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| Comparison of the CUY21SC and BTX ECM830 Square Waves at 25V |
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| Comparison of the CUY21SC and BTX ECM830 Square Waves at 30V |
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| Comparison of the CUY21SC and BTX ECM830 Square Waves at 40V |
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| Comparison of the CUY21SC and BTX ECM830 Square Waves at 50V |
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| Comparison of the CUY21SC and BTX ECM830 Square Waves at various voltages |
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| Comparison of the CUY21SC and BTX ECM830 Square Waves at various voltages |
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| CU700 and CU710 Electroporation and Cell Fusion Monitoring Systems |
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| CU700 and CU710 Electroporation and Cell Fusion Monitoring Systems |
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| CU700 and CU710 Electroporation and Cell Fusion Monitoring Systems |
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| CU700 and CU710 Electroporation and Cell Fusion Monitoring Systems |
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| CU700 and CU710 Electroporation and Cell Fusion Monitoring Systems |
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| Connector Cables for CUY21 Electroporator and Electrodes |
| If one uses the tweezers-type electrode with the ECM830 the C117 is not required. The C117 is used to hook a needle-type electrode such as the CUY611 series and the CUY613 series. Tweezers-type electrodes such as the CUY650 series have the required… |
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| Connector Cables for CUY21 Electroporator and Electrodes |
| If one uses the tweezers-type electrode with the ECM830 the C117 is not required. The C117 is used to hook a needle-type electrode such as the CUY611 series and the CUY613 series. Tweezers-type electrodes such as the CUY650 series have the required… |
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| Connector Cables for CUY21 Electroporator and Electrodes |
| If one uses the tweezers-type electrode with the ECM830 the C117 is not required. The C117 is used to hook a needle-type electrode such as the CUY611 series and the CUY613 series. Tweezers-type electrodes such as the CUY650 series have the required… |
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| Connector Cables for CUY21 Electroporator and Electrodes |
| If one uses the tweezers-type electrode with the ECM830 the C117 is not required. The C117 is used to hook a needle-type electrode such as the CUY611 series and the CUY613 series. Tweezers-type electrodes such as the CUY650 series have the required… |
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| Connector Cables for CUY21 Electroporator and Electrodes |
| If one uses the tweezers-type electrode with the ECM830 the C117 is not required. The C117 is used to hook a needle-type electrode such as the CUY611 series and the CUY613 series. Tweezers-type electrodes such as the CUY650 series have the required… |
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| Connector Cables for CUY21 Electroporator and Electrodes |
| If one uses the tweezers-type electrode with the ECM830 the C117 is not required. The C117 is used to hook a needle-type electrode such as the CUY611 series and the CUY613 series. Tweezers-type electrodes such as the CUY650 series have the required… |
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| Connector Cables for CUY21 Electroporator and Electrodes |
| If one uses the tweezers-type electrode with the ECM830 the C117 is not required. The C117 is used to hook a needle-type electrode such as the CUY611 series and the CUY613 series. Tweezers-type electrodes such as the CUY650 series have the required… |
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| Connector Cables for CUY21 Electroporator and Electrodes |
| If one uses the tweezers-type electrode with the ECM830 the C117 is not required. The C117 is used to hook a needle-type electrode such as the CUY611 series and the CUY613 series. Tweezers-type electrodes such as the CUY650 series have the required… |
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| Connector Cables for CUY21 Electroporator and Electrodes |
| If one uses the tweezers-type electrode with the ECM830 the C117 is not required. The C117 is used to hook a needle-type electrode such as the CUY611 series and the CUY613 series. Tweezers-type electrodes such as the CUY650 series have the required… |
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| Connector Cables for CUY21 Electroporator and Electrodes |
| If one uses the tweezers-type electrode with the ECM830 the C117 is not required. The C117 is used to hook a needle-type electrode such as the CUY611 series and the CUY613 series. Tweezers-type electrodes such as the CUY650 series have the required… |
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| Connector Cables for CUY21 Electroporator and Electrodes |
| If one uses the tweezers-type electrode with the ECM830 the C117 is not required. The C117 is used to hook a needle-type electrode such as the CUY611 series and the CUY613 series. Tweezers-type electrodes such as the CUY650 series have the required… |
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| Connector Cables for CUY21 Electroporator and Electrodes |
| If one uses the tweezers-type electrode with the ECM830 the C117 is not required. The C117 is used to hook a needle-type electrode such as the CUY611 series and the CUY613 series. Tweezers-type electrodes such as the CUY650 series have the required… |
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| CU700 and CU710 Electroporation and Cell Fusion Monitoring Systems |
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| CU700 and CU710 Electroporation and Cell Fusion Monitoring Systems |
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| CU700 and CU710 Electroporation and Cell Fusion Monitoring Systems |
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| CU700 and CU710 Electroporation and Cell Fusion Monitoring Systems |
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| CU700 and CU710 Electroporation and Cell Fusion Monitoring Systems |
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| CU700 and CU710 Electroporation and Cell Fusion Monitoring Systems |
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| CU700 and CU710 Electroporation and Cell Fusion Monitoring Systems |
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| CU700 and CU710 Electroporation and Cell Fusion Monitoring Systems |
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| CU700 and CU710 Electroporation and Cell Fusion Monitoring Systems |
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| CU700 and CU710 Electroporation and Cell Fusion Monitoring Systems |
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| Comparison of the CUY21SC and BTX ECM830 Square Waves at various voltages |
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| Comparison of the CUY21SC and BTX ECM830 Square Waves at various voltages |
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| Comparison of the CUY21SC and BTX ECM830 Square Waves at various voltages |
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| CUY21 Publications by Research Interest |
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| CUY21 Publications by Research Interest |
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| CUY21 Publications by Research Interest |
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| CUY21 Publications by Research Interest |
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| CUY21 Publications by Research Interest |
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| CUY21 Publications by Research Interest |
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| CUY21 Publications by Research Interest |
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| CUY21 Publication List, Electrode Recommendations and Protocol Information |
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| CUY21 Publication List, Electrode Recommendations and Protocol Information |
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| CUY21 Publication List, Electrode Recommendations and Protocol Information |
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| CUY21 Publication List, Electrode Recommendations and Protocol Information |
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| CUY21SC - Square Wave Electroporator |
| Because in vivo impedance (electrical resistance) is generally less stable than in vitro impedance, an accurate measurement of the target sample resistance prior to the electroporation event is the most important critical success factor for accurate… |
| |
| CUY21SC - Square Wave Electroporator |
| Because in vivo impedance (electrical resistance) is generally less stable than in vitro impedance, an accurate measurement of the target sample resistance prior to the electroporation event is the most important critical success factor for accurate… |
| |
| Comparison of the CUY21SC and BTX ECM830 Square Waves at 15V |
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| Comparison of the CUY21SC and BTX ECM830 Square Waves at 20V |
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| Comparison of the CUY21SC and BTX ECM830 Square Waves at 30V |
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| Comparison of the CUY21SC and BTX ECM830 Square Waves at 25V |
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| Comparison of the CUY21SC and BTX ECM830 Square Waves at 100V |
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| Comparison of the CUY21SC and BTX ECM830 Square Waves at 40V |
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| Comparison of the CUY21SC and BTX ECM830 Square Waves at 50V |
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| Comparison of the CUY21SC and BTX ECM830 Square Waves at various voltages |
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| Comparison of the CUY21SC and BTX ECM830 Square Waves at 50V |
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| Comparison of the CUY21SC and BTX ECM830 Square Waves at 40V |
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| Comparison of the CUY21SC and BTX ECM830 Square Waves at 30V |
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| Comparison of the CUY21SC and BTX ECM830 Square Waves at 25V |
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| Comparison of the CUY21SC and BTX ECM830 Square Waves at 20V |
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| Comparison of the CUY21SC and BTX ECM830 Square Waves at 15V |
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| Comparison of the CUY21SC and BTX ECM830 Square Waves at 100V |
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| Comparison of the CUY21SC and BTX ECM830 Square Waves at 50V |
| This page is password protected and is provided exclusively for the use of SONIDEL Limited customers who have signed up for membership of the SONIDEL Limited webstie (www.sonidel.com) AND who have specifically requested access to this information. … |
| |
| Comparison of the CUY21SC and BTX ECM830 Square Waves at 40V |
| This page is password protected and is provided exclusively for the use of SONIDEL Limited customers who have signed up for membership of the SONIDEL Limited webstie (www.sonidel.com) AND who have specifically requested access to this information. … |
| |
| Comparison of the CUY21SC and BTX ECM830 Square Waves at 30V |
| This page is password protected and is provided exclusively for the use of SONIDEL Limited customers who have signed up for membership of the SONIDEL Limited webstie (www.sonidel.com) AND who have specifically requested access to this information. … |
| |
| Comparison of the CUY21SC and BTX ECM830 Square Waves at 25V |
| This page is password protected and is provided exclusively for the use of SONIDEL Limited customers who have signed up for membership of the SONIDEL Limited webstie (www.sonidel.com) AND who have specifically requested access to this information. … |
| |
| Comparison of the CUY21SC and BTX ECM830 Square Waves at 20V |
| This page is password protected and is provided exclusively for the use of SONIDEL Limited customers who have signed up for membership of the SONIDEL Limited webstie (www.sonidel.com) AND who have specifically requested access to this information. … |
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| Maximise Electroporation Transfection Efficiency and Reproducibility with the CUY21SC Electroporation System and CU902 Polarity Exchanger |
| TO CORRECT for these physical experimental factors, the CUY21SC system (prior to delivering the electroporation program) first tests the target sample for R. This then enables precise control of the current setting (I) to ensure delivery of the required… |
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| Maximise Electroporation Transfection Efficiency and Reproducibility with the CUY21SC Electroporation System and CU902 Polarity Exchanger |
| TO CORRECT for these physical experimental factors, the CUY21SC system (prior to delivering the electroporation program) first tests the target sample for R. This then enables precise control of the current setting (I) to ensure delivery of the required… |
| |
| Maximise Electroporation Transfection Efficiency and Reproducibility with the CUY21SC Electroporation System and CU902 Polarity Exchanger |
| TO CORRECT for these physical experimental factors, the CUY21SC system (prior to delivering the electroporation program) first tests the target sample for R. This then enables precise control of the current setting (I) to ensure delivery of the required… |
| |
| Maximise Electroporation Transfection Efficiency and Reproducibility with the CUY21SC Electroporation System and CU902 Polarity Exchanger |
| TO CORRECT for these physical experimental factors, the CUY21SC system (prior to delivering the electroporation program) first tests the target sample for R. This then enables precise control of the current setting (I) to ensure delivery of the required… |
| |
| Maximise Electroporation Transfection Efficiency and Reproducibility with the CUY21SC Electroporation System and CU902 Polarity Exchanger |
| TO CORRECT for these physical experimental factors, the CUY21SC system (prior to delivering the electroporation program) first tests the target sample for R. This then enables precise control of the current setting (I) to ensure delivery of the required… |
| |
| Maximise Electroporation Transfection Efficiency and Reproducibility with the CUY21SC Electroporation System and CU902 Polarity Exchanger |
| TO CORRECT for these physical experimental factors, the CUY21SC system (prior to delivering the electroporation program) first tests the target sample for R. This then enables precise control of the current setting (I) to ensure delivery of the required… |
| |
| Maximise Electroporation Transfection Efficiency and Reproducibility with the CUY21SC Electroporation System and CU902 Polarity Exchanger |
| TO CORRECT for these physical experimental factors, the CUY21SC system (prior to delivering the electroporation program) first tests the target sample for R. This then enables precise control of the current setting (I) to ensure delivery of the required… |
| |
| Maximise Electroporation Transfection Efficiency and Reproducibility with the CUY21SC Electroporation System and CU902 Polarity Exchanger |
| TO CORRECT for these physical experimental factors, the CUY21SC system (prior to delivering the electroporation program) first tests the target sample for R. This then enables precise control of the current setting (I) to ensure delivery of the required… |
| |
| Maximise Electroporation Transfection Efficiency and Reproducibility with the CUY21SC Electroporation System and CU902 Polarity Exchanger |
| TO CORRECT for these physical experimental factors, the CUY21SC system (prior to delivering the electroporation program) first tests the target sample for R. This then enables precise control of the current setting (I) to ensure delivery of the required… |
| |
| Maximise Electroporation Transfection Efficiency and Reproducibility with the CUY21SC Electroporation System and CU902 Polarity Exchanger |
| .TO CORRECT for these physical experimental factors, the CUY21SC system (prior to delivering the electroporation program) first tests the target sample for R. This then enables precise control of the current setting (I) to ensure delivery of the required… |
| |
| Maximise Electroporation Transfection Efficiency and Reproducibility with the CUY21SC Electroporation System and CU902 Polarity Exchanger |
| TO CORRECT for these physical experimental factors, the CUY21SC system (prior to delivering the electroporation program) first tests the target sample for R. This then enables precise control of the current setting (I) to ensure delivery of the required… |
| |
| Maximise Electroporation Transfection Efficiency and Reproducibility with the CUY21SC Electroporation System and CU902 Polarity Exchanger |
| TO CORRECT for these physical experimental factors, the CUY21SC system (prior to delivering the electroporation program) first tests the target sample for R. This then enables precise control of the current setting (I) to ensure delivery of the required… |
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| Ultrasound Gene Transfer: One System for Non-invasive in vitro and in vivo applications |
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| Ultrasound Gene Transfer: One System for Non-invasive in vitro and in vivo applications |
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| Low-cost solution to increase Electroporation Transfection Efficiency |
| During electroporation, DNA naturally moves to and accumulates at the positive (+) electrode pole (similar to the process in electrophoresis). However, such accumulation (if not addressed) adversely impacts on electroporation transfection efficiency… |
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| Simple, low-cost solution to increase Electroporation Transfection Efficiency |
| During electroporation, DNA naturally moves to and accumulates at the positive (+) electrode pole (similar to the process in electrophoresis). However, such accumulation (if not addressed) adversely impacts on electroporation transfection efficiency… |
| |
| Low-cost solution to increase Electroporation Transfection Efficiency |
| During electroporation, DNA naturally moves to and accumulates at the positive (+) electrode pole (similar to the process in electrophoresis). However, such accumulation (if not addressed) adversely impacts on electroporation transfection efficiency… |
| |
| Comparison of the CUY21SC and BTX ECM830 Square Waves at 15V |
| This page is password protected and is provided exclusively for the use of SONIDEL Limited customers who have signed up for membership of the SONIDEL Limited webstie (www.sonidel.com) AND who have specifically requested access to this information. … |
| |
| Comparison of the CUY21SC and BTX ECM830 Square Waves at 100V |
| This page is password protected and is provided exclusively for the use of SONIDEL Limited customers who have signed up for membership of the SONIDEL Limited webstie (www.sonidel.com) AND who have specifically requested access to this information. … |
| |
| Comparison of the CUY21SC and BTX ECM830 Square Waves at various voltages |
| This page is password protected and is provided exclusively for the use of SONIDEL Limited customers who have signed up for membership of the SONIDEL Limited webstie (www.sonidel.com) AND who have specifically requested access to this information. … |
| |
| Comparison of the CUY21SC and BTX ECM830 Square Waves at various voltages |
| This page is password protected and is provided exclusively for the use of SONIDEL Limited customers who have signed up for membership of the SONIDEL Limited webstie (www.sonidel.com) AND who have specifically requested access to this information. … |
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| CUY21 Publication List, Electrode Recommendations and Protocol Information |
| … |
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| New Electroporator |
| This page is password protected and is provided exclusively for the use of SONIDEL Limited customers who have signed up for membership of the SONIDEL Limited webstie (www.sonidel.com) AND who have specifically requested access to this information… |
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| New Electroporator |
| This page is password protected and is provided exclusively for the use of SONIDEL Limited customers who have signed up for membership of the SONIDEL Limited webstie (www.sonidel.com) AND who have specifically requested access to this information… |
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| New Electroporator |
| This page is password protected and is provided exclusively for the use of SONIDEL Limited customers who have signed up for membership of the SONIDEL Limited webstie (www.sonidel.com) AND who have specifically requested access to this information… |
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| New Electroporator |
| This page is password protected and is provided exclusively for the use of SONIDEL Limited customers who have signed up for membership of the SONIDEL Limited webstie (www.sonidel.com) AND who have specifically requested access to this information… |
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| New Electroporator |
| This page is password protected and is provided exclusively for the use of SONIDEL Limited customers who have signed up for membership of the SONIDEL Limited webstie (www.sonidel.com) AND who have specifically requested access to this information… |
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| Comparison of the CUY21SC and BTX ECM830 Square Waves at various voltages |
| This page is password protected and is provided exclusively for the use of SONIDEL Limited customers who have signed up for membership of the SONIDEL Limited webstie (www.sonidel.com) AND who have specifically requested access to this information. … |
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| ag teacht abhaile200219992*s |
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| ag teacht abhaile200219992*s |
| We are developing a technology to monitor protein synthesis in living cells by transfecting them with fluorescent labeled tRNA. This is planned for commercialization during 2011. We are currently using several of the popular, commercially available reagents… |
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| ag teacht abhaile200219992*s |
| We are developing a technology to monitor protein synthesis in living cells by transfecting them with fluorescent labeled tRNA. This is planned for commercialization during 2011. We are currently using several of the popular, commercially available reagents… |
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| ag teacht abhaile200219992*s |
| We are developing a technology to monitor protein synthesis in living cells by transfecting them with fluorescent labeled tRNA. This is planned for commercialization during 2011. We are currently using several of the popular, commercially available reagents… |
| |
| ag teacht abhaile200219992*s |
| We are developing a technology to monitor protein synthesis in living cells by transfecting them with fluorescent labeled tRNA. This is planned for commercialization during 2011. We are currently using several of the popular, commercially available reagents… |
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| Comparison of the CUY21SC and BTX ECM830 Square Waves at various voltages |
| This page is password protected and is provided exclusively for the use of SONIDEL Limited customers who have signed up for membership of the SONIDEL Limited webstie (www.sonidel.com) AND who have specifically requested access to this information. … |
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| Comparison of the CUY21SC and BTX ECM830 Square Waves at 100V |
| This page is password protected and is provided exclusively for the use of SONIDEL Limited customers who have signed up for membership of the SONIDEL Limited webstie (www.sonidel.com) AND who have specifically requested access to this information. … |
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| Comparison of the CUY21SC and BTX ECM830 Square Waves at various voltages |
| This page is password protected and is provided exclusively for the use of SONIDEL Limited customers who have signed up for membership of the SONIDEL Limited webstie (www.sonidel.com) AND who have specifically requested access to this information. … |
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| Comparison of the CUY21SC and BTX ECM830 Square Waves at 15V |
| This page is password protected and is provided exclusively for the use of SONIDEL Limited customers who have signed up for membership of the SONIDEL Limited webstie (www.sonidel.com) AND who have specifically requested access to this information. … |
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| Comparison of the CUY21SC and BTX ECM830 Square Waves at 20V |
| This page is password protected and is provided exclusively for the use of SONIDEL Limited customers who have signed up for membership of the SONIDEL Limited webstie (www.sonidel.com) AND who have specifically requested access to this information. … |
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| Comparison of the CUY21SC and BTX ECM830 Square Waves at 25V |
| This page is password protected and is provided exclusively for the use of SONIDEL Limited customers who have signed up for membership of the SONIDEL Limited webstie (www.sonidel.com) AND who have specifically requested access to this information. … |
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| Comparison of the CUY21SC and BTX ECM830 Square Waves at 30V |
| This page is password protected and is provided exclusively for the use of SONIDEL Limited customers who have signed up for membership of the SONIDEL Limited webstie (www.sonidel.com) AND who have specifically requested access to this information. … |
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| Comparison of the CUY21SC and BTX ECM830 Square Waves at 40V |
| This page is password protected and is provided exclusively for the use of SONIDEL Limited customers who have signed up for membership of the SONIDEL Limited webstie (www.sonidel.com) AND who have specifically requested access to this information. … |
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| Comparison of the CUY21SC and BTX ECM830 Square Waves at 50V |
| This page is password protected and is provided exclusively for the use of SONIDEL Limited customers who have signed up for membership of the SONIDEL Limited webstie (www.sonidel.com) AND who have specifically requested access to this information. … |
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| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The NEPA21 can do in one device what each of the EDIT and SC did individually, i.e., it combines BOTH the… |
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| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC leaders in their class. The NEPA21 is the successor to BOTH the CUY21EDIT and CUY21SC electroporators. The NEPA21 can do in one device… |
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| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC leaders in their class. The NEPA21 is the successor to BOTH the CUY21EDIT and CUY21SC electroporators. The NEPA21 can do in one device… |
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| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC leaders in their class. The NEPA21 is the successor to BOTH the CUY21EDIT and CUY21SC electroporators. The NEPA21 can do in one device… |
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| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC leaders in their class. The NEPA21 is the successor to BOTH the CUY21EDIT and CUY21SC electroporators. The NEPA21 can do in one device… |
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| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The NEPA21 can do in one device what each of the EDIT and SC did individually, i.e., it combines BOTH the… |
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| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The NEPA21 can do in one device what each of the EDIT and SC did individually, i.e., it combines BOTH the… |
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| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The NEPA21 can do in one device what each of the EDIT and SC did individually, i.e., it combines BOTH the… |
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| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The NEPA21 can do in one device what each of the EDIT and SC did individually, i.e., it combines BOTH the… |
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| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The NEPA21 can do in one device what each of the EDIT and SC did individually, i.e., it combines BOTH the… |
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| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The NEPA21 can do in one device what each of the EDIT and SC did individually, i.e., it combines BOTH the… |
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| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The NEPA21 can do in one device what each of the EDIT and SC did individually, i.e., it combines BOTH the… |
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| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The NEPA21 can do in one device what each of the EDIT and SC did individually, i.e., it combines BOTH the… |
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| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The NEPA21 can do in one device what each of the EDIT and SC did individually, i.e., it combines BOTH the… |
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| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The NEPA21 can do in one device what each of the EDIT and SC did individually, i.e., it combines BOTH the… |
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| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The NEPA21 can do in one device what each of the EDIT and SC did individually, i.e., it combines BOTH the… |
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| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The NEPA21 can do in one device what each of the EDIT and SC did individually, i.e., it combines BOTH the… |
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| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The NEPA21 can do in one device what each of the EDIT and SC did individually, i.e., it combines BOTH the… |
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| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The NEPA21 can do in one device what each of the EDIT and SC did individually, i.e., it combines BOTH the… |
| |
| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The NEPA21 can do in one device what each of the EDIT and SC did individually, i.e., it combines BOTH the… |
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| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The NEPA21 can do in one device what each of the EDIT and SC did individually, i.e., it combines BOTH the… |
| |
| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The NEPA21 can do in one device what each of the EDIT and SC did individually, i.e., it combines BOTH the… |
| |
| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The NEPA21 can do in one device what each of the EDIT and SC did individually, i.e., it combines BOTH the… |
| |
| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The NEPA21 can do in one device what each of the EDIT and SC did individually, i.e., it combines BOTH the… |
| |
| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The NEPA21 can do in one device what each of the EDIT and SC did individually, i.e., it combines BOTH the… |
| |
| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The NEPA21 can do in one device what each of the EDIT and SC did individually, i.e., it combines BOTH the… |
| |
| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The NEPA21 can do in one device what each of the EDIT and SC did individually, i.e., it combines BOTH the… |
| |
| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The NEPA21 can do in one device what each of the EDIT and SC did individually, i.e., it combines BOTH the… |
| |
| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The NEPA21 can do in one device what each of the EDIT and SC did individually, i.e., it combines BOTH the… |
| |
| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The NEPA21 can do in one device what each of the EDIT and SC did individually, i.e., it combines BOTH the… |
| |
| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The NEPA21 can do in one device what each of the EDIT and SC did individually, i.e., it combines BOTH the… |
| |
| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The NEPA21 can do in one device what each of the EDIT and SC did individually, i.e., it combines BOTH the… |
| |
| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The NEPA21 can do in one device what each of the EDIT and SC did individually, i.e., it combines BOTH the… |
| |
| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The NEPA21 can do in one device what each of the EDIT and SC did individually, i.e., it combines BOTH the… |
| |
| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The NEPA21 can do in one device what each of the EDIT and SC did individually, i.e., it combines BOTH the… |
| |
| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The NEPA21 can do in one device what each of the EDIT and SC did individually, i.e., it combines BOTH the… |
| |
| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The NEPA21 can do in one device what each of the EDIT and SC did individually, i.e., it combines BOTH the… |
| |
| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The NEPA21 can do in one device what each of the EDIT and SC did individually, i.e., it combines BOTH the… |
| |
| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The NEPA21 can do in one device what each of the EDIT and SC did individually, i.e., it combines BOTH the… |
| |
| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The NEPA21 can do in one device what each of the EDIT and SC did individually, i.e., it combines BOTH the… |
| |
| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The NEPA21 can do in one device what each of the EDIT and SC did individually, i.e., it combines BOTH the… |
| |
| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The NEPA21 can do in one device what each of the EDIT and SC did individually, i.e., it combines BOTH the… |
| |
| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The NEPA21 can do in one device what each of the EDIT and SC did individually, i.e., it combines BOTH the… |
| |
| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The NEPA21 can do in one device what each of the EDIT and SC did individually, i.e., it combines BOTH the… |
| |
| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The NEPA21 can do in one device what each of the EDIT and SC did individually, i.e., it combines BOTH the… |
| |
| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The NEPA21 can do in one device what each of the EDIT and SC did individually, i.e., it combines BOTH the… |
| |
| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The NEPA21 can do in one device what each of the EDIT and SC did individually, i.e., it combines BOTH the… |
| |
| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The NEPA21 can do in one device what each of the EDIT and SC did individually, i.e., it combines BOTH the… |
| |
| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The NEPA21 can do in one device what each of the EDIT and SC did individually, i.e., it combines BOTH the… |
| |
| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The NEPA21 can do in one device what each of the EDIT and SC did individually, i.e., it combines BOTH the… |
| |
| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The NEPA21 can do in one device what each of the EDIT and SC did individually, i.e., it combines BOTH the… |
| |
| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The NEPA21 can do in one device what each of the EDIT and SC did individually, i.e., it combines BOTH the… |
| |
| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The NEPA21 can do in one device what each of the EDIT and SC did individually, i.e., it combines BOTH the… |
| |
| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The NEPA21 can do in one device what each of the EDIT and SC did individually, i.e., it combines BOTH the… |
| |
| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The NEPA21 can do in one device what each of the EDIT and SC did individually, i.e., it combines BOTH the… |
| |
| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The NEPA21 can do in one device what each of the EDIT and SC did individually, i.e., it combines BOTH the… |
| |
| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The NEPA21 can do in one device what each of the EDIT and SC did individually, i.e., it combines BOTH the… |
| |
| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The NEPA21 can do in one device what each of the EDIT and SC did individually, i.e., it combines BOTH the… |
| |
| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The NEPA21 can do in one device what each of the EDIT and SC did individually, i.e., it combines BOTH the… |
| |
| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The NEPA21 can do in one device what each of the EDIT and SC did individually, i.e., it combines BOTH the… |
| |
| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The NEPA21 can do in one device what each of the EDIT and SC did individually, i.e., it combines BOTH the… |
| |
| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The NEPA21 can do in one device what each of the EDIT and SC did individually, i.e., it combines BOTH the… |
| |
| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The NEPA21 can do in one device what each of the EDIT and SC did individually, i.e., it combines BOTH the… |
| |
| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The NEPA21 can do in one device what each of the EDIT and SC did individually, i.e., it combines BOTH the… |
| |
| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The NEPA21 can do in one device what each of the EDIT and SC did individually, i.e., it combines BOTH the… |
| |
| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The NEPA21 can do in one device what each of the EDIT and SC did individually, i.e., it combines BOTH the… |
| |
| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The NEPA21 can do in one device what each of the EDIT and SC did individually, i.e., it combines BOTH the… |
| |
| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The NEPA21 can do in one device what each of the EDIT and SC did individually, i.e., it combines BOTH the… |
| |
| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The NEPA21 can do in one device what each of the EDIT and SC did individually, i.e., it combines BOTH the… |
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| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The NEPA21 can do in one device what each of the EDIT and SC did individually, i.e., it combines BOTH the… |
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| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The NEPA21 can do in one device what each of the EDIT and SC did individually, i.e., it combines BOTH the… |
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| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The NEPA21 can do in one device what each of the EDIT and SC did individually, i.e., it combines BOTH the… |
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| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The NEPA21 can do in one device what each of the EDIT and SC did individually, i.e., it combines BOTH the… |
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| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The NEPA21 can do in one device what each of the EDIT and SC did individually, i.e., it combines BOTH the… |
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| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The NEPA21 can do in one device what each of the EDIT and SC did individually, i.e., it combines BOTH the… |
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| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The NEPA21 can do in one device what each of the EDIT and SC did individually, i.e., it combines BOTH the… |
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| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The NEPA21 can do in one device what each of the EDIT and SC did individually, i.e., it combines BOTH the… |
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| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The NEPA21 can do in one device what each of the EDIT and SC did individually, i.e., it combines BOTH the… |
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| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The NEPA21 can do in one device what each of the EDIT and SC did individually, i.e., it combines BOTH the… |
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| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The NEPA21 can do in one device what each of the EDIT and SC did individually, i.e., it combines BOTH the… |
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| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The NEPA21 can do in one device what each of the EDIT and SC did individually, i.e., it combines BOTH the… |
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| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The NEPA21 can do in one device what each of the EDIT and SC did individually, i.e., it combines BOTH the… |
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| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The NEPA21 can do in one device what each of the EDIT and SC did individually, i.e., it combines BOTH the… |
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| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The NEPA21 can do in one device what each of the EDIT and SC did individually, i.e., it combines BOTH the… |
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| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The NEPA21 can do in one device what each of the EDIT and SC did individually, i.e., it combines BOTH the… |
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| Adherent Cells |
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| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The NEPA21 can do in one device what each of the EDIT and SC did individually, i.e., it combines BOTH the… |
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| NEPA Electroporation Cuvettes |
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| NEPA Electroporation Cuvettes |
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| NEPA Electroporation Cuvettes |
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| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The NEPA21 can do in one device what each of the EDIT and SC did individually, i.e., it combines BOTH the… |
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| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The NEPA21 can do in one device what each of the EDIT and SC did individually, i.e., it combines BOTH the… |
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| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The NEPA21 can do in one device what each of the EDIT and SC did individually, i.e., it combines BOTH the… |
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| Electroporation-mediated gene transfer in the adult rat brain |
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| CUY21 Illustrated Applications |
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| CUY21 Illustrated Applications |
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| CUY21 Illustrated Applications |
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| CUY21 Illustrated Applications |
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| CUY21 Illustrated Applications |
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| CUY21 Illustrated Applications |
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| CUY21 Illustrated Applications |
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| CUY21 Illustrated Applications |
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| CUY21 Illustrated Applications |
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| Gene transfer into embryonic brains using in utero electroporation technique |
| A 2 cm midline incision is then made in the abdominal wall along the linea alba using a set of forceps and scissors. A piece of sterile gauze with a hole cut in the center is placed over the incision, and one uterine horn is drawn out through the… |
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| CUY21 Illustrated Applications |
| A 2 cm midline incision is then made in the abdominal wall along the linea alba using a set of forceps and scissors. A piece of sterile gauze with a hole cut in the center is placed over the incision, and one uterine horn is drawn out through… |
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| CUY21 Illustrated Applications |
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| CUY21 Illustrated Applications |
| A 2 cm midline incision is then made in the abdominal wall along the linea alba using a set of forceps and scissors. A piece of sterile gauze with a hole cut in the center is placed over the incision, and one uterine horn is drawn out through… |
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| Electroporation for mammalian embryos in the whole embryo culture system |
| (A) EGFP-expression vector was electroporated into E11.5 rat telencephalon. The electroporated embryo was cultured in the whole embryo culture system (WEC). (B) 24 hours after electroporation, EGFP-expression was specifically detected at the dorsal part… |
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| Electroporation for mammalian embryos in the whole embryo culture system |
| (B-E) Time-lapse analysis of neuroepithelial cells in the slice culture system. Histon-EGFP- and DsRed2-expression vectors were co-electroporated into the E12.0 rat spinal cord. The electroporated embryo was cultured for 24 hours in the WEC, then the… |
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| Electroporation for mammalian embryos in the whole embryo culture system |
| (B-E) Time-lapse analysis of neuroepithelial cells in the slice culture system. Histon-EGFP- and DsRed2-expression vectors were co-electroporated into the E12.0 rat spinal cord. The electroporated embryo was cultured for 24 hours in the WEC, then the… |
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| Electroporation for mammalian embryos in the whole embryo culture system |
| (B-E) Time-lapse analysis of neuroepithelial cells in the slice culture system. Histon-EGFP- and DsRed2-expression vectors were co-electroporated into the E12.0 rat spinal cord. The electroporated embryo was cultured for 24 hours in the WEC, then the… |
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| Electroporation for mammalian embryos in the whole embryo culture system |
| (B-E) Time-lapse analysis of neuroepithelial cells in the slice culture system. Histon-EGFP- and DsRed2-expression vectors were co-electroporated into the E12.0 rat spinal cord. The electroporated embryo was cultured for 24 hours in the WEC, then the… |
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| Electroporation for mammalian embryos in the whole embryo culture system |
| (B-E) Time-lapse analysis of neuroepithelial cells in the slice culture system. Histon-EGFP- and DsRed2-expression vectors were co-electroporated into the E12.0 rat spinal cord. The electroporated embryo was cultured for 24 hours in the WEC, then the… |
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| CUY21 Illustrated Applications |
| A 2 cm midline incision is then made in the abdominal wall along the linea alba using a set of forceps and scissors. A piece of sterile gauze with a hole cut in the center is placed over the incision, and one uterine horn is drawn out through… |
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| CUY21 Illustrated Applications |
| A 2 cm midline incision is then made in the abdominal wall along the linea alba using a set of forceps and scissors. A piece of sterile gauze with a hole cut in the center is placed over the incision, and one uterine horn is drawn out through… |
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| CUY21 Illustrated Applications |
| A 2 cm midline incision is then made in the abdominal wall along the linea alba using a set of forceps and scissors. A piece of sterile gauze with a hole cut in the center is placed over the incision, and one uterine horn is drawn out through… |
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| CUY21 Illustrated Applications |
| A 2 cm midline incision is then made in the abdominal wall along the linea alba using a set of forceps and scissors. A piece of sterile gauze with a hole cut in the center is placed over the incision, and one uterine horn is drawn out through… |
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| CUY21 Illustrated Applications |
| A 2 cm midline incision is then made in the abdominal wall along the linea alba using a set of forceps and scissors. A piece of sterile gauze with a hole cut in the center is placed over the incision, and one uterine horn is drawn out through… |
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| CUY21 Illustrated Applications |
| A 2 cm midline incision is then made in the abdominal wall along the linea alba using a set of forceps and scissors. A piece of sterile gauze with a hole cut in the center is placed over the incision, and one uterine horn is drawn out through… |
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| CUY21 Illustrated Applications |
| A 2 cm midline incision is then made in the abdominal wall along the linea alba using a set of forceps and scissors. A piece of sterile gauze with a hole cut in the center is placed over the incision, and one uterine horn is drawn out through… |
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| Electroporation-mediated gene transfer system applied to cultured CNS neurons |
| (d, e) A mature hippocampal neuron maintained 14 days in dissociated culture after electroporation of a ß-actin-eGFP expression construct. Higher magni¢cation view of the region marked by a rectangle in (d) reveals dendritic spines on the surface of… |
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| Electroporation-mediated gene transfer system applied to cultured CNS neurons |
| (d, e) A mature hippocampal neuron maintained 14 days in dissociated culture after electroporation of a ß-actin-eGFP expression construct. Higher magni¢cation view of the region marked by a rectangle in (d) reveals dendritic spines on the surface of… |
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| CUY21 Illustrated Applications |
| A 2 cm midline incision is then made in the abdominal wall along the linea alba using a set of forceps and scissors. A piece of sterile gauze with a hole cut in the center is placed over the incision, and one uterine horn is drawn out through… |
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| Electroporation-mediated gene transfer in the adult rat brain |
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| Electroporation-mediated gene transfer in the adult rat brain |
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| CUY21 Illustrated Applications |
| A 2 cm midline incision is then made in the abdominal wall along the linea alba using a set of forceps and scissors. A piece of sterile gauze with a hole cut in the center is placed over the incision, and one uterine horn is drawn out through… |
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| CUY21 Illustrated Applications |
| A 2 cm midline incision is then made in the abdominal wall along the linea alba using a set of forceps and scissors. A piece of sterile gauze with a hole cut in the center is placed over the incision, and one uterine horn is drawn out through… |
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| CUY21 Illustrated Applications |
| A 2 cm midline incision is then made in the abdominal wall along the linea alba using a set of forceps and scissors. A piece of sterile gauze with a hole cut in the center is placed over the incision, and one uterine horn is drawn out through… |
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| CUY21 Illustrated Applications |
| A 2 cm midline incision is then made in the abdominal wall along the linea alba using a set of forceps and scissors. A piece of sterile gauze with a hole cut in the center is placed over the incision, and one uterine horn is drawn out through… |
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| Gene transfer into muscle by In Vivo electroporation |
| Electric pulses were delivered using an electric pulse generator (Square Wave Electroporator CUY21EDIT; Nepa Gene Co., Ltd.). Electrodes consisted of a pair of stainless steel needles of 5 mm in length and 0.4 mm in diameter, fixed with a distance (… |
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| CUY21 Illustrated Applications |
| A 2 cm midline incision is then made in the abdominal wall along the linea alba using a set of forceps and scissors. A piece of sterile gauze with a hole cut in the center is placed over the incision, and one uterine horn is drawn out through… |
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| Epidermis-Targeted Gene Transfer Using In Vivo Electroporation |
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| CUY21 Illustrated Applications |
| A 2 cm midline incision is then made in the abdominal wall along the linea alba using a set of forceps and scissors. A piece of sterile gauze with a hole cut in the center is placed over the incision, and one uterine horn is drawn out through… |
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| CUY21 Illustrated Applications |
| A 2 cm midline incision is then made in the abdominal wall along the linea alba using a set of forceps and scissors. A piece of sterile gauze with a hole cut in the center is placed over the incision, and one uterine horn is drawn out through… |
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| CUY21 Illustrated Applications |
| A 2 cm midline incision is then made in the abdominal wall along the linea alba using a set of forceps and scissors. A piece of sterile gauze with a hole cut in the center is placed over the incision, and one uterine horn is drawn out through… |
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| CUY21 Illustrated Applications |
| A 2 cm midline incision is then made in the abdominal wall along the linea alba using a set of forceps and scissors. A piece of sterile gauze with a hole cut in the center is placed over the incision, and one uterine horn is drawn out through… |
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| Electroporated Transgene-Rescued Spermatogenesis in Infertile Mutant Mice with a Sertoli Cell Defect |
| Stereomicroscopic views of transfected testes charged with various voltages and observed under visible (A) or excitation (B) light after 5 wk. Voltage is indicated on each testis (A). Loss of testicular weight 5 wk after electric charge in 12-day-old… |
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| CUY21 Illustrated Applications |
| A 2 cm midline incision is then made in the abdominal wall along the linea alba using a set of forceps and scissors. A piece of sterile gauze with a hole cut in the center is placed over the incision, and one uterine horn is drawn out through… |
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| CUY21 Illustrated Applications |
| A 2 cm midline incision is then made in the abdominal wall along the linea alba using a set of forceps and scissors. A piece of sterile gauze with a hole cut in the center is placed over the incision, and one uterine horn is drawn out through… |
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| Misexpression of the gene of interest by in ovo electroporation |
| Mechanisms of brain regionalization and neural circuit formation have been studied by misexpression of transcription factors (En1/2, Pax2/5/6, Otx2, Gbx2), secreted factors (Fgf, Shh, semaphoring), signal transduction molecule (Ras, Sprouty2) and receptors… |
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| CUY21 Illustrated Applications |
| A 2 cm midline incision is then made in the abdominal wall along the linea alba using a set of forceps and scissors. A piece of sterile gauze with a hole cut in the center is placed over the incision, and one uterine horn is drawn out through… |
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| Misexpression of the gene of interest by in ovo electroporation |
| Mechanisms of brain regionalization and neural circuit formation have been studied by misexpression of transcription factors (En1/2, Pax2/5/6, Otx2, Gbx2), secreted factors (Fgf, Shh, semaphoring), signal transduction molecule (Ras, Sprouty2) and receptors… |
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| CUY21 Illustrated Applications |
| A 2 cm midline incision is then made in the abdominal wall along the linea alba using a set of forceps and scissors. A piece of sterile gauze with a hole cut in the center is placed over the incision, and one uterine horn is drawn out through… |
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| CUY21 Illustrated Applications |
| A 2 cm midline incision is then made in the abdominal wall along the linea alba using a set of forceps and scissors. A piece of sterile gauze with a hole cut in the center is placed over the incision, and one uterine horn is drawn out through… |
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| CUY21 Illustrated Applications |
| A 2 cm midline incision is then made in the abdominal wall along the linea alba using a set of forceps and scissors. A piece of sterile gauze with a hole cut in the center is placed over the incision, and one uterine horn is drawn out through… |
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| Knock-down by transfection of shRNA expression vector by electroporation |
| (B) Select target DNA sequence of 19 to 21 mer. Sense and antisense sequence were linked to a nucleotide spacer as a loop and put into expression vector that is driven by U6 or H1 promoter. Commercially available expression vector that dreives expression… |
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| CUY21 Illustrated Applications |
| A 2 cm midline incision is then made in the abdominal wall along the linea alba using a set of forceps and scissors. A piece of sterile gauze with a hole cut in the center is placed over the incision, and one uterine horn is drawn out through… |
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| CUY21 Illustrated Applications |
| A 2 cm midline incision is then made in the abdominal wall along the linea alba using a set of forceps and scissors. A piece of sterile gauze with a hole cut in the center is placed over the incision, and one uterine horn is drawn out through… |
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| CUY21 Illustrated Applications |
| A 2 cm midline incision is then made in the abdominal wall along the linea alba using a set of forceps and scissors. A piece of sterile gauze with a hole cut in the center is placed over the incision, and one uterine horn is drawn out through… |
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| CUY21 Illustrated Applications |
| A 2 cm midline incision is then made in the abdominal wall along the linea alba using a set of forceps and scissors. A piece of sterile gauze with a hole cut in the center is placed over the incision, and one uterine horn is drawn out through… |
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| CUY21 Illustrated Applications |
| A 2 cm midline incision is then made in the abdominal wall along the linea alba using a set of forceps and scissors. A piece of sterile gauze with a hole cut in the center is placed over the incision, and one uterine horn is drawn out through… |
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| CUY21 Illustrated Applications |
| A 2 cm midline incision is then made in the abdominal wall along the linea alba using a set of forceps and scissors. A piece of sterile gauze with a hole cut in the center is placed over the incision, and one uterine horn is drawn out through… |
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| CUY21 Illustrated Applications |
| A 2 cm midline incision is then made in the abdominal wall along the linea alba using a set of forceps and scissors. A piece of sterile gauze with a hole cut in the center is placed over the incision, and one uterine horn is drawn out through… |
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| Method to introduce genes into epithelial cells of the chicken embryonic stomach (proventriculus) |
| 4. Apply pulses of 30V for 15 times with pulse length of 50ms, and interval time of 75ms. Remove agarose gel immediately and wash it in Tyrode's solution. Then take out the tissues from the gel and wash them well in Tryode's solution. The tissues… |
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| CUY21 Illustrated Applications |
| A 2 cm midline incision is then made in the abdominal wall along the linea alba using a set of forceps and scissors. A piece of sterile gauze with a hole cut in the center is placed over the incision, and one uterine horn is drawn out through… |
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| CUY21 Illustrated Applications |
| A 2 cm midline incision is then made in the abdominal wall along the linea alba using a set of forceps and scissors. A piece of sterile gauze with a hole cut in the center is placed over the incision, and one uterine horn is drawn out through… |
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| CUY21 Illustrated Applications |
| A 2 cm midline incision is then made in the abdominal wall along the linea alba using a set of forceps and scissors. A piece of sterile gauze with a hole cut in the center is placed over the incision, and one uterine horn is drawn out through… |
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| CUY21 Illustrated Applications |
| A 2 cm midline incision is then made in the abdominal wall along the linea alba using a set of forceps and scissors. A piece of sterile gauze with a hole cut in the center is placed over the incision, and one uterine horn is drawn out through… |
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| Electroporation of Xenopus embryo: Gene Delivery into the Primordium Eye at the Neural Plate Stage |
| Fig.(1) shows the general setting of the electroporation. Vitelline membrane of the embryo (st.12-13) is usually kept intact. Inject 5-10nl of GFP-mRNA(1µg/µl, 0.05% Fast Green) into intercellular space of upper-few epithelial layers of the neural… |
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| CUY21 Illustrated Applications |
| A 2 cm midline incision is then made in the abdominal wall along the linea alba using a set of forceps and scissors. A piece of sterile gauze with a hole cut in the center is placed over the incision, and one uterine horn is drawn out through… |
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| CUY21 Illustrated Applications |
| A 2 cm midline incision is then made in the abdominal wall along the linea alba using a set of forceps and scissors. A piece of sterile gauze with a hole cut in the center is placed over the incision, and one uterine horn is drawn out through… |
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| In vivo gene transfer into the adult honeybee brain by using electroporation |
| a) Schematic representation of the micropipette and electrodes placed in the honeybee brain. Purple indicates micropipette filled with DNA solution, blue indicates electrodes. AN, antennae; C, compound eyes; MB, mushroom bodies; Oc, ocelli; OL, optic… |
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| CUY21 Illustrated Applications |
| A 2 cm midline incision is then made in the abdominal wall along the linea alba using a set of forceps and scissors. A piece of sterile gauze with a hole cut in the center is placed over the incision, and one uterine horn is drawn out through… |
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| CUY21 Illustrated Applications |
| A 2 cm midline incision is then made in the abdominal wall along the linea alba using a set of forceps and scissors. A piece of sterile gauze with a hole cut in the center is placed over the incision, and one uterine horn is drawn out through… |
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| CUY21 Illustrated Applications |
| A 2 cm midline incision is then made in the abdominal wall along the linea alba using a set of forceps and scissors. A piece of sterile gauze with a hole cut in the center is placed over the incision, and one uterine horn is drawn out through… |
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| Electrochemotherapy for digital chondrosarcoma |
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| Electrochemotherapy for digital chondrosarcoma |
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| CUY21 Illustrated Applications |
| A 2 cm midline incision is then made in the abdominal wall along the linea alba using a set of forceps and scissors. A piece of sterile gauze with a hole cut in the center is placed over the incision, and one uterine horn is drawn out through… |
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| CUY21 Illustrated Applications |
| A 2 cm midline incision is then made in the abdominal wall along the linea alba using a set of forceps and scissors. A piece of sterile gauze with a hole cut in the center is placed over the incision, and one uterine horn is drawn out through… |
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| CUY21 Illustrated Applications |
| A 2 cm midline incision is then made in the abdominal wall along the linea alba using a set of forceps and scissors. A piece of sterile gauze with a hole cut in the center is placed over the incision, and one uterine horn is drawn out through… |
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| CUY21 Illustrated Applications |
| A 2 cm midline incision is then made in the abdominal wall along the linea alba using a set of forceps and scissors. A piece of sterile gauze with a hole cut in the center is placed over the incision, and one uterine horn is drawn out through… |
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| CUY21 Illustrated Applications |
| A 2 cm midline incision is then made in the abdominal wall along the linea alba using a set of forceps and scissors. A piece of sterile gauze with a hole cut in the center is placed over the incision, and one uterine horn is drawn out through… |
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| Photo comparison of NEPA21 with CUY21EDIT |
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| CUY21 Illustrated Applications |
| A 2 cm midline incision is then made in the abdominal wall along the linea alba using a set of forceps and scissors. A piece of sterile gauze with a hole cut in the center is placed over the incision, and one uterine horn is drawn out through… |
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| Photo comparison of NEPA21 with CUY21EDIT |
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| Photo comparison of NEPA21 with CUY21EDIT |
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| Photo comparison of NEPA21 with CUY21EDIT |
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| Photo comparison of NEPA21 with CUY21EDIT |
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| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The NEPA21 can do in one device what each of the EDIT and SC did individually, i.e., it combines BOTH the… |
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| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The NEPA21 can do in one device what each of the EDIT and SC did individually, i.e., it combines BOTH the… |
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| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The NEPA21 can do in one device what each of the EDIT and SC did individually, i.e., it combines BOTH the… |
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| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The NEPA21 can do in one device what each of the EDIT and SC did individually, i.e., it combines BOTH the… |
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| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The NEPA21 can do in one device what each of the EDIT and SC did individually, i.e., it combines BOTH the… |
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| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The NEPA21 can do in one device what each of the EDIT and SC did individually, i.e., it combines BOTH the… |
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| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The NEPA21 can do in one device what each of the EDIT and SC did individually, i.e., it combines BOTH the… |
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| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The NEPA21 can do in one device what each of the EDIT and SC did individually, i.e., it combines BOTH the… |
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| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The NEPA21 can do in one device what each of the EDIT and SC did individually, i.e., it combines BOTH the… |
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| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The NEPA21 can do in one device what each of the EDIT and SC did individually, i.e., it combines BOTH the… |
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| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The NEPA21 can do in one device what each of the EDIT and SC did individually, i.e., it combines BOTH the… |
| |
| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The NEPA21 can do in one device what each of the EDIT and SC did individually, i.e., it combines BOTH the… |
| |
| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The NEPA21 can do in one device what each of the EDIT and SC did individually, i.e., it combines BOTH the… |
| |
| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The NEPA21 can do in one device what each of the EDIT and SC did individually, i.e., it combines BOTH the… |
| |
| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The NEPA21 can do in one device what each of the EDIT and SC did individually, i.e., it combines BOTH the… |
| |
| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The NEPA21 can do in one device what each of the EDIT and SC did individually, i.e., it combines BOTH the… |
| |
| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The NEPA21 can do in one device what each of the EDIT and SC did individually, i.e., it combines BOTH the… |
| |
| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The NEPA21 can do in one device what each of the EDIT and SC did individually, i.e., it combines BOTH the… |
| |
| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The NEPA21 can do in one device what each of the EDIT and SC did individually, i.e., it combines BOTH the… |
| |
| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The NEPA21 can do in one device what each of the EDIT and SC did individually, i.e., it combines BOTH the… |
| |
| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The NEPA21 can do in one device what each of the EDIT and SC did individually, i.e., it combines BOTH the… |
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| Maximise Electroporation Transfection Efficiency and Reproducibility with the CUY21SC Electroporation System and CU902 Polarity Exchanger |
| TO CORRECT for these physical experimental factors, the CUY21SC system (prior to delivering the electroporation program) first tests the target sample for R. This then enables precise control of the current setting (I) to ensure delivery of the required… |
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| Improve Electroporation Transfection Efficiency with the CU902 Polarity Exchanger |
| During electroporation, DNA naturally moves to and accumulates at the positive (+) electrode pole (similar to the process in electrophoresis). However, such accumulation (if not addressed) adversely impacts on electroporation transfection efficiency… |
| |
| Improve Electroporation Transfection Efficiency with the CU902 Polarity Exchanger |
| During electroporation, DNA naturally moves to and accumulates at the positive (+) electrode pole (similar to the process in electrophoresis). However, such accumulation (if not addressed) adversely impacts on electroporation transfection efficiency… |
| |
| Improve Electroporation Transfection Efficiency with the CU902 Polarity Exchanger |
| During electroporation, DNA naturally moves to and accumulates at the positive (+) electrode pole (similar to the process in electrophoresis). However, such accumulation (if not addressed) adversely impacts on electroporation transfection efficiency… |
| |
| Improve Electroporation Transfection Efficiency with the CU902 Polarity Exchanger |
| During electroporation, DNA naturally moves to and accumulates at the positive (+) electrode pole (similar to the process in electrophoresis). However, such accumulation (if not addressed) adversely impacts on electroporation transfection efficiency… |
| |
| Improve Electroporation Transfection Efficiency with the CU902 Polarity Exchanger |
| During electroporation, DNA naturally moves to and accumulates at the positive (+) electrode pole (similar to the process in electrophoresis). However, such accumulation (if not addressed) adversely impacts on electroporation transfection efficiency… |
| |
| Improve Electroporation Transfection Efficiency with the CU902 Polarity Exchanger |
| During electroporation, DNA naturally moves to and accumulates at the positive (+) electrode pole (similar to the process in electrophoresis). However, such accumulation (if not addressed) adversely impacts on electroporation transfection efficiency… |
| |
| Improve Electroporation Transfection Efficiency with the CU902 Polarity Exchanger |
| During electroporation, DNA naturally moves to and accumulates at the positive (+) electrode pole (similar to the process in electrophoresis). However, such accumulation (if not addressed) adversely impacts on electroporation transfection efficiency… |
| |
| Connector Cables for NEPA21 / CUY21 Electroporator and Electrodes |
| If one uses the tweezers-type electrode with the ECM830 the C117 is not required. The C117 is used to hook a needle-type electrode such as the CUY611 series and the CUY613 series. Tweezers-type electrodes such as the CUY650 series have the required… |
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| CU700 and CU710 Electroporation and Cell Fusion Monitoring Systems |
| … |
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| CU700 and CU710 Electroporation and Cell Fusion Monitoring Systems |
| … |
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| NEPA21, CUY21SC and CUY21EDIT Multiple Applications and Electrode Recommendations |
| A 2 cm midline incision is then made in the abdominal wall along the linea alba using a set of forceps and scissors. A piece of sterile gauze with a hole cut in the center is placed over the incision, and one uterine horn is drawn out through the… |
| |
| CU700 and CU710 Electroporation and Cell Fusion Monitoring Systems |
| … |
| |
| CU700 and CU710 Electroporation and Cell Fusion Monitoring Systems |
| … |
| |
| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The NEPA21 can do in one device what each of the EDIT and SC did individually, i.e., it combines BOTH the… |
| |
| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The NEPA21 can do in one device what each of the EDIT and SC did individually, i.e., it combines BOTH the… |
| |
| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The NEPA21 can do in one device what each of the EDIT and SC did individually, i.e., it combines BOTH the… |
| |
| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The NEPA21 can do in one device what each of the EDIT and SC did individually, i.e., it combines BOTH the… |
| |
| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The NEPA21 can do in one device what each of the EDIT and SC did individually, i.e., it combines BOTH the… |
| |
| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The NEPA21 can do in one device what each of the EDIT and SC did individually, i.e., it combines BOTH the… |
| |
| NEP21, CUY21SC and CUY21EDIT Multiple Applications and Electrode Recommendations |
| … |
| |
| NEPA21, CUY21SC and CUY21EDIT Multiple Applications and Electrode Recommendations |
| A 2 cm midline incision is then made in the abdominal wall along the linea alba using a set of forceps and scissors. A piece of sterile gauze with a hole cut in the center is placed over the incision, and one uterine horn is drawn out through the hole… |
| |
| NEPA21_Retina_EP |
| (B) The current was applied with the positive electrode contralateral to the injected eye. After prior injection of plasmid DNA into the subretinal space of the right eye, this arrangement electrophoresed the negatively-charged DNA toward the RPE layer… |
| |
| NEP21, CUY21SC and CUY21EDIT Multiple Applications and Electrode Recommendations |
| … |
| |
| CUY21 Illustrated Applications |
| A 2 cm midline incision is then made in the abdominal wall along the linea alba using a set of forceps and scissors. A piece of sterile gauze with a hole cut in the center is placed over the incision, and one uterine horn is drawn out through… |
| |
| CUY21 Illustrated Applications |
| A 2 cm midline incision is then made in the abdominal wall along the linea alba using a set of forceps and scissors. A piece of sterile gauze with a hole cut in the center is placed over the incision, and one uterine horn is drawn out through… |
| |
| CUY21 Illustrated Applications |
| A 2 cm midline incision is then made in the abdominal wall along the linea alba using a set of forceps and scissors. A piece of sterile gauze with a hole cut in the center is placed over the incision, and one uterine horn is drawn out through the hole… |
| |
| CUY21 Illustrated Applications |
| A 2 cm midline incision is then made in the abdominal wall along the linea alba using a set of forceps and scissors. A piece of sterile gauze with a hole cut in the center is placed over the incision, and one uterine horn is drawn out through the hole… |
| |
| CUY21 Illustrated Applications |
| A 2 cm midline incision is then made in the abdominal wall along the linea alba using a set of forceps and scissors. A piece of sterile gauze with a hole cut in the center is placed over the incision, and one uterine horn is drawn out through the hole… |
| |
| CUY21 Illustrated Applications |
| A 2 cm midline incision is then made in the abdominal wall along the linea alba using a set of forceps and scissors. A piece of sterile gauze with a hole cut in the center is placed over the incision, and one uterine horn is drawn out through the hole… |
| |
| CUY21 Illustrated Applications |
| A 2 cm midline incision is then made in the abdominal wall along the linea alba using a set of forceps and scissors. A piece of sterile gauze with a hole cut in the center is placed over the incision, and one uterine horn is drawn out through the hole… |
| |
| CUY21 Illustrated Applications |
| A 2 cm midline incision is then made in the abdominal wall along the linea alba using a set of forceps and scissors. A piece of sterile gauze with a hole cut in the center is placed over the incision, and one uterine horn is drawn out through the hole… |
| |
| CUY21 Illustrated Applications |
| A 2 cm midline incision is then made in the abdominal wall along the linea alba using a set of forceps and scissors. A piece of sterile gauze with a hole cut in the center is placed over the incision, and one uterine horn is drawn out through the hole… |
| |
| CUY21 Illustrated Applications |
| A 2 cm midline incision is then made in the abdominal wall along the linea alba using a set of forceps and scissors. A piece of sterile gauze with a hole cut in the center is placed over the incision, and one uterine horn is drawn out through the hole… |
| |
| CUY21 Illustrated Applications |
| A 2 cm midline incision is then made in the abdominal wall along the linea alba using a set of forceps and scissors. A piece of sterile gauze with a hole cut in the center is placed over the incision, and one uterine horn is drawn out through the hole… |
| |
| CUY21 Illustrated Applications |
| A 2 cm midline incision is then made in the abdominal wall along the linea alba using a set of forceps and scissors. A piece of sterile gauze with a hole cut in the center is placed over the incision, and one uterine horn is drawn out through the hole… |
| |
| CUY21 Illustrated Applications |
| A 2 cm midline incision is then made in the abdominal wall along the linea alba using a set of forceps and scissors. A piece of sterile gauze with a hole cut in the center is placed over the incision, and one uterine horn is drawn out through the hole… |
| |
| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The NEPA21 can do in one device what each of the EDIT and SC did individually, i.e., it combines BOTH the… |
| |
| NEPA21, CUY21SC and CUY21EDIT Multiple Applications and Electrode Recommendations |
| … |
| |
| NEPA21, CUY21SC and CUY21EDIT Multiple Applications and Electrode Recommendations |
| A 2 cm midline incision is then made in the abdominal wall along the linea alba using a set of forceps and scissors. A piece of sterile gauze with a hole cut in the center is placed over the incision, and one uterine horn is drawn out through the… |
| |
| Connector Cables for CUY21 Electroporator and Electrodes |
| If one uses the tweezers-type electrode with the ECM830 the C117 is not required. The C117 is used to hook a needle-type electrode such as the CUY611 series and the CUY613 series. Tweezers-type electrodes such as the CUY650 series have the required… |
| |
| Connector Cables for CUY21 Electroporator and Electrodes |
| If one uses the tweezers-type electrode with the ECM830 the C117 is not required. The C117 is used to hook a needle-type electrode such as the CUY611 series and the CUY613 series. Tweezers-type electrodes such as the CUY650 series have the required… |
| |
| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The NEPA21 can do in one device what each of the EDIT and SC did individually, i.e., it combines BOTH the… |
| |
| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The NEPA21 can do in one device what each of the EDIT and SC did individually, i.e., it combines BOTH the… |
| |
| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The NEPA21 can do in one device what each of the EDIT and SC did individually, i.e., it combines BOTH the… |
| |
| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The NEPA21 can do in one device what each of the EDIT and SC did individually, i.e., it combines BOTH the… |
| |
| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The NEPA21 can do in one device what each of the EDIT and SC did individually, i.e., it combines BOTH the… |
| |
| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The NEPA21 can do in one device what each of the EDIT and SC did individually, i.e., it combines BOTH the… |
| |
| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The NEPA21 can do in one device what each of the EDIT and SC did individually, i.e., it combines BOTH the… |
| |
| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The NEPA21 can do in one device what each of the EDIT and SC did individually, i.e., it combines BOTH the… |
| |
| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The NEPA21 can do in one device what each of the EDIT and SC did individually, i.e., it combines BOTH the… |
| |
| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The NEPA21 can do in one device what each of the EDIT and SC did individually, i.e., it combines BOTH the… |
| |
| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The NEPA21 can do in one device what each of the EDIT and SC did individually, i.e., it combines BOTH the… |
| |
| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The NEPA21 can do in one device what each of the EDIT and SC did individually, i.e., it combines BOTH the… |
| |
| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The NEPA21 can do in one device what each of the EDIT and SC did individually, i.e., it combines BOTH the… |
| |
| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The NEPA21 can do in one device what each of the EDIT and SC did individually, i.e., it combines BOTH the… |
| |
| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The NEPA21 can do in one device what each of the EDIT and SC did individually, i.e., it combines BOTH the… |
| |
| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The NEPA21 can do in one device what each of the EDIT and SC did individually, i.e., it combines BOTH the… |
| |
| CUY21 Illustrated Applications |
| A 2 cm midline incision is then made in the abdominal wall along the linea alba using a set of forceps and scissors. A piece of sterile gauze with a hole cut in the center is placed over the incision, and one uterine horn is drawn out through the hole… |
| |
| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The NEPA21 can do in one device what each of the EDIT and SC did individually, i.e., it combines BOTH the… |
| |
| NEPA21 / CUY21 Illustrated Applications |
| A 2 cm midline incision is then made in the abdominal wall along the linea alba using a set of forceps and scissors. A piece of sterile gauze with a hole cut in the center is placed over the incision, and one uterine horn is drawn out through the hole… |
| |
| NEPA21 / CUY21 Illustrated Applications |
| A 2 cm midline incision is then made in the abdominal wall along the linea alba using a set of forceps and scissors. A piece of sterile gauze with a hole cut in the center is placed over the incision, and one uterine horn is drawn out through the hole… |
| |
| NEPA21 / CUY21 Illustrated Applications |
| A 2 cm midline incision is then made in the abdominal wall along the linea alba using a set of forceps and scissors. A piece of sterile gauze with a hole cut in the center is placed over the incision, and one uterine horn is drawn out through the hole… |
| |
| [Plant Seed] Direct Gene Transfer into Mature Seeds via Electroporation |
| Fertile transgenic plants were regenerated and self-fertilized seeds were obtained in rice and wheat. Transgene integration was confirmed by Southern hybridization. Transmission of the transgene into the next generation (T1) was indicated by PCR analysis… |
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|
| … |
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| [Plant Seed] Direct Gene Transfer into Mature Seeds via Electroporation |
| Fertile transgenic plants were regenerated and self-fertilized seeds were obtained in rice and wheat. Transgene integration was confirmed by Southern hybridization. Transmission of the transgene into the next generation (T1) was indicated by PCR analysis… |
| |
| [Plant Seed] Direct Gene Transfer into Mature Seeds via Electroporation |
| Fertile transgenic plants were regenerated and self-fertilized seeds were obtained in rice and wheat. Transgene integration was confirmed by Southern hybridization. Transmission of the transgene into the next generation (T1) was indicated by PCR analysis… |
| |
| [Plant Seed] Direct Gene Transfer into Mature Seeds via Electroporation |
| … |
| |
| NEPA21 / CUY21 Illustrated Applications |
| A 2 cm midline incision is then made in the abdominal wall along the linea alba using a set of forceps and scissors. A piece of sterile gauze with a hole cut in the center is placed over the incision, and one uterine horn is drawn out through the hole… |
| |
| NEPA21 / CUY21 Illustrated Applications |
| A 2 cm midline incision is then made in the abdominal wall along the linea alba using a set of forceps and scissors. A piece of sterile gauze with a hole cut in the center is placed over the incision, and one uterine horn is drawn out through the hole… |
| |
| NEPA21 / CUY21 Illustrated Applications |
| A 2 cm midline incision is then made in the abdominal wall along the linea alba using a set of forceps and scissors. A piece of sterile gauze with a hole cut in the center is placed over the incision, and one uterine horn is drawn out through the hole… |
| |
| Connector Cables for CUY21 Electroporator and Electrodes |
| If one uses the tweezers-type electrode with the ECM830 the C117 is not required. The C117 is used to hook a needle-type electrode such as the CUY611 series and the CUY613 series. Tweezers-type electrodes such as the CUY650 series have the required… |
| |
| Connector Cables for NEPA21 / CUY21 Electroporator and Electrodes |
| If one uses the tweezers-type electrode with the ECM830 the C117 is not required. The C117 is used to hook a needle-type electrode such as the CUY611 series and the CUY613 series. Tweezers-type electrodes such as the CUY650 series have the required… |
| |
| Connector Cables for NEPA21 / CUY21 Electroporator and Electrodes |
| If one uses the tweezers-type electrode with the ECM830 the C117 is not required. The C117 is used to hook a needle-type electrode such as the CUY611 series and the CUY613 series. Tweezers-type electrodes such as the CUY650 series have the required… |
| |
| Connector Cables for NEPA21 / CUY21 Electroporator and Electrodes |
| If one uses the tweezers-type electrode with the ECM830 the C117 is not required. The C117 is used to hook a needle-type electrode such as the CUY611 series and the CUY613 series. Tweezers-type electrodes such as the CUY650 series have the required… |
| |
| Connector Cables for NEPA21 / CUY21 Electroporator and Electrodes |
| If one uses the tweezers-type electrode with the ECM830 the C117 is not required. The C117 is used to hook a needle-type electrode such as the CUY611 series and the CUY613 series. Tweezers-type electrodes such as the CUY650 series have the required… |
| |
| Connector Cables for NEPA21 / CUY21 Electroporator and Electrodes |
| If one uses the tweezers-type electrode with the ECM830 the C117 is not required. The C117 is used to hook a needle-type electrode such as the CUY611 series and the CUY613 series. Tweezers-type electrodes such as the CUY650 series have the required… |
| |
| Connector Cables for NEPA21 / CUY21 Electroporator and Electrodes |
| If one uses the tweezers-type electrode with the ECM830 the C117 is not required. The C117 is used to hook a needle-type electrode such as the CUY611 series and the CUY613 series. Tweezers-type electrodes such as the CUY650 series have the required… |
| |
| Connector Cables for NEPA21 / CUY21 Electroporator and Electrodes |
| If one uses the tweezers-type electrode with the ECM830 the C117 is not required. The C117 is used to hook a needle-type electrode such as the CUY611 series and the CUY613 series. Tweezers-type electrodes such as the CUY650 series have the required… |
| |
| NEPA21_In_Vivo_Tumor_EP |
| … |
| |
| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The NEPA21 can do in one device what each of the EDIT and SC did individually, i.e., it combines BOTH the… |
| |
| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The NEPA21 can do in one device what each of the EDIT and SC did individually, i.e., it combines BOTH the… |
| |
| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The NEPA21 can do in one device what each of the EDIT and SC did individually, i.e., it combines BOTH the… |
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| CUY21 Publications by Research Interest |
| … |
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| NEPA21 / CUY21 Publications by Research Interest |
| … |
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| Electroporation Protocols - In Vitro, In Ovo, In Utero, In Vivo, Ex Vivo and New Culture |
| … |
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| Adherent Cells |
| … |
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| Connector Cables for NEPA21 / CUY21 Electroporator and Electrodes |
| If one uses the tweezers-type electrode with the ECM830 the C117 is not required. The C117 is used to hook a needle-type electrode such as the CUY611 series and the CUY613 series. Tweezers-type electrodes such as the CUY650 series have the required… |
| |
| Connector Cables for NEPA21 / CUY21 Electroporator and Electrodes |
| If one uses the tweezers-type electrode with the ECM830 the C117 is not required. The C117 is used to hook a needle-type electrode such as the CUY611 series and the CUY613 series. Tweezers-type electrodes such as the CUY650 series have the required… |
| |
| Connector Cables for NEPA21 / CUY21 Electroporator and Electrodes |
| If one uses the tweezers-type electrode with the ECM830 the C117 is not required. The C117 is used to hook a needle-type electrode such as the CUY611 series and the CUY613 series. Tweezers-type electrodes such as the CUY650 series have the required… |
| |
| Connector Cables for NEPA21 / CUY21 Electroporator and Electrodes |
| If one uses the tweezers-type electrode with the ECM830 the C117 is not required. The C117 is used to hook a needle-type electrode such as the CUY611 series and the CUY613 series. Tweezers-type electrodes such as the CUY650 series have the required… |
| |
| Connector Cables for NEPA21 / CUY21 Electroporator and Electrodes |
| If one uses the tweezers-type electrode with the ECM830 the C117 is not required. The C117 is used to hook a needle-type electrode such as the CUY611 series and the CUY613 series. Tweezers-type electrodes such as the CUY650 series have the required… |
| |
| ShortsinSum27 |
| … |
| |
| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The NEPA21 can do in one device what each of the EDIT and SC did individually, i.e., it combines BOTH the… |
| |
| CU700 and CU710 Electroporation and Cell Fusion Monitoring Systems |
| … |
| |
| CU700 and CU710 Electroporation and Cell Fusion Monitoring Systems |
| … |
| |
| CU700 and CU710 Electroporation and Cell Fusion Monitoring Systems |
| … |
| |
| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The NEPA21 can do in one device what each of the EDIT and SC did individually, i.e., it combines BOTH the… |
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| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The NEPA21 can do in one device what each of the EDIT and SC did individually, i.e., it combines BOTH the… |
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| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The NEPA21 can do in one device what each of the EDIT and SC did individually, i.e., it combines BOTH the… |
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| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The NEPA21 can do in one device what each of the EDIT and SC did individually, i.e., it combines BOTH the… |
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| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The NEPA21 can do in one device what each of the EDIT and SC did individually, i.e., it combines BOTH the… |
| |
| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The NEPA21 can do in one device what each of the EDIT and SC did individually, i.e., it combines BOTH the… |
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| ShortsinSum27! |
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| Application Support Page - NEPA21 |
| The NEPA21 has been used in dozens of published applications. There are a few important details to manage for this system, so we encourage you to thoroughly review the topics on this page as they relate to your lab’s experiments. If you have any questions… |
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| Application Support Page - NEPA21 |
| The NEPA21 has been used in dozens of published applications. There are a few important details to manage for this system, so we encourage you to thoroughly review the topics on this page as they relate to your lab’s experiments. If you have any questions… |
| |
| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The NEPA21 can do in one device what each of the EDIT and SC did individually, i.e., it combines BOTH the… |
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| <td bgcolor="#ffcc33" align="center" bordercolor="#ffffff"><font size="1"><strong><a href="http://www.sonidel.com/sonidel/electroporation/nepa-electroporation-cuvettes/">Cuvette Electroporation</a></strong></font… |
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| Novel 2-Step Pulse Regime Electroporation System for In Vivo and In Vitro Applicaitons - including cells in adherence and cells in suspension |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The major innovations in the NEPA21system are its novel 2-Step Pulse regime and polarity exchange capability… |
| |
| Novel 2-Step Pulse Regime Electroporation System for In Vivo and In Vitro Applicaitons (including cells in adherence and cells in suspension |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The innovation in the NEPA21system is its novel 2-Step Pulse regime and polarity exchange capability… |
| |
| Novel 2-Step Pulse Regime Electroporation System for In Vivo and In Vitro Applicaitons - including cells in adherence and cells in suspension |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The major innovations in the NEPA21system are its novel 2-Step Pulse regime and polarity exchange capability… |
| |
| Novel 2-Step Pulse Regime Electroporation System for In Vivo and In Vitro Applicaitons - including cells in adherence and cells in suspension |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The innovation in the NEPA21system is its novel 2-Step Pulse regime and polarity exchange capability… |
| |
| Novel 2-Step Pulse Regime Electroporation System for In Vivo and In Vitro Applicaitons - including cells in adherence and cells in suspension |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The innovation in the NEPA21system is its novel 2-Step Pulse regime and polarity exchange capability… |
| |
| Novel 2-Step Pulse Regime Electroporation System for In Vivo and In Vitro Applicaitons - including cells in adherence and cells in suspension |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The innovation in the NEPA21system is its novel 2-Step Pulse regime and polarity exchange capability… |
| |
| Novel 2-Step Pulse Regime Electroporation System for In Vivo and In Vitro Applicaitons - including cells in adherence and cells in suspension |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The innovation in the NEPA21system is its novel 2-Step Pulse regime and polarity exchange capability… |
| |
| Novel 2-Step Pulse Regime Electroporation System for In Vivo and In Vitro Applicaitons - including cells in adherence and cells in suspension |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The innovation in the NEPA21system is its novel 2-Step Pulse regime and polarity exchange capability… |
| |
| Novel 2-Step Pulse Regime Electroporation System for In Vivo and In Vitro Applicaitons - including cells in adherence and cells in suspension |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The innovation in the NEPA21system is its novel 2-Step Pulse regime and polarity exchange capability… |
| |
| Novel 2-Step Pulse Regime Electroporation System for In Vivo and In Vitro Applicaitons - including cells in adherence and cells in suspension |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The innovation in the NEPA21system is its novel 2-Step Pulse regime and polarity exchange capability… |
| |
| Novel 2-Step Pulse Regime Electroporation System for In Vivo and In Vitro Applicaitons - including cells in adherence and cells in suspension |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The innovation in the NEPA21system is its novel 2-Step Pulse regime and polarity exchange capability… |
| |
| Novel 2-Step Pulse Regime Electroporation System for In Vivo and In Vitro Applicaitons - including cells in adherence and cells in suspension |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The innovation in the NEPA21system is its novel 2-Step Pulse regime and polarity exchange capability… |
| |
| Novel 2-Step Pulse Regime Electroporation System for In Vivo and In Vitro Applicaitons - including cells in adherence and cells in suspension |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The innovation in the NEPA21system is its novel 2-Step Pulse regime and polarity exchange capability… |
| |
| Novel 2-Step Pulse Regime Electroporation System for In Vivo and In Vitro Applicaitons - including cells in adherence and cells in suspension |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The innovation in the NEPA21system is its novel 2-Step Pulse regime and polarity exchange capability… |
| |
| Novel 2-Step Pulse Regime Electroporation System for In Vivo and In Vitro Applicaitons - including cells in adherence and cells in suspension |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The major innovations in the NEPA21system are its novel 2-Step Pulse regime and polarity exchange capability… |
| |
| Novel 2-Step Pulse Regime Electroporation System for In Vivo and In Vitro Applicaitons - including cells in adherence and cells in suspension |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The major innovations in the NEPA21system are its novel 2-Step Pulse regime and polarity exchange capability… |
| |
| Novel 2-Step Pulse Regime Electroporation System for In Vivo and In Vitro Applicaitons - including cells in adherence and cells in suspension |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The major innovations in the NEPA21system are its novel 2-Step Pulse regime and polarity exchange capability… |
| |
| Novel 2-Step Pulse Regime Electroporation System for In Vivo and In Vitro Applicaitons - including cells in adherence and cells in suspension |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The major innovations in the NEPA21system are its novel 2-Step Pulse regime and polarity exchange capability… |
| |
| Novel 2-Step Pulse Regime Electroporation System for In Vivo and In Vitro Applicaitons - including cells in adherence and cells in suspension |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The major innovations in the NEPA21system are its novel 2-Step Pulse regime and polarity exchange capability… |
| |
| Novel 2-Step Pulse Regime Electroporation System for In Vivo and In Vitro Applicaitons - including cells in adherence and cells in suspension |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The major innovations in the NEPA21system are its novel 2-Step Pulse regime and polarity exchange capability… |
| |
| Novel 2-Step Pulse Regime Electroporation System for In Vivo and In Vitro Applicaitons - including cells in adherence and cells in suspension |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The major innovations in the NEPA21system are its novel 2-Step Pulse regime and polarity exchange capability… |
| |
| Novel 2-Step Pulse Regime Electroporation System for In Vivo and In Vitro Applicaitons - including cells in adherence and cells in suspension |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The major innovations in the NEPA21system are its novel 2-Step Pulse regime and polarity exchange capability… |
| |
| Novel 2-Step Pulse Regime Electroporation System for In Vivo and In Vitro Applicaitons - including cells in adherence and cells in suspension |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The major innovations in the NEPA21system are its novel 2-Step Pulse regime and polarity exchange capability… |
| |
| Novel 2-Step Pulse Regime Electroporation System for In Vivo and In Vitro Applicaitons - including cells in adherence and cells in suspension |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The major innovations in the NEPA21system are its novel 2-Step Pulse regime and polarity exchange capability… |
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| ShortsinSum27 |
| … |
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| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The NEPA21 can do in one device what each of the EDIT and SC did individually, i.e., it combines BOTH the… |
| |
| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The NEPA21 can do in one device what each of the EDIT and SC did individually, i.e., it combines BOTH the… |
| |
| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The NEPA21 can do in one device what each of the EDIT and SC did individually, i.e., it combines BOTH the… |
| |
| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The NEPA21 can do in one device what each of the EDIT and SC did individually, i.e., it combines BOTH the… |
| |
| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The NEPA21 can do in one device what each of the EDIT and SC did individually, i.e., it combines BOTH the… |
| |
| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The NEPA21 can do in one device what each of the EDIT and SC did individually, i.e., it combines BOTH the… |
| |
| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The NEPA21 can do in one device what each of the EDIT and SC did individually, i.e., it combines BOTH the… |
| |
| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The NEPA21 can do in one device what each of the EDIT and SC did individually, i.e., it combines BOTH the… |
| |
| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The NEPA21 can do in one device what each of the EDIT and SC did individually, i.e., it combines BOTH the… |
| |
| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The NEPA21 can do in one device what each of the EDIT and SC did individually, i.e., it combines BOTH the… |
| |
| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The NEPA21 can do in one device what each of the EDIT and SC did individually, i.e., it combines BOTH the… |
| |
| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The NEPA21 can do in one device what each of the EDIT and SC did individually, i.e., it combines BOTH the… |
| |
| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The NEPA21 can do in one device what each of the EDIT and SC did individually, i.e., it combines BOTH the… |
| |
| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The NEPA21 can do in one device what each of the EDIT and SC did individually, i.e., it combines BOTH the… |
| |
| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The NEPA21 can do in one device what each of the EDIT and SC did individually, i.e., it combines BOTH the… |
| |
| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The NEPA21 can do in one device what each of the EDIT and SC did individually, i.e., it combines BOTH the… |
| |
| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The NEPA21 can do in one device what each of the EDIT and SC did individually, i.e., it combines BOTH the… |
| |
| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The NEPA21 can do in one device what each of the EDIT and SC did individually, i.e., it combines BOTH the… |
| |
| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The NEPA21 can do in one device what each of the EDIT and SC did individually, i.e., it combines BOTH the… |
| |
| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The NEPA21 can do in one device what each of the EDIT and SC did individually, i.e., it combines BOTH the… |
| |
| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The NEPA21 can do in one device what each of the EDIT and SC did individually, i.e., it combines BOTH the… |
| |
| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The NEPA21 can do in one device what each of the EDIT and SC did individually, i.e., it combines BOTH the… |
| |
| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The NEPA21 can do in one device what each of the EDIT and SC did individually, i.e., it combines BOTH the… |
| |
| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The NEPA21 can do in one device what each of the EDIT and SC did individually, i.e., it combines BOTH the… |
| |
| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The NEPA21 can do in one device what each of the EDIT and SC did individually, i.e., it combines BOTH the… |
| |
| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The NEPA21 can do in one device what each of the EDIT and SC did individually, i.e., it combines BOTH the… |
| |
| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The NEPA21 can do in one device what each of the EDIT and SC did individually, i.e., it combines BOTH the… |
| |
| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The NEPA21 can do in one device what each of the EDIT and SC did individually, i.e., it combines BOTH the… |
| |
| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The NEPA21 can do in one device what each of the EDIT and SC did individually, i.e., it combines BOTH the… |
| |
| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The NEPA21 can do in one device what each of the EDIT and SC did individually, i.e., it combines BOTH the… |
| |
| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The NEPA21 can do in one device what each of the EDIT and SC did individually, i.e., it combines BOTH the… |
| |
| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The NEPA21 can do in one device what each of the EDIT and SC did individually, i.e., it combines BOTH the… |
| |
| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The NEPA21 can do in one device what each of the EDIT and SC did individually, i.e., it combines BOTH the… |
| |
| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The NEPA21 can do in one device what each of the EDIT and SC did individually, i.e., it combines BOTH the… |
| |
| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The NEPA21 can do in one device what each of the EDIT and SC did individually, i.e., it combines BOTH the… |
| |
| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The NEPA21 can do in one device what each of the EDIT and SC did individually, i.e., it combines BOTH the… |
| |
| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The NEPA21 can do in one device what each of the EDIT and SC did individually, i.e., it combines BOTH the… |
| |
| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The NEPA21 can do in one device what each of the EDIT and SC did individually, i.e., it combines BOTH the… |
| |
| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The NEPA21 can do in one device what each of the EDIT and SC did individually, i.e., it combines BOTH the… |
| |
| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The NEPA21 can do in one device what each of the EDIT and SC did individually, i.e., it combines BOTH the… |
| |
| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The NEPA21 can do in one device what each of the EDIT and SC did individually, i.e., it combines BOTH the… |
| |
| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The NEPA21 can do in one device what each of the EDIT and SC did individually, i.e., it combines BOTH the… |
| |
| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The NEPA21 can do in one device what each of the EDIT and SC did individually, i.e., it combines BOTH the… |
| |
| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The NEPA21 can do in one device what each of the EDIT and SC did individually, i.e., it combines BOTH the… |
| |
| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The NEPA21 can do in one device what each of the EDIT and SC did individually, i.e., it combines BOTH the… |
| |
| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The NEPA21 can do in one device what each of the EDIT and SC did individually, i.e., it combines BOTH the… |
| |
| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The NEPA21 can do in one device what each of the EDIT and SC did individually, i.e., it combines BOTH the… |
| |
| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The NEPA21 can do in one device what each of the EDIT and SC did individually, i.e., it combines BOTH the… |
| |
| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The NEPA21 can do in one device what each of the EDIT and SC did individually, i.e., it combines BOTH the… |
| |
| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The NEPA21 can do in one device what each of the EDIT and SC did individually, i.e., it combines BOTH the… |
| |
| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The NEPA21 can do in one device what each of the EDIT and SC did individually, i.e., it combines BOTH the… |
| |
| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The NEPA21 can do in one device what each of the EDIT and SC did individually, i.e., it combines BOTH the… |
| |
| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The NEPA21 can do in one device what each of the EDIT and SC did individually, i.e., it combines BOTH the… |
| |
| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The NEPA21 can do in one device what each of the EDIT and SC did individually, i.e., it combines BOTH the… |
| |
| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The NEPA21 can do in one device what each of the EDIT and SC did individually, i.e., it combines BOTH the… |
| |
| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The NEPA21 can do in one device what each of the EDIT and SC did individually, i.e., it combines BOTH the… |
| |
| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The NEPA21 can do in one device what each of the EDIT and SC did individually, i.e., it combines BOTH the… |
| |
| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The NEPA21 can do in one device what each of the EDIT and SC did individually, i.e., it combines BOTH the… |
| |
| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The NEPA21 can do in one device what each of the EDIT and SC did individually, i.e., it combines BOTH the… |
| |
| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The NEPA21 can do in one device what each of the EDIT and SC did individually, i.e., it combines BOTH the… |
| |
| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The NEPA21 can do in one device what each of the EDIT and SC did individually, i.e., it combines BOTH the… |
| |
| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The NEPA21 can do in one device what each of the EDIT and SC did individually, i.e., it combines BOTH the… |
| |
| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The NEPA21 can do in one device what each of the EDIT and SC did individually, i.e., it combines BOTH the… |
| |
| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The NEPA21 can do in one device what each of the EDIT and SC did individually, i.e., it combines BOTH the… |
| |
| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The NEPA21 can do in one device what each of the EDIT and SC did individually, i.e., it combines BOTH the… |
| |
| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The NEPA21 can do in one device what each of the EDIT and SC did individually, i.e., it combines BOTH the… |
| |
| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The NEPA21 can do in one device what each of the EDIT and SC did individually, i.e., it combines BOTH the… |
| |
| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The NEPA21 can do in one device what each of the EDIT and SC did individually, i.e., it combines BOTH the… |
| |
| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The NEPA21 can do in one device what each of the EDIT and SC did individually, i.e., it combines BOTH the… |
| |
| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The NEPA21 can do in one device what each of the EDIT and SC did individually, i.e., it combines BOTH the… |
| |
| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The NEPA21 can do in one device what each of the EDIT and SC did individually, i.e., it combines BOTH the… |
| |
| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The NEPA21 can do in one device what each of the EDIT and SC did individually, i.e., it combines BOTH the… |
| |
| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The NEPA21 can do in one device what each of the EDIT and SC did individually, i.e., it combines BOTH the… |
| |
| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The NEPA21 can do in one device what each of the EDIT and SC did individually, i.e., it combines BOTH the… |
| |
| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The NEPA21 can do in one device what each of the EDIT and SC did individually, i.e., it combines BOTH the… |
| |
| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The NEPA21 can do in one device what each of the EDIT and SC did individually, i.e., it combines BOTH the… |
| |
| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The NEPA21 can do in one device what each of the EDIT and SC did individually, i.e., it combines BOTH the… |
| |
| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The NEPA21 can do in one device what each of the EDIT and SC did individually, i.e., it combines BOTH the… |
| |
| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The NEPA21 can do in one device what each of the EDIT and SC did individually, i.e., it combines BOTH the… |
| |
| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The NEPA21 can do in one device what each of the EDIT and SC did individually, i.e., it combines BOTH the… |
| |
| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The NEPA21 can do in one device what each of the EDIT and SC did individually, i.e., it combines BOTH the… |
| |
| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The NEPA21 can do in one device what each of the EDIT and SC did individually, i.e., it combines BOTH the… |
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| Newsletter_2013-05 |
| … |
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| Newsletter_2013-05- |
| … |
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| NEPA21_v_CUY21EDIT_CUY21SC_Amaxa_BTXECM830 |
| -          You will clearly see the following major differences depicted on the graphical illustration of the delivered electrical energy. These differences each individually have a marked impact on the quality and results of your experiments… |
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| Newsletter_2013-05 |
| … |
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| Newsletter_2013-05 |
| … |
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| Newsletter_2013-05 |
| … |
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| NEPA21_v_CUY21EDIT_CUY21SC |
| -          You will clearly see the following major differences depicted on the graphical illustration of the delivered electrical energy. These differences each individually have a marked impact on the quality and results of your experiments… |
| |
| NEPA21_v_CUY21EDIT_CUY21SC_Amaxa_BTXECM830 |
| -          You will clearly see the following major differences depicted on the graphical illustration of the delivered electrical energy. These differences each individually have a marked impact on the quality and results of your experiments… |
| |
| NEPA21_v_CUY21EDIT_CUY21SC_Amaxa_BTXECM830 |
| -          You will clearly see the following major differences depicted on the graphical illustration of the delivered electrical energy. These differences each individually have a marked impact on the quality and results of your experiments… |
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| In Ovo Electroporation |
| Some clients, however, who have to contend with a large number of samples on a daily basis find it difficult to manipulate a pair of electrodes vertically. Such clients prefer to move the pair of electrodes horizontally. The CUY613 series was designed… |
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| Chick and Quail Embryo (in ovo) - Neural Tube, Mesencephalon, Diencephalon (HH* Stage 10 |
| Please also note the following links and attached articles for further information on the NEPA21’s In Ovo capacity. (Please note where a reference is made in the resource material to the CUY21 systems (EDIT or SC), the NEPA21 replaces them and can… |
| |
| Chick and Quail Embryo (in ovo) - Neural Tube, Mesencephalon, Diencephalon (HH* Stage 10 |
| Please also note the following links and attached articles for further information on the NEPA21’s In Ovo capacity. (Please note where a reference is made in the resource material to the CUY21 systems (EDIT or SC), the NEPA21 replaces them and can… |
| |
| Chicken and Quail Embryo (In Ovo) - Neural Tube, Mesencephalon, Diencephalon (HH* Stage 10) |
| Please also note the following links and attached articles for further information on the NEPA21’s In Ovo capacity. (Please note where a reference is made in the resource material to the CUY21 systems (EDIT or SC), the NEPA21 replaces them and can… |
| |
| Mouse/Rat – Muscle |
| The first method involves injecting a pair of needle electrodes CUY560-5/-10 into the muscle above skin. Since no surgery is involved, the researcher can easily perform electroporation and do so consecutively in a short period of time. In our opinion… |
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| Direct Gene Transfer into Mature Seeds via Electroporation |
| Fertile transgenic plants were regenerated and self-fertilized seeds were obtained in rice and wheat. Transgene integration was confirmed by Southern hybridization. Transmission of the transgene into the next generation (T1) was indicated by PCR analysis… |
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| [Plant Seed] Direct Gene Transfer into Mature Seeds via Electroporation |
| Fertile transgenic plants were regenerated and self-fertilized seeds were obtained in rice and wheat. Transgene integration was confirmed by Southern hybridization. Transmission of the transgene into the next generation (T1) was indicated by PCR analysis… |
| |
| Vacuum & Electrical Pulse Method for Plant Seed Electroporation |
| Fertile transgenic plants were regenerated and self-fertilized seeds were obtained in rice and wheat. Transgene integration was confirmed by Southern hybridization. Transmission of the transgene into the next generation (T1) was indicated by PCR analysis… |
| |
| Vacuum & Electrical Pulse Method for Plant Seed Electroporation |
| Fertile transgenic plants were regenerated and self-fertilized seeds were obtained in rice and wheat. Transgene integration was confirmed by Southern hybridization. Transmission of the transgene into the next generation (T1) was indicated by PCR analysis… |
| |
| Vacuum & Electrical Pulse Method for Plant Seed Electroporation |
| Fertile transgenic plants were regenerated and self-fertilized seeds were obtained in rice and wheat. Transgene integration was confirmed by Southern hybridization. Transmission of the transgene into the next generation (T1) was indicated by PCR analysis… |
| |
| Vacuum & Electrical Pulse Method for Plant Seed Electroporation |
| Fertile transgenic plants were regenerated and self-fertilized seeds were obtained in rice and wheat. Transgene integration was confirmed by Southern hybridization. Transmission of the transgene into the next generation (T1) was indicated by PCR analysis… |
| |
| Vacuum & Electrical Pulse Method for Plant Seed Electroporation |
| Fertile transgenic plants were regenerated and self-fertilized seeds were obtained in rice and wheat. Transgene integration was confirmed by Southern hybridization. Transmission of the transgene into the next generation (T1) was indicated by PCR analysis… |
| |
| Vacuum & Electrical Pulse Method for Plant Seed Electroporation |
| Fertile transgenic plants were regenerated and self-fertilized seeds were obtained in rice and wheat. Transgene integration was confirmed by Southern hybridization. Transmission of the transgene into the next generation (T1) was indicated by PCR analysis… |
| |
| Vacuum & Electrical Pulse Method for Plant Seed Electroporation |
| Fertile transgenic plants were regenerated and self-fertilized seeds were obtained in rice and wheat. Transgene integration was confirmed by Southern hybridization. Transmission of the transgene into the next generation (T1) was indicated by PCR analysis… |
| |
| Vacuum & Electrical Pulse Method for Plant Seed Electroporation |
| Fertile transgenic plants were regenerated and self-fertilized seeds were obtained in rice and wheat. Transgene integration was confirmed by Southern hybridization. Transmission of the transgene into the next generation (T1) was indicated by PCR analysis… |
| |
| Vacuum & Electrical Pulse Method for Plant Seed Electroporation |
| Fertile transgenic plants were regenerated and self-fertilized seeds were obtained in rice and wheat. Transgene integration was confirmed by Southern hybridization. Transmission of the transgene into the next generation (T1) was indicated by PCR analysis… |
| |
| Vacuum & Electrical Pulse Method for Plant Seed Electroporation |
| Fertile transgenic plants were regenerated and self-fertilized seeds were obtained in rice and wheat. Transgene integration was confirmed by Southern hybridization. Transmission of the transgene into the next generation (T1) was indicated by PCR analysis… |
| |
| Vacuum & Electrical Pulse Method for Plant Seed Electroporation |
| Fertile transgenic plants were regenerated and self-fertilized seeds were obtained in rice and wheat. Transgene integration was confirmed by Southern hybridization. Transmission of the transgene into the next generation (T1) was indicated by PCR analysis… |
| |
| Vacuum & Electrical Pulse Method for Plant Seed Electroporation |
| Fertile transgenic plants were regenerated and self-fertilized seeds were obtained in rice and wheat. Transgene integration was confirmed by Southern hybridization. Transmission of the transgene into the next generation (T1) was indicated by PCR analysis… |
| |
| Vacuum & Electrical Pulse Method for Plant Seed Electroporation |
| Fertile transgenic plants were regenerated and self-fertilized seeds were obtained in rice and wheat. Transgene integration was confirmed by Southern hybridization. Transmission of the transgene into the next generation (T1) was indicated by PCR analysis… |
| |
| Vacuum & Electrical Pulse Method for Plant Seed Electroporation |
| Fertile transgenic plants were regenerated and self-fertilized seeds were obtained in rice and wheat. Transgene integration was confirmed by Southern hybridization. Transmission of the transgene into the next generation (T1) was indicated by PCR analysis… |
| |
| Vacuum & Electrical Pulse Method for Plant Seed Electroporation |
| Fertile transgenic plants were regenerated and self-fertilized seeds were obtained in rice and wheat. Transgene integration was confirmed by Southern hybridization. Transmission of the transgene into the next generation (T1) was indicated by PCR analysis… |
| |
| Vacuum & Electrical Pulse Method for Plant Seed Electroporation |
| Fertile transgenic plants were regenerated and self-fertilized seeds were obtained in rice and wheat. Transgene integration was confirmed by Southern hybridization. Transmission of the transgene into the next generation (T1) was indicated by PCR analysis… |
| |
| Vacuum & Electrical Pulse Method for Plant Seed Electroporation |
| Fertile transgenic plants were regenerated and self-fertilized seeds were obtained in rice and wheat. Transgene integration was confirmed by Southern hybridization. Transmission of the transgene into the next generation (T1) was indicated by PCR analysis… |
| |
| Vacuum & Electrical Pulse Method for Plant Seed Electroporation |
| Fertile transgenic plants were regenerated and self-fertilized seeds were obtained in rice and wheat. Transgene integration was confirmed by Southern hybridization. Transmission of the transgene into the next generation (T1) was indicated by PCR analysis… |
| |
| Vacuum & Electrical Pulse Method for Plant Seed Electroporation |
| Fertile transgenic plants were regenerated and self-fertilized seeds were obtained in rice and wheat. Transgene integration was confirmed by Southern hybridization. Transmission of the transgene into the next generation (T1) was indicated by PCR analysis… |
| |
| Vacuum & Electrical Pulse Method for Plant Seed Electroporation |
| Fertile transgenic plants were regenerated and self-fertilized seeds were obtained in rice and wheat. Transgene integration was confirmed by Southern hybridization. Transmission of the transgene into the next generation (T1) was indicated by PCR analysis… |
| |
| Vacuum & Electrical Pulse Method for Plant Seed Electroporation |
| Fertile transgenic plants were regenerated and self-fertilized seeds were obtained in rice and wheat. Transgene integration was confirmed by Southern hybridization. Transmission of the transgene into the next generation (T1) was indicated by PCR analysis… |
| |
| Vacuum & Electrical Pulse Method for Plant Seed Electroporation |
| Fertile transgenic plants were regenerated and self-fertilized seeds were obtained in rice and wheat. Transgene integration was confirmed by Southern hybridization. Transmission of the transgene into the next generation (T1) was indicated by PCR analysis… |
| |
| Vacuum & Electrical Pulse Method for Plant Seed Electroporation |
| Fertile transgenic plants were regenerated and self-fertilized seeds were obtained in rice and wheat. Transgene integration was confirmed by Southern hybridization. Transmission of the transgene into the next generation (T1) was indicated by PCR analysis… |
| |
| Vacuum & Electrical Pulse Method for Plant Seed Electroporation |
| Fertile transgenic plants were regenerated and self-fertilized seeds were obtained in rice and wheat. Transgene integration was confirmed by Southern hybridization. Transmission of the transgene into the next generation (T1) was indicated by PCR analysis… |
| |
| Vacuum & Electrical Pulse Method for Plant Seed Electroporation |
| Fertile transgenic plants were regenerated and self-fertilized seeds were obtained in rice and wheat. Transgene integration was confirmed by Southern hybridization. Transmission of the transgene into the next generation (T1) was indicated by PCR analysis… |
| |
| Vacuum & Electrical Pulse Method for Plant Seed Electroporation |
| Fertile transgenic plants were regenerated and self-fertilized seeds were obtained in rice and wheat. Transgene integration was confirmed by Southern hybridization. Transmission of the transgene into the next generation (T1) was indicated by PCR analysis… |
| |
| Plant Protoplast Fusion by Electro-Cell-Fusion and by Electroporation |
| Unlike the NEPA21/CUY21EDIT electroporators, the LF101, LF201 and ECFG21 do not have an automatic safety cut-off switch. (Unlike in in vivo electroporation, the researcher does not need to hold the electrodes in cell fusion). Compared with that of NEPA21… |
| |
| Vacuum & Electrical Pulse Method for Plant Seed Electroporation |
| Fertile transgenic plants were regenerated and self-fertilized seeds were obtained in rice and wheat. Transgene integration was confirmed by Southern hybridization. Transmission of the transgene into the next generation (T1) was indicated by PCR analysis… |
| |
| Plant Protoplast Fusion by Electro-Cell-Fusion and by Electroporation |
| Plant Protoplast Fusion may be performed by Electro Cell Fusion using  our ECFG21 device (which has replaced the LF101 and LF201 devices). Kindly note the PDF titled: ‘Plant Protoplast Fusion by Electro Cell Fusion’ (Cell Type: General Plant Protoplast… |
| |
| Plant Protoplast Fusion by Electro-Cell-Fusion and by Electroporation |
| Unlike the NEPA21/CUY21EDIT electroporators, the LF101, LF201 and ECFG21 do not have an automatic safety cut-off switch. (Unlike in in vivo electroporation, the researcher does not need to hold the electrodes in cell fusion). Compared with that of NEPA21… |
| |
| Plant Protoplast Fusion by Electro-Cell-Fusion and by Electroporation |
| Unlike the NEPA21/CUY21EDIT electroporators, the LF101, LF201 and ECFG21 do not have an automatic safety cut-off switch. (Unlike in in vivo electroporation, the researcher does not need to hold the electrodes in cell fusion). Compared with that of NEPA21… |
| |
| Plant Protoplast Fusion by Electro-Cell-Fusion and by Electroporation |
| Plant Protoplast Fusion may be performed by Electro Cell Fusion using  our ECFG21 device (which has replaced the LF101 and LF201 devices). Kindly note the PDF titled: ‘Plant Protoplast Fusion by Electro Cell Fusion’ (Cell Type: General Plant Protoplast… |
| |
| Plant Protoplast Fusion by Electro-Cell-Fusion and by Electroporation |
| Unlike the NEPA21/CUY21EDIT electroporators, the LF101, LF201 and ECFG21 do not have an automatic safety cut-off switch. (Unlike in in vivo electroporation, the researcher does not need to hold the electrodes in cell fusion). Compared with that of NEPA21… |
| |
| Plant Protoplast Fusion by Electro-Cell-Fusion and by Electroporation |
| Unlike the NEPA21/CUY21EDIT electroporators, the LF101, LF201 and ECFG21 do not have an automatic safety cut-off switch. (Unlike in in vivo electroporation, the researcher does not need to hold the electrodes in cell fusion). Compared with that of NEPA21… |
| |
| Plant Protoplast Fusion by Electro-Cell-Fusion and by Electroporation |
| Unlike the NEPA21/CUY21EDIT electroporators, the LF101, LF201 and ECFG21 do not have an automatic safety cut-off switch. (Unlike in in vivo electroporation, the researcher does not need to hold the electrodes in cell fusion). Compared with that of NEPA21… |
| |
| Plant Protoplast Fusion by Electro-Cell-Fusion and by Electroporation |
| Unlike the NEPA21/CUY21EDIT electroporators, the LF101, LF201 and ECFG21 do not have an automatic safety cut-off switch. (Unlike in in vivo electroporation, the researcher does not need to hold the electrodes in cell fusion). Compared with that of NEPA21… |
| |
| Plant Protoplast Fusion by Electro-Cell-Fusion and by Electroporation |
| Unlike the NEPA21/CUY21EDIT electroporators, the LF101, LF201 and ECFG21 do not have an automatic safety cut-off switch. (Unlike in in vivo electroporation, the researcher does not need to hold the electrodes in cell fusion). Compared with that of NEPA21… |
| |
| Plant Protoplast Fusion by Electro-Cell-Fusion and by Electroporation |
| Unlike the NEPA21/CUY21EDIT electroporators, the LF101, LF201 and ECFG21 do not have an automatic safety cut-off switch. (Unlike in in vivo electroporation, the researcher does not need to hold the electrodes in cell fusion). Compared with that of NEPA21… |
| |
| Plant Protoplast Fusion by Electro-Cell-Fusion and by Electroporation |
| Unlike the NEPA21/CUY21EDIT electroporators, the LF101, LF201 and ECFG21 do not have an automatic safety cut-off switch. (Unlike in in vivo electroporation, the researcher does not need to hold the electrodes in cell fusion). Compared with that of NEPA21… |
| |
| Plant Protoplast Fusion by Electro-Cell-Fusion and by Electroporation |
| Unlike the NEPA21/CUY21EDIT electroporators, the LF101, LF201 and ECFG21 do not have an automatic safety cut-off switch. (Unlike in in vivo electroporation, the researcher does not need to hold the electrodes in cell fusion). Compared with that of NEPA21… |
| |
| Plant Protoplast Fusion by Electro-Cell-Fusion and by Electroporation |
| Unlike the NEPA21/CUY21EDIT electroporators, the LF101, LF201 and ECFG21 do not have an automatic safety cut-off switch. (Unlike in in vivo electroporation, the researcher does not need to hold the electrodes in cell fusion). Compared with that of NEPA21… |
| |
| Plant Protoplast Fusion by Electro-Cell-Fusion and by Electroporation |
| Unlike the NEPA21/CUY21EDIT electroporators, the LF101, LF201 and ECFG21 do not have an automatic safety cut-off switch. (Unlike in in vivo electroporation, the researcher does not need to hold the electrodes in cell fusion). Compared with that of NEPA21… |
| |
| Plant Protoplast Fusion by Electro-Cell-Fusion and by Electroporation |
| Unlike the NEPA21/CUY21EDIT electroporators, the LF101, LF201 and ECFG21 do not have an automatic safety cut-off switch. (Unlike in in vivo electroporation, the researcher does not need to hold the electrodes in cell fusion). Compared with that of NEPA21… |
| |
| Plant Protoplast Fusion by Electro-Cell-Fusion and by Electroporation |
| Unlike the NEPA21/CUY21EDIT electroporators, the LF101, LF201 and ECFG21 do not have an automatic safety cut-off switch. (Unlike in in vivo electroporation, the researcher does not need to hold the electrodes in cell fusion). Compared with that of NEPA21… |
| |
| Plant Protoplast Fusion by Electro-Cell-Fusion and by Electroporation |
| Unlike the NEPA21/CUY21EDIT electroporators, the LF101, LF201 and ECFG21 do not have an automatic safety cut-off switch. (Unlike in in vivo electroporation, the researcher does not need to hold the electrodes in cell fusion). Compared with that of NEPA21… |
| |
| Vacuum & Electrical Pulse Method for Plant Seed Electroporation |
| Fertile transgenic plants were regenerated and self-fertilized seeds were obtained in rice and wheat. Transgene integration was confirmed by Southern hybridization. Transmission of the transgene into the next generation (T1) was indicated by PCR analysis… |
| |
| Plant Protoplast Fusion by Electro-Cell-Fusion and by Electroporation |
| Unlike the NEPA21/CUY21EDIT electroporators, the LF101, LF201 and ECFG21 do not have an automatic safety cut-off switch. (Unlike in in vivo electroporation, the researcher does not need to hold the electrodes in cell fusion). Compared with that of NEPA21… |
| |
| Vacuum & Electrical Pulse Method for Plant Seed Electroporation |
| Fertile transgenic plants were regenerated and self-fertilized seeds were obtained in rice and wheat. Transgene integration was confirmed by Southern hybridization. Transmission of the transgene into the next generation (T1) was indicated by PCR analysis… |
| |
| Vacuum & Electrical Pulse Method for Plant Seed Electroporation |
| Fertile transgenic plants were regenerated and self-fertilized seeds were obtained in rice and wheat. Transgene integration was confirmed by Southern hybridization. Transmission of the transgene into the next generation (T1) was indicated by PCR analysis… |
| |
| Plant Protoplast Fusion by Electro-Cell-Fusion and by Electroporation |
| Unlike the NEPA21/CUY21EDIT electroporators, the LF101, LF201 and ECFG21 do not have an automatic safety cut-off switch. (Unlike in in vivo electroporation, the researcher does not need to hold the electrodes in cell fusion). Compared with that of NEPA21… |
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| Adherent Cells |
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| Adherent Cells |
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| Adherent Cells |
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| Adherent Cells |
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| Adherent Cells |
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| Adherent Cells |
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| Adherent Cells |
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| Adherent Cells |
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| Adherent Cells |
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| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The NEPA21 can do in one device what each of the EDIT and SC did individually, i.e., it combines BOTH the… |
| |
| NEPA21 Electroporator |
| The NEPA21 Electroporator is based on the same platform and core technology that made the CUY21EDIT and CUY21SC devices leaders in their class. The NEPA21 can do in one device what each of the EDIT and SC did individually, i.e., it combines BOTH the… |
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| Adherent Cells |
| … |
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| Adherent Cells |
| … |
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| Adherent Cells |
| … |
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| Zeebrafish_Electroporation |
| Please note the Zebrafish video referred to above demonstrates the NEPA21 technique used in the article: ‘Direct Delivery of MIF Morpholinos Into the Zebrafish Otocyst by Injection and Electroporation Affects Inner Ear Development (Katie E. Holmes1… |
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| Zeebrafish_Electroporation |
| Please note the Zebrafish video referred to above demonstrates the NEPA21 technique used in the article: ‘Direct Delivery of MIF Morpholinos Into the Zebrafish Otocyst by Injection and Electroporation Affects Inner Ear Development (Katie E. Holmes1… |
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| Zebrafish_Electroporation |
| Please note the Zebrafish video referred to above demonstrates the NEPA21 technique used in the article: ‘Direct Delivery of MIF Morpholinos Into the Zebrafish Otocyst by Injection and Electroporation Affects Inner Ear Development (Katie E. Holmes1… |
| |
| Zeebrafish_Electroporation |
| Please note the Zebrafish video referred to above demonstrates the NEPA21 technique used in the article: ‘Direct Delivery of MIF Morpholinos Into the Zebrafish Otocyst by Injection and Electroporation Affects Inner Ear Development (Katie E. Holmes1… |
| |
| Zeebrafish_Electroporation |
| Please note the Zebrafish video referred to above demonstrates the NEPA21 technique used in the article: ‘Direct Delivery of MIF Morpholinos Into the Zebrafish Otocyst by Injection and Electroporation Affects Inner Ear Development (Katie E. Holmes1… |
| |
| Zeebrafish_Electroporation |
| Please note the Zebrafish video referred to above demonstrates the NEPA21 technique used in the article: ‘Direct Delivery of MIF Morpholinos Into the Zebrafish Otocyst by Injection and Electroporation Affects Inner Ear Development (Katie E. Holmes1… |
| |
| Vacuum & Electrical Pulse Method for Plant Seed Electroporation |
| Fertile transgenic plants were regenerated and self-fertilized seeds were obtained in rice and wheat. Transgene integration was confirmed by Southern hybridization. Transmission of the transgene into the next generation (T1) was indicated by PCR analysis… |
| |
| Vacuum & Electrical Pulse Method for Plant Seed Electroporation |
| Fertile transgenic plants were regenerated and self-fertilized seeds were obtained in rice and wheat. Transgene integration was confirmed by Southern hybridization. Transmission of the transgene into the next generation (T1) was indicated by PCR analysis… |
| |
| Vacuum & Electrical Pulse Method for Plant Seed Electroporation |
| Fertile transgenic plants were regenerated and self-fertilized seeds were obtained in rice and wheat. Transgene integration was confirmed by Southern hybridization. Transmission of the transgene into the next generation (T1) was indicated by PCR analysis… |
| |
| Vacuum & Electrical Pulse Method for Plant Seed Electroporation |
| Fertile transgenic plants were regenerated and self-fertilized seeds were obtained in rice and wheat. Transgene integration was confirmed by Southern hybridization. Transmission of the transgene into the next generation (T1) was indicated by PCR analysis… |
| |
| Vacuum & Electrical Pulse Method for Plant Seed Electroporation |
| Fertile transgenic plants were regenerated and self-fertilized seeds were obtained in rice and wheat. Transgene integration was confirmed by Southern hybridization. Transmission of the transgene into the next generation (T1) was indicated by PCR analysis… |
| |
| Vacuum & Electrical Pulse Method for Plant Seed Electroporation |
| Fertile transgenic plants were regenerated and self-fertilized seeds were obtained in rice and wheat. Transgene integration was confirmed by Southern hybridization. Transmission of the transgene into the next generation (T1) was indicated by PCR analysis… |
| |
| Vacuum & Electrical Pulse Method for Plant Seed Electroporation |
| Fertile transgenic plants were regenerated and self-fertilized seeds were obtained in rice and wheat. Transgene integration was confirmed by Southern hybridization. Transmission of the transgene into the next generation (T1) was indicated by PCR analysis… |
| |
| Vacuum & Electrical Pulse Method for Plant Seed Electroporation |
| Fertile transgenic plants were regenerated and self-fertilized seeds were obtained in rice and wheat. Transgene integration was confirmed by Southern hybridization. Transmission of the transgene into the next generation (T1) was indicated by PCR analysis… |
| |
| NEPA21_In-Vivo_EP-Cerebellum-Pups_between_3-8_days_old |
| … |
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| NEPA21_In-Vivo_EP-Cerebellum-Pups_between_3-8_days_old |
| … |
| |
| Cultured Mouse Embryos and Large Tissue |
| For smaller tissue of less than 0.5mm, we do not recommend the CUY520 series. The reason for this is practical; most clients want to minimize the required volume of DNA as much as possible and do not want to waste DNA. For such applications we believe… |
| |
| Cultured Mouse Embryos and Large Tissue |
| For smaller tissue of less than 0.5mm, we do not recommend the CUY520 series. The reason for this is practical; most clients want to minimize the required volume of DNA as much as possible and do not want to waste DNA. For such applications we believe… |
| |
| Cultured Mouse Embryos and Large Tissue |
| For smaller tissue of less than 0.5mm, we do not recommend the CUY520 series. The reason for this is practical; most clients want to minimize the required volume of DNA as much as possible and do not want to waste DNA. For such applications we believe… |
| |
| Cultured Mouse Embryos and Large Tissue |
| For smaller tissue of less than 0.5mm, we do not recommend the CUY520 series. The reason for this is practical; most clients want to minimize the required volume of DNA as much as possible and do not want to waste DNA. For such applications we believe… |
| |
| Cultured Mouse Embryos and Large Tissue |
| For smaller tissue of less than 0.5mm, we do not recommend the CUY520 series. The reason for this is practical; most clients want to minimize the required volume of DNA as much as possible and do not want to waste DNA. For such applications we believe… |
| |
| Cultured Mouse Embryos and Large Tissue |
| For smaller tissue of less than 0.5mm, we do not recommend the CUY520 series. The reason for this is practical; most clients want to minimize the required volume of DNA as much as possible and do not want to waste DNA. For such applications we believe… |
| |
| NEPA21_In-Vivo_EP-Cerebellum-Pups_between_3-8_days_old |
| … |
| |
| NEPA21_In-Vivo_EP-Cerebellum-Pups_between_3-8_days_old |
| … |
| |
| NEPA21_In-Vivo_EP-Cerebellum-Pups_between_3-8_days_old |
| … |
| |
| NEPA21_In-Vivo_EP-Cerebellum-Pups_between_3-8_days_old |
| … |
| |
| NEPA21_In-Vivo_EP-Cerebellum-Pups_between_3-8_days_old |
| … |
| |
| Mouse/Rat Adult – Brain (Cerebellum) |
| Alternatively, one could use the CUY567 electrode. It too is a needle electrodes but it cannot be used to inject plasmid. Accordingly, one must first inject genes into the brain and then insert the needle electrodes into the target where the plasmid… |
| |
| NEPA21_In_Vivo_Tumor_EP |
| … |
| |
| NEPA21_In_Vivo_Tumor_EP |
| … |
| |
| NEPA21_In_Vivo_Tumor_EP |
| … |
| |
| NEPA21_In_Vivo_Tumor_EP |
| … |
| |
| NEPA21_In_Vivo_Tumor_EP |
| … |
| |
| NEPA21_In_Vivo_Tumor_EP |
| … |
| |
| NEPA21_In_Vivo_Tumor_EP |
| … |
| |
| NEPA21_In_Vivo_Tumor_EP |
| … |
| |
| NEPA21_In_Vivo_Tumor_EP |
| … |
| |
|
| <td bgcolor="#ffcc33" align="center" bordercolor="#ffffff"><font size="1"><strong><a href="http://www.sonidel.com/sonidel/electroporation/nepa-electroporation-cuvettes/">Cuvette Electroporation</a></strong></font… |
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| NEPA21_In-Vivo_EP-Cerebellum-Pups_between_3-8_days_old |
| … |
| |
| Zebrafish_Electroporation |
| Please note the Zebrafish video referred to above demonstrates the NEPA21 technique used in the article: ‘Direct Delivery of MIF Morpholinos Into the Zebrafish Otocyst by Injection and Electroporation Affects Inner Ear Development (Katie E. Holmes1… |
| |
| Zebrafish_Electroporation |
| Please note the Zebrafish video referred to above demonstrates the NEPA21 technique used in the article: ‘Direct Delivery of MIF Morpholinos Into the Zebrafish Otocyst by Injection and Electroporation Affects Inner Ear Development (Katie E. Holmes1… |
| |
| Mouse_Rat_In_Vivo_Spinal_Cord_Electroporation |
| … |
| |
| Mouse/Rat – Muscle |
| The first method involves injecting a pair of needle electrodes CUY560-5/-10 into the muscle above skin. Since no surgery is involved, the researcher can easily perform electroporation and do so consecutively in a short period of time. In our opinion… |
| |
| NEPA21_Retina_EP |
| Arrangement of electrodes for in vivo electroporation for RPE transfection.(A) Tweezer-type electrodes were placed on the corneal surface of either eye of a 1-month-old Sprague-Dawley rat.(B) The current was applied with the positive electrode contralateral… |
| |
| NEPA21_Retina_EP |
| Arrangement of electrodes for in vivo electroporation for RPE transfection.(A) Tweezer-type electrodes were placed on the corneal surface of either eye of a 1-month-old Sprague-Dawley rat.(B) The current was applied with the positive electrode contralateral… |
| |
| NEPA21_Retina_EP |
| Arrangement of electrodes for in vivo electroporation for RPE transfection.(A) Tweezer-type electrodes were placed on the corneal surface of either eye of a 1-month-old Sprague-Dawley rat.(B) The current was applied with the positive electrode contralateral… |
| |
| NEPA21_Retina_EP |
| Arrangement of electrodes for in vivo electroporation for RPE transfection.(A) Tweezer-type electrodes were placed on the corneal surface of either eye of a 1-month-old Sprague-Dawley rat.(B) The current was applied with the positive electrode contralateral… |
| |
| NEPA21_Retina_EP |
| Arrangement of electrodes for in vivo electroporation for RPE transfection.(A) Tweezer-type electrodes were placed on the corneal surface of either eye of a 1-month-old Sprague-Dawley rat.(B) The current was applied with the positive electrode contralateral… |
| |
| NEPA21_Retina_EP |
| Arrangement of electrodes for in vivo electroporation for RPE transfection.(A) Tweezer-type electrodes were placed on the corneal surface of either eye of a 1-month-old Sprague-Dawley rat.(B) The current was applied with the positive electrode contralateral… |
| |
| NEPA21_Retina_EP |
| Arrangement of electrodes for in vivo electroporation for RPE transfection.(A) Tweezer-type electrodes were placed on the corneal surface of either eye of a 1-month-old Sprague-Dawley rat.(B) The current was applied with the positive electrode contralateral… |
| |
| NEPA21_Retina_EP |
| Arrangement of electrodes for in vivo electroporation for RPE transfection.(A) Tweezer-type electrodes were placed on the corneal surface of either eye of a 1-month-old Sprague-Dawley rat.(B) The current was applied with the positive electrode contralateral… |
| |
| NEPA21_Retina_EP |
| Arrangement of electrodes for in vivo electroporation for RPE transfection.(A) Tweezer-type electrodes were placed on the corneal surface of either eye of a 1-month-old Sprague-Dawley rat.(B) The current was applied with the positive electrode contralateral… |
| |
| NEPA21_Retina_EP |
| Arrangement of electrodes for in vivo electroporation for RPE transfection.(A) Tweezer-type electrodes were placed on the corneal surface of either eye of a 1-month-old Sprague-Dawley rat.(B) The current was applied with the positive electrode contralateral… |
| |
| NEPA21_Retina_EP |
| Arrangement of electrodes for in vivo electroporation for RPE transfection.(A) Tweezer-type electrodes were placed on the corneal surface of either eye of a 1-month-old Sprague-Dawley rat.(B) The current was applied with the positive electrode contralateral… |
| |
| NEPA21_Retina_EP |
| Arrangement of electrodes for in vivo electroporation for RPE transfection.(A) Tweezer-type electrodes were placed on the corneal surface of either eye of a 1-month-old Sprague-Dawley rat.(B) The current was applied with the positive electrode contralateral… |
| |
| NEPA21_Retina_EP |
| Arrangement of electrodes for in vivo electroporation for RPE transfection.(A) Tweezer-type electrodes were placed on the corneal surface of either eye of a 1-month-old Sprague-Dawley rat.(B) The current was applied with the positive electrode contralateral… |
| |
| NEPA21_Retina_EP |
| Arrangement of electrodes for in vivo electroporation for RPE transfection.(A) Tweezer-type electrodes were placed on the corneal surface of either eye of a 1-month-old Sprague-Dawley rat.(B) The current was applied with the positive electrode contralateral… |
| |
| NEPA21_Retina_EP |
| Arrangement of electrodes for in vivo electroporation for RPE transfection.(A) Tweezer-type electrodes were placed on the corneal surface of either eye of a 1-month-old Sprague-Dawley rat.(B) The current was applied with the positive electrode contralateral… |
| |
| NEPA21_Retina_EP |
| Arrangement of electrodes for in vivo electroporation for RPE transfection.(A) Tweezer-type electrodes were placed on the corneal surface of either eye of a 1-month-old Sprague-Dawley rat.(B) The current was applied with the positive electrode contralateral… |
| |
| NEPA21_Retina_EP |
| Arrangement of electrodes for in vivo electroporation for RPE transfection.(A) Tweezer-type electrodes were placed on the corneal surface of either eye of a 1-month-old Sprague-Dawley rat.(B) The current was applied with the positive electrode contralateral… |
| |
| NEPA21_Retina_EP |
| Arrangement of electrodes for in vivo electroporation for RPE transfection.(A) Tweezer-type electrodes were placed on the corneal surface of either eye of a 1-month-old Sprague-Dawley rat.(B) The current was applied with the positive electrode contralateral… |
| |
| NEPA21_Retina_EP |
| Arrangement of electrodes for in vivo electroporation for RPE transfection.(A) Tweezer-type electrodes were placed on the corneal surface of either eye of a 1-month-old Sprague-Dawley rat.(B) The current was applied with the positive electrode contralateral… |
| |
| NEPA21_Retina_EP |
| Arrangement of electrodes for in vivo electroporation for RPE transfection.(A) Tweezer-type electrodes were placed on the corneal surface of either eye of a 1-month-old Sprague-Dawley rat.(B) The current was applied with the positive electrode contralateral… |
| |
| NEPA21_Retina_EP |
| Arrangement of electrodes for in vivo electroporation for RPE transfection.(A) Tweezer-type electrodes were placed on the corneal surface of either eye of a 1-month-old Sprague-Dawley rat.(B) The current was applied with the positive electrode contralateral… |
| |
| NEPA21_Retina_EP |
| Arrangement of electrodes for in vivo electroporation for RPE transfection.(A) Tweezer-type electrodes were placed on the corneal surface of either eye of a 1-month-old Sprague-Dawley rat.(B) The current was applied with the positive electrode contralateral… |
| |
| NEPA21_Retina_EP |
| Arrangement of electrodes for in vivo electroporation for RPE transfection.(A) Tweezer-type electrodes were placed on the corneal surface of either eye of a 1-month-old Sprague-Dawley rat.(B) The current was applied with the positive electrode contralateral… |
| |
| NEPA21_Retina_EP |
| Arrangement of electrodes for in vivo electroporation for RPE transfection.(A) Tweezer-type electrodes were placed on the corneal surface of either eye of a 1-month-old Sprague-Dawley rat.(B) The current was applied with the positive electrode contralateral… |
| |
| NEPA21_Retina_EP |
| Arrangement of electrodes for in vivo electroporation for RPE transfection.(A) Tweezer-type electrodes were placed on the corneal surface of either eye of a 1-month-old Sprague-Dawley rat.(B) The current was applied with the positive electrode contralateral… |
| |
| NEPA21_Retina_EP |
| Arrangement of electrodes for in vivo electroporation for RPE transfection.(A) Tweezer-type electrodes were placed on the corneal surface of either eye of a 1-month-old Sprague-Dawley rat.(B) The current was applied with the positive electrode contralateral… |
| |
| NEPA21_Retina_EP |
| Arrangement of electrodes for in vivo electroporation for RPE transfection.(A) Tweezer-type electrodes were placed on the corneal surface of either eye of a 1-month-old Sprague-Dawley rat.(B) The current was applied with the positive electrode contralateral… |
| |
| NEPA21_Retina_EP |
| Arrangement of electrodes for in vivo electroporation for RPE transfection.(A) Tweezer-type electrodes were placed on the corneal surface of either eye of a 1-month-old Sprague-Dawley rat.(B) The current was applied with the positive electrode contralateral… |
| |
| NEPA21_Retina_EP |
| Arrangement of electrodes for in vivo electroporation for RPE transfection.(A) Tweezer-type electrodes were placed on the corneal surface of either eye of a 1-month-old Sprague-Dawley rat.(B) The current was applied with the positive electrode contralateral… |
| |
| NEPA21_Retina_EP |
| Arrangement of electrodes for in vivo electroporation for RPE transfection.(A) Tweezer-type electrodes were placed on the corneal surface of either eye of a 1-month-old Sprague-Dawley rat.(B) The current was applied with the positive electrode contralateral… |
| |
| NEPA21_Retina_EP |
| Arrangement of electrodes for in vivo electroporation for RPE transfection.(A) Tweezer-type electrodes were placed on the corneal surface of either eye of a 1-month-old Sprague-Dawley rat.(B) The current was applied with the positive electrode contralateral… |
| |
| NEPA21_Retina_EP |
| Arrangement of electrodes for in vivo electroporation for RPE transfection.(A) Tweezer-type electrodes were placed on the corneal surface of either eye of a 1-month-old Sprague-Dawley rat.(B) The current was applied with the positive electrode contralateral… |
| |
| NEPA21_Retina_EP |
| Arrangement of electrodes for in vivo electroporation for RPE transfection.(A) Tweezer-type electrodes were placed on the corneal surface of either eye of a 1-month-old Sprague-Dawley rat.(B) The current was applied with the positive electrode contralateral… |
| |
| NEPA21_Retina_EP |
| Arrangement of electrodes for in vivo electroporation for RPE transfection.(A) Tweezer-type electrodes were placed on the corneal surface of either eye of a 1-month-old Sprague-Dawley rat.(B) The current was applied with the positive electrode contralateral… |
| |
| NEPA21_Retina_EP |
| Arrangement of electrodes for in vivo electroporation for RPE transfection.(A) Tweezer-type electrodes were placed on the corneal surface of either eye of a 1-month-old Sprague-Dawley rat.(B) The current was applied with the positive electrode contralateral… |
| |
| NEPA21_Retina_EP |
| Arrangement of electrodes for in vivo electroporation for RPE transfection.(A) Tweezer-type electrodes were placed on the corneal surface of either eye of a 1-month-old Sprague-Dawley rat.(B) The current was applied with the positive electrode contralateral… |
| |
| NEPA21_Retina_EP |
| Arrangement of electrodes for in vivo electroporation for RPE transfection.(A) Tweezer-type electrodes were placed on the corneal surface of either eye of a 1-month-old Sprague-Dawley rat.(B) The current was applied with the positive electrode contralateral… |
| |
| NEPA21_Retina_EP |
| Arrangement of electrodes for in vivo electroporation for RPE transfection.(A) Tweezer-type electrodes were placed on the corneal surface of either eye of a 1-month-old Sprague-Dawley rat.(B) The current was applied with the positive electrode contralateral… |
| |
| NEPA21_Retina_EP |
| Arrangement of electrodes for in vivo electroporation for RPE transfection.(A) Tweezer-type electrodes were placed on the corneal surface of either eye of a 1-month-old Sprague-Dawley rat.(B) The current was applied with the positive electrode contralateral… |
| |
| NEPA21_Retina_EP |
| Arrangement of electrodes for in vivo electroporation for RPE transfection.(A) Tweezer-type electrodes were placed on the corneal surface of either eye of a 1-month-old Sprague-Dawley rat.(B) The current was applied with the positive electrode contralateral… |
| |
| NEPA21_Retina_EP |
| Arrangement of electrodes for in vivo electroporation for RPE transfection.(A) Tweezer-type electrodes were placed on the corneal surface of either eye of a 1-month-old Sprague-Dawley rat.(B) The current was applied with the positive electrode contralateral… |
| |
| NEPA21_Retina_EP |
| Arrangement of electrodes for in vivo electroporation for RPE transfection.(A) Tweezer-type electrodes were placed on the corneal surface of either eye of a 1-month-old Sprague-Dawley rat.(B) The current was applied with the positive electrode contralateral… |
| |
| NEPA21_Retina_EP |
| Arrangement of electrodes for in vivo electroporation for RPE transfection.(A) Tweezer-type electrodes were placed on the corneal surface of either eye of a 1-month-old Sprague-Dawley rat.(B) The current was applied with the positive electrode contralateral… |
| |
| NEPA21_Retina_EP |
| Arrangement of electrodes for in vivo electroporation for RPE transfection.(A) Tweezer-type electrodes were placed on the corneal surface of either eye of a 1-month-old Sprague-Dawley rat.(B) The current was applied with the positive electrode contralateral… |
| |
| NEPA21_Retina_EP |
| Arrangement of electrodes for in vivo electroporation for RPE transfection.(A) Tweezer-type electrodes were placed on the corneal surface of either eye of a 1-month-old Sprague-Dawley rat.(B) The current was applied with the positive electrode contralateral… |
| |
| NEPA21_Retina_EP |
| Arrangement of electrodes for in vivo electroporation for RPE transfection.(A) Tweezer-type electrodes were placed on the corneal surface of either eye of a 1-month-old Sprague-Dawley rat.(B) The current was applied with the positive electrode contralateral… |
| |
| NEPA21_Retina_EP |
| Arrangement of electrodes for in vivo electroporation for RPE transfection.(A) Tweezer-type electrodes were placed on the corneal surface of either eye of a 1-month-old Sprague-Dawley rat.(B) The current was applied with the positive electrode contralateral… |
| |
| NEPA21_Retina_EP |
| Arrangement of electrodes for in vivo electroporation for RPE transfection.(A) Tweezer-type electrodes were placed on the corneal surface of either eye of a 1-month-old Sprague-Dawley rat.(B) The current was applied with the positive electrode contralateral… |
| |
| NEPA21_Retina_EP |
| Arrangement of electrodes for in vivo electroporation for RPE transfection.(A) Tweezer-type electrodes were placed on the corneal surface of either eye of a 1-month-old Sprague-Dawley rat.(B) The current was applied with the positive electrode contralateral… |
| |
| NEPA21_Retina_EP |
| Arrangement of electrodes for in vivo electroporation for RPE transfection.(A) Tweezer-type electrodes were placed on the corneal surface of either eye of a 1-month-old Sprague-Dawley rat.(B) The current was applied with the positive electrode contralateral… |
| |
| NEPA21_Retina_EP |
| Arrangement of electrodes for in vivo electroporation for RPE transfection.(A) Tweezer-type electrodes were placed on the corneal surface of either eye of a 1-month-old Sprague-Dawley rat.(B) The current was applied with the positive electrode contralateral… |
| |
| NEPA21_Retina_EP |
| Arrangement of electrodes for in vivo electroporation for RPE transfection.(A) Tweezer-type electrodes were placed on the corneal surface of either eye of a 1-month-old Sprague-Dawley rat.(B) The current was applied with the positive electrode contralateral… |
| |
| NEPA21_Retina_EP |
| Arrangement of electrodes for in vivo electroporation for RPE transfection.(A) Tweezer-type electrodes were placed on the corneal surface of either eye of a 1-month-old Sprague-Dawley rat.(B) The current was applied with the positive electrode contralateral… |
| |
| NEPA21_Retina_EP |
| Arrangement of electrodes for in vivo electroporation for RPE transfection.(A) Tweezer-type electrodes were placed on the corneal surface of either eye of a 1-month-old Sprague-Dawley rat.(B) The current was applied with the positive electrode contralateral… |
| |
| NEPA21_Retina_EP |
| Arrangement of electrodes for in vivo electroporation for RPE transfection.(A) Tweezer-type electrodes were placed on the corneal surface of either eye of a 1-month-old Sprague-Dawley rat.(B) The current was applied with the positive electrode contralateral… |
| |
| NEPA21_Retina_EP |
| Arrangement of electrodes for in vivo electroporation for RPE transfection.(A) Tweezer-type electrodes were placed on the corneal surface of either eye of a 1-month-old Sprague-Dawley rat.(B) The current was applied with the positive electrode contralateral… |
| |
| NEPA21_Retina_EP |
| Arrangement of electrodes for in vivo electroporation for RPE transfection.(A) Tweezer-type electrodes were placed on the corneal surface of either eye of a 1-month-old Sprague-Dawley rat.(B) The current was applied with the positive electrode contralateral… |
| |
| NEPA21_Retina_EP |
| Arrangement of electrodes for in vivo electroporation for RPE transfection.(A) Tweezer-type electrodes were placed on the corneal surface of either eye of a 1-month-old Sprague-Dawley rat.(B) The current was applied with the positive electrode contralateral… |
| |
| NEPA21_Retina_EP |
| Arrangement of electrodes for in vivo electroporation for RPE transfection.(A) Tweezer-type electrodes were placed on the corneal surface of either eye of a 1-month-old Sprague-Dawley rat.(B) The current was applied with the positive electrode contralateral… |
| |
| NEPA21_Retina_EP |
| Arrangement of electrodes for in vivo electroporation for RPE transfection.(A) Tweezer-type electrodes were placed on the corneal surface of either eye of a 1-month-old Sprague-Dawley rat.(B) The current was applied with the positive electrode contralateral… |
| |
| NEPA21_Retina_EP |
| Arrangement of electrodes for in vivo electroporation for RPE transfection.(A) Tweezer-type electrodes were placed on the corneal surface of either eye of a 1-month-old Sprague-Dawley rat.(B) The current was applied with the positive electrode contralateral… |
| |
| NEPA21_Retina_EP |
| Arrangement of electrodes for in vivo electroporation for RPE transfection.(A) Tweezer-type electrodes were placed on the corneal surface of either eye of a 1-month-old Sprague-Dawley rat.(B) The current was applied with the positive electrode contralateral… |
| |
| NEPA21_Retina_EP |
| Arrangement of electrodes for in vivo electroporation for RPE transfection.(A) Tweezer-type electrodes were placed on the corneal surface of either eye of a 1-month-old Sprague-Dawley rat.(B) The current was applied with the positive electrode contralateral… |
| |
| NEPA21_Retina_EP |
| Arrangement of electrodes for in vivo electroporation for RPE transfection.(A) Tweezer-type electrodes were placed on the corneal surface of either eye of a 1-month-old Sprague-Dawley rat.(B) The current was applied with the positive electrode contralateral… |
| |
| NEPA21_Retina_EP |
| Arrangement of electrodes for in vivo electroporation for RPE transfection.(A) Tweezer-type electrodes were placed on the corneal surface of either eye of a 1-month-old Sprague-Dawley rat.(B) The current was applied with the positive electrode contralateral… |
| |
| Adult Mouse and Rat (In vivo) - Testis, Ovary |
| … |
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| Adult Mouse and Rat (In vivo) - Testis, Ovary |
| … |
| |
| Adult Mouse and Rat (In vivo) - Testis, Ovary |
| … |
| |
| Adult Mouse and Rat (In vivo) - Testis, Ovary |
| … |
| |
|
| <td bgcolor="#ffcc33" align="center" bordercolor="#ffffff"><font size="1"><strong><a href="http://www.sonidel.com/sonidel/electroporation/nepa-electroporation-cuvettes/">Cuvette Electroporation</a></strong></font… |
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| |
| Please also note the following links and attached articles for further information on the NEPA21’s In Ovo capacity. (Please note where a reference is made in the resource material to the CUY21 systems (EDIT or SC), the NEPA21 replaces them and can… |
| |
| Mouse/Rat – Muscle |
| Since no surgery is involved, the researcher can easily perform electroporation and do so consecutively in a short period of time. In our opinion, this is the best method. However, as the volume of muscle affects the resistance value, and thus, actual… |
| |
| Postnatal_Cerebellum_EP_with_the_CUY699P7x6 |
| However, our preferred and recommended electrode configuration for postnatal cerebellum electroporation does not combine three electrodes in an awkward single unit but instead uses our CUY700PL type-electrodes in combination with the following electrodes… |
| |
| Postnatal_Cerebellum_EP_with_the_CUY699P7x6 |
| However, our preferred and recommended electrode configuration for postnatal cerebellum electroporation does not combine three electrodes in an awkward single unit but instead uses our CUY700PL type-electrodes in combination with the following electrodes… |
| |
| Mouse/Rat – Muscle |
| Since no surgery is involved, the researcher can easily perform electroporation and do so consecutively in a short period of time. In our opinion, this is the best method. However, as the volume of muscle affects the resistance value, and thus, actual… |
| |
| Mouse/Rat – Muscle |
| Since no surgery is involved, the researcher can easily perform electroporation and do so consecutively in a short period of time. In our opinion, this is the best method. However, as the volume of muscle affects the resistance value, and thus, actual… |
| |
| Mouse/Rat Adult – Brain (Cerebellum) |
| Alternatively, one could use the CUY567 electrode. It too is a needle electrodes but it cannot be used to inject plasmid. Accordingly, one must first inject genes into the brain and then insert the needle electrodes into the target where the plasmid… |
| |
| NEPA21_In-Vivo_EP-Cerebellum-Pups_between_3-8_days_old |
| … |
| |
| NEPA21_In-Vivo_EP-Cerebellum-Pups_between_3-8_days_old |
| … |
| |
| NEPA21_In-Vivo_EP-Cerebellum-Pups_between_3-8_days_old |
| … |
| |
| NEPA21_In-Vivo_EP-Cerebellum-Pups_between_3-8_days_old |
| … |
| |
| NEPA21_In-Vivo_EP-Cerebellum-Pups_between_3-8_days_old |
| … |
| |
| NEPA21_In-Vivo_EP-Cerebellum-Pups_between_3-8_days_old |
| … |
| |
| NEPA21_Retina_EP |
| Arrangement of electrodes for in vivo electroporation for RPE transfection.(A) Tweezer-type electrodes were placed on the corneal surface of either eye of a 1-month-old Sprague-Dawley rat.(B) The current was applied with the positive electrode contralateral… |
| |
| NEPA21_Retina_EP |
| Arrangement of electrodes for in vivo electroporation for RPE transfection.(A) Tweezer-type electrodes were placed on the corneal surface of either eye of a 1-month-old Sprague-Dawley rat.(B) The current was applied with the positive electrode contralateral… |
| |
| NEPA21_Retina_EP |
| Arrangement of electrodes for in vivo electroporation for RPE transfection.(A) Tweezer-type electrodes were placed on the corneal surface of either eye of a 1-month-old Sprague-Dawley rat.(B) The current was applied with the positive electrode contralateral… |
| |
|
| <td bgcolor="#ffcc33" align="center" bordercolor="#ffffff"><font size="1"><strong><a href="http://www.sonidel.com/sonidel/electroporation/nepa-electroporation-cuvettes/">Cuvette Electroporation</a></strong></font… |
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| Mouse/Rat - Skin |
| For your further information, some clients prefer to use the CUY650P electrode series for the same application. The CUY650P series is also a tweezers type electrode but it incorporates disk electrodes. With the CUY650P series, skin is picked up and… |
| |
| Mouse/Rat - Skin |
| For your further information, some clients prefer to use the CUY650P electrode series for the same application. The CUY650P series is also a tweezers type electrode but it incorporates disk electrodes. With the CUY650P series, skin is picked up and… |
| |
| Mouse/Rat - Skin |
| For your further information, some clients prefer to use the CUY650P electrode series for the same application. The CUY650P series is also a tweezers type electrode but it incorporates disk electrodes. With the CUY650P series, skin is picked up and… |
| |
| Mouse/Rat - Skin |
| For your further information, some clients prefer to use the CUY650P electrode series for the same application. The CUY650P series is also a tweezers type electrode but it incorporates disk electrodes. With the CUY650P series, skin is picked up and… |
| |
| Mouse/Rat - Skin |
| For your further information, some clients prefer to use the CUY650P electrode series for the same application. The CUY650P series is also a tweezers type electrode but it incorporates disk electrodes. With the CUY650P series, skin is picked up and… |
| |
| Mouse/Rat - Skin |
| For your further information, some clients prefer to use the CUY650P electrode series for the same application. The CUY650P series is also a tweezers type electrode but it incorporates disk electrodes. With the CUY650P series, skin is picked up and… |
| |
| Mouse/Rat - Skin |
| For your further information, some clients prefer to use the CUY650P electrode series for the same application. The CUY650P series is also a tweezers type electrode but it incorporates disk electrodes. With the CUY650P series, skin is picked up and… |
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| Postnatal_Cerebellum_EP_with_the_CUY699P7x6 |
| … |
| |
| Postnatal_Cerebellum_EP_with_the_CUY699P7x6 |
| … |
| |
| Postnatal_Cerebellum_EP_with_the_CUY699P7x6 |
| … |
| |
| Vacuum & Electrical Pulse Method for Plant Seed Electroporation |
| Fertile transgenic plants were regenerated and self-fertilized seeds were obtained in rice and wheat. Transgene integration was confirmed by Southern hybridization. Transmission of the transgene into the next generation (T1) was indicated by PCR analysis… |
| |
| Vacuum & Electrical Pulse Method for Plant Seed Electroporation |
| Fertile transgenic plants were regenerated and self-fertilized seeds were obtained in rice and wheat. Transgene integration was confirmed by Southern hybridization. Transmission of the transgene into the next generation (T1) was indicated by PCR analysis… |
| |
| Vacuum & Electrical Pulse Method for Plant Seed Electroporation |
| Fertile transgenic plants were regenerated and self-fertilized seeds were obtained in rice and wheat. Transgene integration was confirmed by Southern hybridization. Transmission of the transgene into the next generation (T1) was indicated by PCR analysis… |
| |
| Vacuum & Electrical Pulse Method for Plant Seed Electroporation |
| Fertile transgenic plants were regenerated and self-fertilized seeds were obtained in rice and wheat. Transgene integration was confirmed by Southern hybridization. Transmission of the transgene into the next generation (T1) was indicated by PCR analysis… |
| |
| Vacuum & Electrical Pulse Method for Plant Seed Electroporation |
| Fertile transgenic plants were regenerated and self-fertilized seeds were obtained in rice and wheat. Transgene integration was confirmed by Southern hybridization. Transmission of the transgene into the next generation (T1) was indicated by PCR analysis… |
| |
| Vacuum & Electrical Pulse Method for Plant Seed Electroporation |
| Fertile transgenic plants were regenerated and self-fertilized seeds were obtained in rice and wheat. Transgene integration was confirmed by Southern hybridization. Transmission of the transgene into the next generation (T1) was indicated by PCR analysis… |
| |
| Vacuum & Electrical Pulse Method for Plant Seed Electroporation |
| Fertile transgenic plants were regenerated and self-fertilized seeds were obtained in rice and wheat. Transgene integration was confirmed by Southern hybridization. Transmission of the transgene into the next generation (T1) was indicated by PCR analysis… |
| |
| Vacuum & Electrical Pulse Method for Plant Seed Electroporation |
| Fertile transgenic plants were regenerated and self-fertilized seeds were obtained in rice and wheat. Transgene integration was confirmed by Southern hybridization. Transmission of the transgene into the next generation (T1) was indicated by PCR analysis… |
| |
| Vacuum & Electrical Pulse Method for Plant Seed Electroporation |
| Fertile transgenic plants were regenerated and self-fertilized seeds were obtained in rice and wheat. Transgene integration was confirmed by Southern hybridization. Transmission of the transgene into the next generation (T1) was indicated by PCR analysis… |
| |
| Vacuum & Electrical Pulse Method for Plant Seed Electroporation |
| Fertile transgenic plants were regenerated and self-fertilized seeds were obtained in rice and wheat. Transgene integration was confirmed by Southern hybridization. Transmission of the transgene into the next generation (T1) was indicated by PCR analysis… |
| |
| Vacuum & Electrical Pulse Method for Plant Seed Electroporation |
| Fertile transgenic plants were regenerated and self-fertilized seeds were obtained in rice and wheat. Transgene integration was confirmed by Southern hybridization. Transmission of the transgene into the next generation (T1) was indicated by PCR analysis… |
| |
| Vacuum & Electrical Pulse Method for Plant Seed Electroporation |
| Fertile transgenic plants were regenerated and self-fertilized seeds were obtained in rice and wheat. Transgene integration was confirmed by Southern hybridization. Transmission of the transgene into the next generation (T1) was indicated by PCR analysis… |
| |
| Adult Mouse and Rat (In vivo) - Liver |
| Zang  et al.Inhibition  of  nuclear  delivery  of  plasmid  DNA  and  transcription  by  interferon  γ: hurdles to be overcome for sustained gene  therapy.Gene  Ther. 2011 Sep;18(9):891-7. doi: 10.1038/gt.2011.35. Epub 2011 Mar 31… |
| |
| Zebrafish_Electroporation |
| Please note the Zebrafish video referred to above demonstrates the NEPA21 technique used in the article: ‘Direct Delivery of MIF Morpholinos Into the Zebrafish Otocyst by Injection and Electroporation Affects Inner Ear Development (Katie E. Holmes1… |
| |
| Zebrafish_Electroporation |
| Please note the Zebrafish video referred to above demonstrates the NEPA21 technique used in the article: ‘Direct Delivery of MIF Morpholinos Into the Zebrafish Otocyst by Injection and Electroporation Affects Inner Ear Development (Katie E. Holmes1… |
| |
| Zebrafish_Electroporation |
| Please note the Zebrafish video referred to above demonstrates the NEPA21 technique used in the article: ‘Direct Delivery of MIF Morpholinos Into the Zebrafish Otocyst by Injection and Electroporation Affects Inner Ear Development (Katie E. Holmes1… |
| |
| Zebrafish_Electroporation |
| Please note the Zebrafish video referred to above demonstrates the NEPA21 technique used in the article: ‘Direct Delivery of MIF Morpholinos Into the Zebrafish Otocyst by Injection and Electroporation Affects Inner Ear Development (Katie E. Holmes1… |
| |
| Zebrafish_Electroporation |
| Please note the Zebrafish video referred to above demonstrates the NEPA21 technique used in the article: ‘Direct Delivery of MIF Morpholinos Into the Zebrafish Otocyst by Injection and Electroporation Affects Inner Ear Development (Katie E. Holmes1… |
| |
| Zebrafish_Electroporation |
| Please note the Zebrafish video referred to above demonstrates the NEPA21 technique used in the article: ‘Direct Delivery of MIF Morpholinos Into the Zebrafish Otocyst by Injection and Electroporation Affects Inner Ear Development (Katie E. Holmes1… |
| |
| Zebrafish_Electroporation |
| Please note the Zebrafish video referred to above demonstrates the NEPA21 technique used in the article: ‘Direct Delivery of MIF Morpholinos Into the Zebrafish Otocyst by Injection and Electroporation Affects Inner Ear Development (Katie E. Holmes1… |
| |
| Zebrafish_Electroporation |
| Please note the Zebrafish video referred to above demonstrates the NEPA21 technique used in the article: ‘Direct Delivery of MIF Morpholinos Into the Zebrafish Otocyst by Injection and Electroporation Affects Inner Ear Development (Katie E. Holmes1… |
| |
| Zebrafish_Electroporation |
| Please note the Zebrafish video referred to above demonstrates the NEPA21 technique used in the article: ‘Direct Delivery of MIF Morpholinos Into the Zebrafish Otocyst by Injection and Electroporation Affects Inner Ear Development (Katie E. Holmes1… |
| |
| Mouse_Rat_In_Vivo_Spinal_Cord_Electroporation |
| … |
| |
| Mouse_Rat_In_Vivo_Spinal_Cord_Electroporation |
| … |
| |
| Mouse_Rat_In_Vivo_Spinal_Cord_Electroporation |
| … |
| |
| Adult Mouse and Rat (In vivo) - Liver |
| Zang  et al.Inhibition  of  nuclear  delivery  of  plasmid  DNA  and  transcription  by  interferon  γ: hurdles to be overcome for sustained gene  therapy.Gene  Ther. 2011 Sep;18(9):891-7. doi: 10.1038/gt.2011.35. Epub 2011 Mar 31… |
| |
| Adult Mouse and Rat (In vivo) - Liver |
| Zang  et al.Inhibition  of  nuclear  delivery  of  plasmid  DNA  and  transcription  by  interferon  γ: hurdles to be overcome for sustained gene  therapy.Gene  Ther. 2011 Sep;18(9):891-7. doi: 10.1038/gt.2011.35. Epub 2011 Mar 31… |
| |
| Adult Mouse and Rat (In vivo) - Liver |
| Zang  et al.Inhibition  of  nuclear  delivery  of  plasmid  DNA  and  transcription  by  interferon  γ: hurdles to be overcome for sustained gene  therapy.Gene  Ther. 2011 Sep;18(9):891-7. doi: 10.1038/gt.2011.35. Epub 2011 Mar 31… |
| |
| Adult Mouse and Rat (In vivo) - Liver |
| Zang  et al.Inhibition  of  nuclear  delivery  of  plasmid  DNA  and  transcription  by  interferon  γ: hurdles to be overcome for sustained gene  therapy.Gene  Ther. 2011 Sep;18(9):891-7. doi: 10.1038/gt.2011.35. Epub 2011 Mar 31… |
| |
| Adult Mouse and Rat (In vivo) - Liver |
| Zang  et al.Inhibition  of  nuclear  delivery  of  plasmid  DNA  and  transcription  by  interferon  γ: hurdles to be overcome for sustained gene  therapy.Gene  Ther. 2011 Sep;18(9):891-7. doi: 10.1038/gt.2011.35. Epub 2011 Mar 31… |
| |
| In Ovo Electroporation |
| (Please note: where a reference is made in the following resource material to the CUY21 systems (EDIT or SC), the NEPA21 replaces them and can replicate their exact same output pulse form – in addition to its own multi-pulse and polarity-exchange capability… |
| |
| In Ovo Electroporation |
| (Please note: where a reference is made in the following resource material to the CUY21 systems (EDIT or SC), the NEPA21 replaces them and can replicate their exact same output pulse form – in addition to its own multi-pulse and polarity-exchange capability… |
| |
| In Ovo Electroporation |
| Some clients, however, who have to contend with a large number of samples on a daily basis find it difficult to manipulate a pair of electrodes vertically. Such clients prefer to move the pair of electrodes horizontally. The CUY613 series was designed… |
| |
| In Ovo Electroporation |
| (Please note: where a reference is made in the following resource material to the CUY21 systems (EDIT or SC), the NEPA21 replaces them and can replicate their exact same output pulse form – in addition to its own multi-pulse and polarity-exchange capability… |
| |
| In Ovo Electroporation |
| Some clients, however, who have to contend with a large number of samples on a daily basis find it difficult to manipulate a pair of electrodes vertically. Such clients prefer to move the pair of electrodes horizontally. The CUY613 series was designed… |
| |
| In Ovo Electroporation |
| Some clients, however, who have to contend with a large number of samples on a daily basis find it difficult to manipulate a pair of electrodes vertically. Such clients prefer to move the pair of electrodes horizontally. The CUY613 series was designed… |
| |
| In Ovo Electroporation |
| Some clients, however, who have to contend with a large number of samples on a daily basis find it difficult to manipulate a pair of electrodes vertically. Such clients prefer to move the pair of electrodes horizontally. The CUY613 series was designed… |
| |
| In Ovo Electroporation |
| Some clients, however, who have to contend with a large number of samples on a daily basis find it difficult to manipulate a pair of electrodes vertically. Such clients prefer to move the pair of electrodes horizontally. The CUY613 series was designed… |
| |
| In Ovo Electroporation |
| Some clients, however, who have to contend with a large number of samples on a daily basis find it difficult to manipulate a pair of electrodes vertically. Such clients prefer to move the pair of electrodes horizontally. The CUY613 series was designed… |
| |
| In Ovo Electroporation |
| Some clients, however, who have to contend with a large number of samples on a daily basis find it difficult to manipulate a pair of electrodes vertically. Such clients prefer to move the pair of electrodes horizontally. The CUY613 series was designed… |
| |
| In Ovo Electroporation |
| Some clients, however, who have to contend with a large number of samples on a daily basis find it difficult to manipulate a pair of electrodes vertically. Such clients prefer to move the pair of electrodes horizontally. The CUY613 series was designed… |
| |
| In Ovo Electroporation |
| Some clients, however, who have to contend with a large number of samples on a daily basis find it difficult to manipulate a pair of electrodes vertically. Such clients prefer to move the pair of electrodes horizontally. The CUY613 series was designed… |
| |
| In Ovo Electroporation |
| Some clients, however, who have to contend with a large number of samples on a daily basis find it difficult to manipulate a pair of electrodes vertically. Such clients prefer to move the pair of electrodes horizontally. The CUY613 series was designed… |
| |
| In Ovo Electroporation |
| Some clients, however, who have to contend with a large number of samples on a daily basis find it difficult to manipulate a pair of electrodes vertically. Such clients prefer to move the pair of electrodes horizontally. The CUY613 series was designed… |
| |
| In Ovo Electroporation |
| Some clients, however, who have to contend with a large number of samples on a daily basis find it difficult to manipulate a pair of electrodes vertically. Such clients prefer to move the pair of electrodes horizontally. The CUY613 series was designed… |
| |
| In Ovo Electroporation |
| Some clients, however, who have to contend with a large number of samples on a daily basis find it difficult to manipulate a pair of electrodes vertically. Such clients prefer to move the pair of electrodes horizontally. The CUY613 series was designed… |
| |
| In Ovo Electroporation |
| Some clients, however, who have to contend with a large number of samples on a daily basis find it difficult to manipulate a pair of electrodes vertically. Such clients prefer to move the pair of electrodes horizontally. The CUY613 series was designed… |
| |
| In Ovo Electroporation |
| Some clients, however, who have to contend with a large number of samples on a daily basis find it difficult to manipulate a pair of electrodes vertically. Such clients prefer to move the pair of electrodes horizontally. The CUY613 series was designed… |
| |
| In Ovo Electroporation |
| Some clients, however, who have to contend with a large number of samples on a daily basis find it difficult to manipulate a pair of electrodes vertically. Such clients prefer to move the pair of electrodes horizontally. The CUY613 series was designed… |
| |
| In Ovo Electroporation |
| Some clients, however, who have to contend with a large number of samples on a daily basis find it difficult to manipulate a pair of electrodes vertically. Such clients prefer to move the pair of electrodes horizontally. The CUY613 series was designed… |
| |
| Cultured Mouse Embryos and Large Tissue |
| For smaller tissue of less than 0.5mm, we do not recommend the CUY520 series. The reason for this is practical; most clients want to minimize the required volume of DNA as much as possible and do not want to waste DNA. For such applications we believe… |
| |
| Cultured Mouse Embryos and Large Tissue |
| For smaller tissue of less than 0.5mm, we do not recommend the CUY520 series. The reason for this is practical; most clients want to minimize the required volume of DNA as much as possible and do not want to waste DNA. For such applications we believe… |
| |
| Cultured Mouse Embryos and Large Tissue |
| For smaller tissue of less than 0.5mm, we do not recommend the CUY520 series. The reason for this is practical; most clients want to minimize the required volume of DNA as much as possible and do not want to waste DNA. For such applications we believe… |
| |
| Adult Mouse and Rat (In vivo) - Liver |
| Zang  et al.Inhibition  of  nuclear  delivery  of  plasmid  DNA  and  transcription  by  interferon  γ: hurdles to be overcome for sustained gene  therapy.Gene  Ther. 2011 Sep;18(9):891-7. doi: 10.1038/gt.2011.35. Epub 2011 Mar 31… |
| |
| Adult Mouse and Rat (In vivo) - Liver |
| Zang  et al.Inhibition  of  nuclear  delivery  of  plasmid  DNA  and  transcription  by  interferon  γ: hurdles to be overcome for sustained gene  therapy.Gene  Ther. 2011 Sep;18(9):891-7. doi: 10.1038/gt.2011.35. Epub 2011 Mar 31… |
| |
| Adult Mouse and Rat (In vivo) - Liver |
| Zang  et al.Inhibition  of  nuclear  delivery  of  plasmid  DNA  and  transcription  by  interferon  γ: hurdles to be overcome for sustained gene  therapy.Gene  Ther. 2011 Sep;18(9):891-7. doi: 10.1038/gt.2011.35. Epub 2011 Mar 31… |
| |
| Adult Mouse and Rat (In vivo) - Liver |
| Zang  et al.Inhibition  of  nuclear  delivery  of  plasmid  DNA  and  transcription  by  interferon  γ: hurdles to be overcome for sustained gene  therapy.Gene  Ther. 2011 Sep;18(9):891-7. doi: 10.1038/gt.2011.35. Epub 2011 Mar 31… |
| |
| Adult Mouse and Rat (In vivo) - Liver |
| Zang  et al.Inhibition  of  nuclear  delivery  of  plasmid  DNA  and  transcription  by  interferon  γ: hurdles to be overcome for sustained gene  therapy.Gene  Ther. 2011 Sep;18(9):891-7. doi: 10.1038/gt.2011.35. Epub 2011 Mar 31… |
| |
| Adult Mouse and Rat (In vivo) - Liver |
| Zang  et al.Inhibition  of  nuclear  delivery  of  plasmid  DNA  and  transcription  by  interferon  γ: hurdles to be overcome for sustained gene  therapy.Gene  Ther. 2011 Sep;18(9):891-7. doi: 10.1038/gt.2011.35. Epub 2011 Mar 31… |
| |
| |
| Please also note the following links and attached articles for further information on the NEPA21’s In Ovo capacity. (Please note where a reference is made in the resource material to the CUY21 systems (EDIT or SC), the NEPA21 replaces them and can… |
| |
| NEPA21_Retina_EP |
| Arrangement of electrodes for in vivo electroporation for RPE transfection.(A) Tweezer-type electrodes were placed on the corneal surface of either eye of a 1-month-old Sprague-Dawley rat.(B) The current was applied with the positive electrode contralateral… |
| |
| NEPA21_Retina_EP |
| Arrangement of electrodes for in vivo electroporation for RPE transfection.(A) Tweezer-type electrodes were placed on the corneal surface of either eye of a 1-month-old Sprague-Dawley rat.(B) The current was applied with the positive electrode contralateral… |
| |
| NEPA21_Retina_EP |
| Arrangement of electrodes for in vivo electroporation for RPE transfection.(A) Tweezer-type electrodes were placed on the corneal surface of either eye of a 1-month-old Sprague-Dawley rat.(B) The current was applied with the positive electrode contralateral… |
| |
| NEPA21_Retina_EP |
| Arrangement of electrodes for in vivo electroporation for RPE transfection.(A) Tweezer-type electrodes were placed on the corneal surface of either eye of a 1-month-old Sprague-Dawley rat.(B) The current was applied with the positive electrode contralateral… |
| |
| NEPA21_Retina_EP |
| Arrangement of electrodes for in vivo electroporation for RPE transfection.(A) Tweezer-type electrodes were placed on the corneal surface of either eye of a 1-month-old Sprague-Dawley rat.(B) The current was applied with the positive electrode contralateral… |
| |
| NEPA21_Retina_EP |
| Arrangement of electrodes for in vivo electroporation for RPE transfection.(A) Tweezer-type electrodes were placed on the corneal surface of either eye of a 1-month-old Sprague-Dawley rat.(B) The current was applied with the positive electrode contralateral… |
| |
| Adult Mouse and Rat (In vivo) - Testis, Ovary |
| … |
| |
| Adult Mouse and Rat (In vivo) - Testis, Ovary |
| … |
| |
| NEPA21_Brain_EP_Results |
| … |
| |
| NEPA21_Brain_EP_Results |
| … |
| |
| NEPA21_Brain_EP_Results |
| … |
| |
| Mouse_Rat_In_Vivo_Spinal_Cord_Electroporation |
| … |
| |
| Mouse_Rat_In_Vivo_Spinal_Cord_Electroporation |
| … |
| |
| Mouse_Rat_In_Vivo_Spinal_Cord_Electroporation |
| … |
| |
| Mouse_Rat_In_Vivo_Spinal_Cord_Electroporation |
| … |
| |
| Mouse/Rat Adult – Brain (Cerebellum) |
| Alternatively, one could use the CUY567 electrode. It too is a needle electrodes but it cannot be used to inject plasmid. Accordingly, one must first inject genes into the brain and then insert the needle electrodes into the target where the plasmid… |
| |
| NEPA21_Retina_EP |
| Arrangement of electrodes for in vivo electroporation for RPE transfection.(A) Tweezer-type electrodes were placed on the corneal surface of either eye of a 1-month-old Sprague-Dawley rat.(B) The current was applied with the positive electrode contralateral… |
| |
| NEPA21_Retina_EP |
| Arrangement of electrodes for in vivo electroporation for RPE transfection.(A) Tweezer-type electrodes were placed on the corneal surface of either eye of a 1-month-old Sprague-Dawley rat.(B) The current was applied with the positive electrode contralateral… |
| |
| NEPA21_Retina_EP |
| Arrangement of electrodes for in vivo electroporation for RPE transfection.(A) Tweezer-type electrodes were placed on the corneal surface of either eye of a 1-month-old Sprague-Dawley rat.(B) The current was applied with the positive electrode contralateral… |
| |
| Postnatal_Cerebellum_EP_with_the_CUY699P7x6 |
| … |
| |
| Postnatal_Cerebellum_EP_with_the_CUY699P7x6 |
| However, our preferred and recommended electrode configuration for postnatal cerebellum electroporation does not combine three electrodes in an awkward single unit but instead uses our CUY700PL type-electrodes in combination with the following electrodes… |
| |
| Postnatal_Cerebellum_EP_with_the_CUY699P7x6 |
| However, our preferred and recommended electrode configuration for postnatal cerebellum electroporation does not combine three electrodes in an awkward single unit but instead uses our CUY700PL type-electrodes in combination with the following electrodes… |
| |
| Postnatal_Cerebellum_EP_with_the_CUY699P7x6 |
| However, our preferred and recommended electrode configuration for postnatal cerebellum electroporation does not combine three electrodes in an awkward single unit but instead uses our CUY700PL type-electrodes in combination with the following electrodes… |
| |
| Postnatal_Cerebellum_EP_with_the_CUY699P7x6 |
| However, our preferred and recommended electrode configuration for postnatal cerebellum electroporation does not combine three electrodes in an awkward single unit but instead uses our CUY700PL type-electrodes in combination with the following electrodes… |
| |
| Postnatal_Cerebellum_EP_with_the_CUY699P7x6 |
| However, our preferred and recommended electrode configuration for postnatal cerebellum electroporation does not combine three electrodes in an awkward single unit but instead uses our CUY700PL type-electrodes in combination with the following electrodes… |
| |
| Postnatal_Cerebellum_EP_with_the_CUY699P7x6 |
| However, our preferred and recommended electrode configuration for postnatal cerebellum electroporation does not combine three electrodes in an awkward single unit but instead uses our CUY700PL type-electrodes in combination with the following electrodes… |
| |
| NEPA21_In-Vivo_EP-Cerebellum-Pups_between_3-8_days_old |
| … |
| |
| Postnatal_Cerebellum_EP_with_the_CUY699P7x6 |
| However, our preferred and recommended electrode configuration for postnatal cerebellum electroporation does not combine three electrodes in an awkward single unit but instead uses our CUY700PL type-electrodes in combination with the following electrodes… |
| |
| Postnatal_Cerebellum_EP_with_the_CUY699P7x6 |
| However, our preferred and recommended electrode configuration for postnatal cerebellum electroporation does not combine three electrodes in an awkward single unit but instead uses our CUY700PL type-electrodes in combination with the following electrodes… |
| |
| Postnatal_Cerebellum_EP_with_the_CUY699P7x6 |
| High-performance and reliable site-directed in vivo genetic manipulation of mouse and rat brain by in utero electroporation with a triple-electrode probe, Joanna Szczurkowska, Andrzej W. Cwetsch, Marco dal Maschio, Diego Ghezzi, Gian Michele… |
| |
| Postnatal_Cerebellum_EP_with_the_CUY699P7x6 |
| However, our preferred and recommended electrode configuration for postnatal cerebellum electroporation does not combine three electrodes in an awkward single unit but instead uses our CUY700P_L type-electrodes in combination with the following electrodes… |
| |
| Postnatal_Cerebellum_EP_with_the_CUY699P7x6 |
| However, our preferred and recommended electrode configuration for postnatal cerebellum electroporation does not combine three electrodes in an awkward single unit but instead uses our CUY700PL type-electrodes in combination with the following electrodes… |
| |
| Postnatal_Cerebellum_EP_with_the_CUY699P7x6 |
| However, our preferred and recommended electrode configuration for postnatal cerebellum electroporation does not combine three electrodes in an awkward single unit but instead uses our CUY700PL type-electrodes in combination with the following electrodes… |
| |
| Postnatal_Cerebellum_EP_with_the_CUY699P7x6 |
| However, our preferred and recommended electrode configuration for postnatal cerebellum electroporation does not combine three electrodes in an awkward single unit but instead uses our CUY700P_L type-electrodes in combination with the following electrodes… |
| |
| Postnatal_Cerebellum_EP_with_the_CUY699P7x6 |
| However, our preferred and recommended electrode configuration for postnatal cerebellum electroporation does not combine three electrodes in an awkward single unit but instead uses our CUY700P_L type-electrodes in combination with the following electrodes… |
| |
| Application Support Page - NEPA21 |
| The NEPA21 has been used in dozens of published applications. There are a few important details to manage for this system, so we encourage you to thoroughly review the topics on this page as they relate to your lab’s experiments. If you have any questions… |
| |
| NEPA21 Publications |
| bioRxiv February 25, 2020Margarete Diaz-Cuadros, Daniel E Wagner, Christoph Budjan, Alexis Hubaud, Oscar A Tarazona, Sophia Donelly, Arthur Michaut, Ziad Al Tanoury, Kumiko Yoshioka-Kobayashi, Yusuke Niino, Ryoichiro Kageyama, Atsushi Miyawaki, Jonathan… |
| |
| NEPA21 Publications |
| bioRxiv February 25, 2020Margarete Diaz-Cuadros, Daniel E Wagner, Christoph Budjan, Alexis Hubaud, Oscar A Tarazona, Sophia Donelly, Arthur Michaut, Ziad Al Tanoury, Kumiko Yoshioka-Kobayashi, Yusuke Niino, Ryoichiro Kageyama, Atsushi Miyawaki, Jonathan… |
| |
| NEPA21 Publications |
| bioRxiv February 25, 2020Margarete Diaz-Cuadros, Daniel E Wagner, Christoph Budjan, Alexis Hubaud, Oscar A Tarazona, Sophia Donelly, Arthur Michaut, Ziad Al Tanoury, Kumiko Yoshioka-Kobayashi, Yusuke Niino, Ryoichiro Kageyama, Atsushi Miyawaki, Jonathan… |
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| bioRxiv February 25, 2020Margarete Diaz-Cuadros, Daniel E Wagner, Christoph Budjan, Alexis Hubaud, Oscar A Tarazona, Sophia Donelly, Arthur Michaut, Ziad Al Tanoury, Kumiko Yoshioka-Kobayashi, Yusuke Niino, Ryoichiro Kageyama, Atsushi Miyawaki, Jonathan… |
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| NEPA21 Publications |
| bioRxiv February 25, 2020Margarete Diaz-Cuadros, Daniel E Wagner, Christoph Budjan, Alexis Hubaud, Oscar A Tarazona, Sophia Donelly, Arthur Michaut, Ziad Al Tanoury, Kumiko Yoshioka-Kobayashi, Yusuke Niino, Ryoichiro Kageyama, Atsushi Miyawaki, Jonathan… |
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| bioRxiv February 25, 2020Margarete Diaz-Cuadros, Daniel E Wagner, Christoph Budjan, Alexis Hubaud, Oscar A Tarazona, Sophia Donelly, Arthur Michaut, Ziad Al Tanoury, Kumiko Yoshioka-Kobayashi, Yusuke Niino, Ryoichiro Kageyama, Atsushi Miyawaki, Jonathan… |
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| NEPA21 Publications |
| bioRxiv February 25, 2020Margarete Diaz-Cuadros, Daniel E Wagner, Christoph Budjan, Alexis Hubaud, Oscar A Tarazona, Sophia Donelly, Arthur Michaut, Ziad Al Tanoury, Kumiko Yoshioka-Kobayashi, Yusuke Niino, Ryoichiro Kageyama, Atsushi Miyawaki, Jonathan… |
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| NEPA21 Publications |
| bioRxiv February 25, 2020Margarete Diaz-Cuadros, Daniel E Wagner, Christoph Budjan, Alexis Hubaud, Oscar A Tarazona, Sophia Donelly, Arthur Michaut, Ziad Al Tanoury, Kumiko Yoshioka-Kobayashi, Yusuke Niino, Ryoichiro Kageyama, Atsushi Miyawaki, Jonathan… |
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| NEPA21 Publications |
| bioRxiv February 25, 2020Margarete Diaz-Cuadros, Daniel E Wagner, Christoph Budjan, Alexis Hubaud, Oscar A Tarazona, Sophia Donelly, Arthur Michaut, Ziad Al Tanoury, Kumiko Yoshioka-Kobayashi, Yusuke Niino, Ryoichiro Kageyama, Atsushi Miyawaki, Jonathan… |
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| NEPA21 Publications |
| bioRxiv February 25, 2020Margarete Diaz-Cuadros, Daniel E Wagner, Christoph Budjan, Alexis Hubaud, Oscar A Tarazona, Sophia Donelly, Arthur Michaut, Ziad Al Tanoury, Kumiko Yoshioka-Kobayashi, Yusuke Niino, Ryoichiro Kageyama, Atsushi Miyawaki, Jonathan… |
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| NEPA21 Publications |
| Margarete Diaz-Cuadros, Daniel E Wagner, Christoph Budjan, Alexis Hubaud, Oscar A Tarazona, Sophia Donelly, Arthur Michaut, Ziad Al Tanoury, Kumiko Yoshioka-Kobayashi, Yusuke Niino, Ryoichiro Kageyama, Atsushi Miyawaki, Jonathan Touboul, Olivier Pourqui… |
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| NEPA21 Publications |
| bioRxiv February 25, 2020Margarete Diaz-Cuadros, Daniel E Wagner, Christoph Budjan, Alexis Hubaud, Oscar A Tarazona, Sophia Donelly, Arthur Michaut, Ziad Al Tanoury, Kumiko Yoshioka-Kobayashi, Yusuke Niino, Ryoichiro Kageyama, Atsushi Miyawaki, Jonathan… |
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| NEPA21 Publications |
| bioRxiv February 25, 2020Margarete Diaz-Cuadros, Daniel E Wagner, Christoph Budjan, Alexis Hubaud, Oscar A Tarazona, Sophia Donelly, Arthur Michaut, Ziad Al Tanoury, Kumiko Yoshioka-Kobayashi, Yusuke Niino, Ryoichiro Kageyama, Atsushi Miyawaki, Jonathan… |
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| NEPA21 Publications |
| bioRxiv February 25, 2020Margarete Diaz-Cuadros, Daniel E Wagner, Christoph Budjan, Alexis Hubaud, Oscar A Tarazona, Sophia Donelly, Arthur Michaut, Ziad Al Tanoury, Kumiko Yoshioka-Kobayashi, Yusuke Niino, Ryoichiro Kageyama, Atsushi Miyawaki, Jonathan… |
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| NEPA21 Publications |
| bioRxiv February 25, 2020Margarete Diaz-Cuadros, Daniel E Wagner, Christoph Budjan, Alexis Hubaud, Oscar A Tarazona, Sophia Donelly, Arthur Michaut, Ziad Al Tanoury, Kumiko Yoshioka-Kobayashi, Yusuke Niino, Ryoichiro Kageyama, Atsushi Miyawaki, Jonathan… |
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| NEPA21 Publications |
| bioRxiv February 25, 2020Margarete Diaz-Cuadros, Daniel E Wagner, Christoph Budjan, Alexis Hubaud, Oscar A Tarazona, Sophia Donelly, Arthur Michaut, Ziad Al Tanoury, Kumiko Yoshioka-Kobayashi, Yusuke Niino, Ryoichiro Kageyama, Atsushi Miyawaki, Jonathan… |
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| bioRxiv February 25, 2020Margarete Diaz-Cuadros, Daniel E Wagner, Christoph Budjan, Alexis Hubaud, Oscar A Tarazona, Sophia Donelly, Arthur Michaut, Ziad Al Tanoury, Kumiko Yoshioka-Kobayashi, Yusuke Niino, Ryoichiro Kageyama, Atsushi Miyawaki, Jonathan… |
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| bioRxiv February 25, 2020Margarete Diaz-Cuadros, Daniel E Wagner, Christoph Budjan, Alexis Hubaud, Oscar A Tarazona, Sophia Donelly, Arthur Michaut, Ziad Al Tanoury, Kumiko Yoshioka-Kobayashi, Yusuke Niino, Ryoichiro Kageyama, Atsushi Miyawaki, Jonathan… |
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| bioRxiv February 25, 2020Margarete Diaz-Cuadros, Daniel E Wagner, Christoph Budjan, Alexis Hubaud, Oscar A Tarazona, Sophia Donelly, Arthur Michaut, Ziad Al Tanoury, Kumiko Yoshioka-Kobayashi, Yusuke Niino, Ryoichiro Kageyama, Atsushi Miyawaki, Jonathan… |
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| bioRxiv February 25, 2020Margarete Diaz-Cuadros, Daniel E Wagner, Christoph Budjan, Alexis Hubaud, Oscar A Tarazona, Sophia Donelly, Arthur Michaut, Ziad Al Tanoury, Kumiko Yoshioka-Kobayashi, Yusuke Niino, Ryoichiro Kageyama, Atsushi Miyawaki, Jonathan… |
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| bioRxiv February 25, 2020Margarete Diaz-Cuadros, Daniel E Wagner, Christoph Budjan, Alexis Hubaud, Oscar A Tarazona, Sophia Donelly, Arthur Michaut, Ziad Al Tanoury, Kumiko Yoshioka-Kobayashi, Yusuke Niino, Ryoichiro Kageyama, Atsushi Miyawaki, Jonathan… |
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| NEPA21 Publications |
| bioRxiv February 25, 2020Margarete Diaz-Cuadros, Daniel E Wagner, Christoph Budjan, Alexis Hubaud, Oscar A Tarazona, Sophia Donelly, Arthur Michaut, Ziad Al Tanoury, Kumiko Yoshioka-Kobayashi, Yusuke Niino, Ryoichiro Kageyama, Atsushi Miyawaki, Jonathan… |
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| NEPA21 Publications |
| bioRxiv February 25, 2020Margarete Diaz-Cuadros, Daniel E Wagner, Christoph Budjan, Alexis Hubaud, Oscar A Tarazona, Sophia Donelly, Arthur Michaut, Ziad Al Tanoury, Kumiko Yoshioka-Kobayashi, Yusuke Niino, Ryoichiro Kageyama, Atsushi Miyawaki, Jonathan… |
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| {"id":"4210","field_id":23,"fields":{"9":{"id":"9","type":"name","label":"Name","format":"first-last","description":"","required":"1","size":"medium","simple_placeholder":"","simple_default":"","first_placeholder":"","first_default":"","middle_placeholder… |
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| NEPA21 Publications |
| bioRxiv February 25, 2020Margarete Diaz-Cuadros, Daniel E Wagner, Christoph Budjan, Alexis Hubaud, Oscar A Tarazona, Sophia Donelly, Arthur Michaut, Ziad Al Tanoury, Kumiko Yoshioka-Kobayashi, Yusuke Niino, Ryoichiro Kageyama, Atsushi Miyawaki, Jonathan… |
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| NEPA21 Publications |
| bioRxiv February 25, 2020Margarete Diaz-Cuadros, Daniel E Wagner, Christoph Budjan, Alexis Hubaud, Oscar A Tarazona, Sophia Donelly, Arthur Michaut, Ziad Al Tanoury, Kumiko Yoshioka-Kobayashi, Yusuke Niino, Ryoichiro Kageyama, Atsushi Miyawaki, Jonathan… |
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| NEPA21 Publications |
| Margarete Diaz-Cuadros, Daniel E Wagner, Christoph Budjan, Alexis Hubaud, Oscar A Tarazona, Sophia Donelly, Arthur Michaut, Ziad Al Tanoury, Kumiko Yoshioka-Kobayashi, Yusuke Niino, Ryoichiro Kageyama, Atsushi Miyawaki, Jonathan Touboul, Olivier Pourqui… |
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| NEPA21 Publications |
| Margarete Diaz-Cuadros, Daniel E Wagner, Christoph Budjan, Alexis Hubaud, Oscar A Tarazona, Sophia Donelly, Arthur Michaut, Ziad Al Tanoury, Kumiko Yoshioka-Kobayashi, Yusuke Niino, Ryoichiro Kageyama, Atsushi Miyawaki, Jonathan Touboul, Olivier Pourqui… |
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| NEPA21 Publications |
| bioRxiv February 25, 2020Margarete Diaz-Cuadros, Daniel E Wagner, Christoph Budjan, Alexis Hubaud, Oscar A Tarazona, Sophia Donelly, Arthur Michaut, Ziad Al Tanoury, Kumiko Yoshioka-Kobayashi, Yusuke Niino, Ryoichiro Kageyama, Atsushi Miyawaki, Jonathan… |
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| NEPA21 Publications |
| Margarete Diaz-Cuadros, Daniel E Wagner, Christoph Budjan, Alexis Hubaud, Oscar A Tarazona, Sophia Donelly, Arthur Michaut, Ziad Al Tanoury, Kumiko Yoshioka-Kobayashi, Yusuke Niino, Ryoichiro Kageyama, Atsushi Miyawaki, Jonathan Touboul, Olivier Pourqui… |
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| NEPA21 Publications |
| bioRxiv February 25, 2020Margarete Diaz-Cuadros, Daniel E Wagner, Christoph Budjan, Alexis Hubaud, Oscar A Tarazona, Sophia Donelly, Arthur Michaut, Ziad Al Tanoury, Kumiko Yoshioka-Kobayashi, Yusuke Niino, Ryoichiro Kageyama, Atsushi Miyawaki, Jonathan… |
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| NEPA21 Publications |
| Margarete Diaz-Cuadros, Daniel E Wagner, Christoph Budjan, Alexis Hubaud, Oscar A Tarazona, Sophia Donelly, Arthur Michaut, Ziad Al Tanoury, Kumiko Yoshioka-Kobayashi, Yusuke Niino, Ryoichiro Kageyama, Atsushi Miyawaki, Jonathan Touboul, Olivier Pourqui… |
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| NEPA21 Publications |
| Margarete Diaz-Cuadros, Daniel E Wagner, Christoph Budjan, Alexis Hubaud, Oscar A Tarazona, Sophia Donelly, Arthur Michaut, Ziad Al Tanoury, Kumiko Yoshioka-Kobayashi, Yusuke Niino, Ryoichiro Kageyama, Atsushi Miyawaki, Jonathan Touboul, Olivier Pourqui… |
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| NEPA21 Publications |
| bioRxiv February 25, 2020Margarete Diaz-Cuadros, Daniel E Wagner, Christoph Budjan, Alexis Hubaud, Oscar A Tarazona, Sophia Donelly, Arthur Michaut, Ziad Al Tanoury, Kumiko Yoshioka-Kobayashi, Yusuke Niino, Ryoichiro Kageyama, Atsushi Miyawaki, Jonathan… |
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| NEPA21 Publications |
| bioRxiv February 25, 2020Margarete Diaz-Cuadros, Daniel E Wagner, Christoph Budjan, Alexis Hubaud, Oscar A Tarazona, Sophia Donelly, Arthur Michaut, Ziad Al Tanoury, Kumiko Yoshioka-Kobayashi, Yusuke Niino, Ryoichiro Kageyama, Atsushi Miyawaki, Jonathan… |
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| NEPA21 Publications |
| Margarete Diaz-Cuadros, Daniel E Wagner, Christoph Budjan, Alexis Hubaud, Oscar A Tarazona, Sophia Donelly, Arthur Michaut, Ziad Al Tanoury, Kumiko Yoshioka-Kobayashi, Yusuke Niino, Ryoichiro Kageyama, Atsushi Miyawaki, Jonathan Touboul, Olivier Pourqui… |
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| NEPA21 Publications |
| bioRxiv February 25, 2020Margarete Diaz-Cuadros, Daniel E Wagner, Christoph Budjan, Alexis Hubaud, Oscar A Tarazona, Sophia Donelly, Arthur Michaut, Ziad Al Tanoury, Kumiko Yoshioka-Kobayashi, Yusuke Niino, Ryoichiro Kageyama, Atsushi Miyawaki, Jonathan… |
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| NEPA21 Publications |
| Margarete Diaz-Cuadros, Daniel E Wagner, Christoph Budjan, Alexis Hubaud, Oscar A Tarazona, Sophia Donelly, Arthur Michaut, Ziad Al Tanoury, Kumiko Yoshioka-Kobayashi, Yusuke Niino, Ryoichiro Kageyama, Atsushi Miyawaki, Jonathan Touboul, Olivier Pourqui… |
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| NEPA21 Publications |
| bioRxiv February 25, 2020Margarete Diaz-Cuadros, Daniel E Wagner, Christoph Budjan, Alexis Hubaud, Oscar A Tarazona, Sophia Donelly, Arthur Michaut, Ziad Al Tanoury, Kumiko Yoshioka-Kobayashi, Yusuke Niino, Ryoichiro Kageyama, Atsushi Miyawaki, Jonathan… |
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| NEPA21 Publications |
| bioRxiv February 25, 2020Margarete Diaz-Cuadros, Daniel E Wagner, Christoph Budjan, Alexis Hubaud, Oscar A Tarazona, Sophia Donelly, Arthur Michaut, Ziad Al Tanoury, Kumiko Yoshioka-Kobayashi, Yusuke Niino, Ryoichiro Kageyama, Atsushi Miyawaki, Jonathan… |
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| NEPA21 Publications |
| bioRxiv February 25, 2020Margarete Diaz-Cuadros, Daniel E Wagner, Christoph Budjan, Alexis Hubaud, Oscar A Tarazona, Sophia Donelly, Arthur Michaut, Ziad Al Tanoury, Kumiko Yoshioka-Kobayashi, Yusuke Niino, Ryoichiro Kageyama, Atsushi Miyawaki, Jonathan… |
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| NEPA21 Publications |
| bioRxiv February 25, 2020Margarete Diaz-Cuadros, Daniel E Wagner, Christoph Budjan, Alexis Hubaud, Oscar A Tarazona, Sophia Donelly, Arthur Michaut, Ziad Al Tanoury, Kumiko Yoshioka-Kobayashi, Yusuke Niino, Ryoichiro Kageyama, Atsushi Miyawaki, Jonathan… |
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| NEPA21 Publications |
| Margarete Diaz-Cuadros, Daniel E Wagner, Christoph Budjan, Alexis Hubaud, Oscar A Tarazona, Sophia Donelly, Arthur Michaut, Ziad Al Tanoury, Kumiko Yoshioka-Kobayashi, Yusuke Niino, Ryoichiro Kageyama, Atsushi Miyawaki, Jonathan Touboul, Olivier Pourqui… |
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| NEPA21 Publications |
| bioRxiv February 25, 2020Margarete Diaz-Cuadros, Daniel E Wagner, Christoph Budjan, Alexis Hubaud, Oscar A Tarazona, Sophia Donelly, Arthur Michaut, Ziad Al Tanoury, Kumiko Yoshioka-Kobayashi, Yusuke Niino, Ryoichiro Kageyama, Atsushi Miyawaki, Jonathan… |
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| NEPA21 Publications |
| Margarete Diaz-Cuadros, Daniel E Wagner, Christoph Budjan, Alexis Hubaud, Oscar A Tarazona, Sophia Donelly, Arthur Michaut, Ziad Al Tanoury, Kumiko Yoshioka-Kobayashi, Yusuke Niino, Ryoichiro Kageyama, Atsushi Miyawaki, Jonathan Touboul, Olivier Pourqui… |
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| NEPA21 Publications |
| Margarete Diaz-Cuadros, Daniel E Wagner, Christoph Budjan, Alexis Hubaud, Oscar A Tarazona, Sophia Donelly, Arthur Michaut, Ziad Al Tanoury, Kumiko Yoshioka-Kobayashi, Yusuke Niino, Ryoichiro Kageyama, Atsushi Miyawaki, Jonathan Touboul, Olivier Pourqui… |
| |
| NEPA21 Publications |
| Margarete Diaz-Cuadros, Daniel E Wagner, Christoph Budjan, Alexis Hubaud, Oscar A Tarazona, Sophia Donelly, Arthur Michaut, Ziad Al Tanoury, Kumiko Yoshioka-Kobayashi, Yusuke Niino, Ryoichiro Kageyama, Atsushi Miyawaki, Jonathan Touboul, Olivier Pourqui… |
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| NEPA21 Publications |
| Margarete Diaz-Cuadros, Daniel E Wagner, Christoph Budjan, Alexis Hubaud, Oscar A Tarazona, Sophia Donelly, Arthur Michaut, Ziad Al Tanoury, Kumiko Yoshioka-Kobayashi, Yusuke Niino, Ryoichiro Kageyama, Atsushi Miyawaki, Jonathan Touboul, Olivier Pourqui… |
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| NEPA21 Publications |
| Margarete Diaz-Cuadros, Daniel E Wagner, Christoph Budjan, Alexis Hubaud, Oscar A Tarazona, Sophia Donelly, Arthur Michaut, Ziad Al Tanoury, Kumiko Yoshioka-Kobayashi, Yusuke Niino, Ryoichiro Kageyama, Atsushi Miyawaki, Jonathan Touboul, Olivier Pourqui… |
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| NEPA21 Publications |
| Margarete Diaz-Cuadros, Daniel E Wagner, Christoph Budjan, Alexis Hubaud, Oscar A Tarazona, Sophia Donelly, Arthur Michaut, Ziad Al Tanoury, Kumiko Yoshioka-Kobayashi, Yusuke Niino, Ryoichiro Kageyama, Atsushi Miyawaki, Jonathan Touboul, Olivier Pourqui… |
| |
| NEPA21 Publications |
| Margarete Diaz-Cuadros, Daniel E Wagner, Christoph Budjan, Alexis Hubaud, Oscar A Tarazona, Sophia Donelly, Arthur Michaut, Ziad Al Tanoury, Kumiko Yoshioka-Kobayashi, Yusuke Niino, Ryoichiro Kageyama, Atsushi Miyawaki, Jonathan Touboul, Olivier Pourqui… |
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| NEPA21 Publications |
| Margarete Diaz-Cuadros, Daniel E Wagner, Christoph Budjan, Alexis Hubaud, Oscar A Tarazona, Sophia Donelly, Arthur Michaut, Ziad Al Tanoury, Kumiko Yoshioka-Kobayashi, Yusuke Niino, Ryoichiro Kageyama, Atsushi Miyawaki, Jonathan Touboul, Olivier Pourqui… |
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| NEPA21 Publications |
| bioRxiv February 25, 2020Margarete Diaz-Cuadros, Daniel E Wagner, Christoph Budjan, Alexis Hubaud, Oscar A Tarazona, Sophia Donelly, Arthur Michaut, Ziad Al Tanoury, Kumiko Yoshioka-Kobayashi, Yusuke Niino, Ryoichiro Kageyama, Atsushi Miyawaki, Jonathan… |
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| NEPA21 Publications |
| Margarete Diaz-Cuadros, Daniel E Wagner, Christoph Budjan, Alexis Hubaud, Oscar A Tarazona, Sophia Donelly, Arthur Michaut, Ziad Al Tanoury, Kumiko Yoshioka-Kobayashi, Yusuke Niino, Ryoichiro Kageyama, Atsushi Miyawaki, Jonathan Touboul, Olivier Pourqui… |
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| NEPA21 Publications |
| Margarete Diaz-Cuadros, Daniel E Wagner, Christoph Budjan, Alexis Hubaud, Oscar A Tarazona, Sophia Donelly, Arthur Michaut, Ziad Al Tanoury, Kumiko Yoshioka-Kobayashi, Yusuke Niino, Ryoichiro Kageyama, Atsushi Miyawaki, Jonathan Touboul, Olivier Pourqui… |
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| NEPA21 Publications |
| Margarete Diaz-Cuadros, Daniel E Wagner, Christoph Budjan, Alexis Hubaud, Oscar A Tarazona, Sophia Donelly, Arthur Michaut, Ziad Al Tanoury, Kumiko Yoshioka-Kobayashi, Yusuke Niino, Ryoichiro Kageyama, Atsushi Miyawaki, Jonathan Touboul, Olivier Pourqui… |
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| NEPA21 Publications |
| Margarete Diaz-Cuadros, Daniel E Wagner, Christoph Budjan, Alexis Hubaud, Oscar A Tarazona, Sophia Donelly, Arthur Michaut, Ziad Al Tanoury, Kumiko Yoshioka-Kobayashi, Yusuke Niino, Ryoichiro Kageyama, Atsushi Miyawaki, Jonathan Touboul, Olivier Pourqui… |
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| NEPA21 Publications |
| Margarete Diaz-Cuadros, Daniel E Wagner, Christoph Budjan, Alexis Hubaud, Oscar A Tarazona, Sophia Donelly, Arthur Michaut, Ziad Al Tanoury, Kumiko Yoshioka-Kobayashi, Yusuke Niino, Ryoichiro Kageyama, Atsushi Miyawaki, Jonathan Touboul, Olivier Pourqui… |
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| NEPA21 Publications |
| Margarete Diaz-Cuadros, Daniel E Wagner, Christoph Budjan, Alexis Hubaud, Oscar A Tarazona, Sophia Donelly, Arthur Michaut, Ziad Al Tanoury, Kumiko Yoshioka-Kobayashi, Yusuke Niino, Ryoichiro Kageyama, Atsushi Miyawaki, Jonathan Touboul, Olivier Pourqui… |
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| NEPA21 Publications |
| Margarete Diaz-Cuadros, Daniel E Wagner, Christoph Budjan, Alexis Hubaud, Oscar A Tarazona, Sophia Donelly, Arthur Michaut, Ziad Al Tanoury, Kumiko Yoshioka-Kobayashi, Yusuke Niino, Ryoichiro Kageyama, Atsushi Miyawaki, Jonathan Touboul, Olivier Pourqui… |
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| NEPA21 Publications |
| Margarete Diaz-Cuadros, Daniel E Wagner, Christoph Budjan, Alexis Hubaud, Oscar A Tarazona, Sophia Donelly, Arthur Michaut, Ziad Al Tanoury, Kumiko Yoshioka-Kobayashi, Yusuke Niino, Ryoichiro Kageyama, Atsushi Miyawaki, Jonathan Touboul, Olivier Pourqui… |
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| NEPA21 Publications |
| Margarete Diaz-Cuadros, Daniel E Wagner, Christoph Budjan, Alexis Hubaud, Oscar A Tarazona, Sophia Donelly, Arthur Michaut, Ziad Al Tanoury, Kumiko Yoshioka-Kobayashi, Yusuke Niino, Ryoichiro Kageyama, Atsushi Miyawaki, Jonathan Touboul, Olivier Pourqui… |
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| NEPA21 Publications |
| bioRxiv February 25, 2020Margarete Diaz-Cuadros, Daniel E Wagner, Christoph Budjan, Alexis Hubaud, Oscar A Tarazona, Sophia Donelly, Arthur Michaut, Ziad Al Tanoury, Kumiko Yoshioka-Kobayashi, Yusuke Niino, Ryoichiro Kageyama, Atsushi Miyawaki, Jonathan… |
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| NEPA21_Retina_EP |
| (B) The current was applied with the positive electrode contralateral to the injected eye. After prior injection of plasmid DNA into the subretinal space of the right eye, this arrangement electrophoresed the negatively-charged DNA toward the RPE layer… |
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| NEPA21_Retina_EP |
| (B) The current was applied with the positive electrode contralateral to the injected eye. After prior injection of plasmid DNA into the subretinal space of the right eye, this arrangement electrophoresed the negatively-charged DNA toward the RPE layer… |
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| NEPA21_Retina_EP |
| (B) The current was applied with the positive electrode contralateral to the injected eye. After prior injection of plasmid DNA into the subretinal space of the right eye, this arrangement electrophoresed the negatively-charged DNA toward the RPE layer… |
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| NEPA21 Publications |
| bioRxiv February 25, 2020Margarete Diaz-Cuadros, Daniel E Wagner, Christoph Budjan, Alexis Hubaud, Oscar A Tarazona, Sophia Donelly, Arthur Michaut, Ziad Al Tanoury, Kumiko Yoshioka-Kobayashi, Yusuke Niino, Ryoichiro Kageyama, Atsushi Miyawaki, Jonathan… |
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| NEPA21 Publications |
| Margarete Diaz-Cuadros, Daniel E Wagner, Christoph Budjan, Alexis Hubaud, Oscar A Tarazona, Sophia Donelly, Arthur Michaut, Ziad Al Tanoury, Kumiko Yoshioka-Kobayashi, Yusuke Niino, Ryoichiro Kageyama, Atsushi Miyawaki, Jonathan Touboul, Olivier Pourqui… |
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| NEPA21 Publications |
| Margarete Diaz-Cuadros, Daniel E Wagner, Christoph Budjan, Alexis Hubaud, Oscar A Tarazona, Sophia Donelly, Arthur Michaut, Ziad Al Tanoury, Kumiko Yoshioka-Kobayashi, Yusuke Niino, Ryoichiro Kageyama, Atsushi Miyawaki, Jonathan Touboul, Olivier Pourqui… |
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| NEPA21 Publications |
| Margarete Diaz-Cuadros, Daniel E Wagner, Christoph Budjan, Alexis Hubaud, Oscar A Tarazona, Sophia Donelly, Arthur Michaut, Ziad Al Tanoury, Kumiko Yoshioka-Kobayashi, Yusuke Niino, Ryoichiro Kageyama, Atsushi Miyawaki, Jonathan Touboul, Olivier Pourqui… |
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| NEPA21 Publications |
| Margarete Diaz-Cuadros, Daniel E Wagner, Christoph Budjan, Alexis Hubaud, Oscar A Tarazona, Sophia Donelly, Arthur Michaut, Ziad Al Tanoury, Kumiko Yoshioka-Kobayashi, Yusuke Niino, Ryoichiro Kageyama, Atsushi Miyawaki, Jonathan Touboul, Olivier Pourqui… |
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| NEPA21 / CUY21 Illustrated Applications |
| A 2 cm midline incision is then made in the abdominal wall along the linea alba using a set of forceps and scissors. A piece of sterile gauze with a hole cut in the center is placed over the incision, and one uterine horn is drawn out through the hole… |
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| Application Support Page - NEPA21 |
| The NEPA21 has been used in dozens of published applications. There are a few important details to manage for this system, so we encourage you to thoroughly review the topics on this page as they relate to your lab’s experiments. If you have any questions… |
| |
| Application Support Page - NEPA21 |
| The NEPA21 has been used in dozens of published applications. There are a few important details to manage for this system, so we encourage you to thoroughly review the topics on this page as they relate to your lab’s experiments. If you have any questions… |
| |
| Application Support Page - NEPA21 |
| The NEPA21 has been used in dozens of published applications. There are a few important details to manage for this system, so we encourage you to thoroughly review the topics on this page as they relate to your lab’s experiments. If you have any questions… |
| |
| Application Support Page - NEPA21 |
| The NEPA21 has been used in dozens of published applications. There are a few important details to manage for this system, so we encourage you to thoroughly review the topics on this page as they relate to your lab’s experiments. If you have any questions… |
| |
| Application Support Page - NEPA21 |
| The NEPA21 has been used in dozens of published applications. There are a few important details to manage for this system, so we encourage you to thoroughly review the topics on this page as they relate to your lab’s experiments. If you have any questions… |
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| Hints and Tips iGONAD Procedure |
| Recent progress in of the CRISPR/Cas9 system has been shown to be an efficient gene-editing technology in various organisms. We recently developed a novel method called Genome-editing via Oviductal Nucleic Acids Delivery (GONAD); a novel in vivo genome… |
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| Hints and Tips iGONAD Procedure |
| Recent progress in of the CRISPR/Cas9 system has been shown to be an efficient gene-editing technology in various organisms. We recently developed a novel method called Genome-editing via Oviductal Nucleic Acids Delivery (GONAD); a novel in vivo genome… |
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| Hints and Tips iGONAD Procedure |
| Recent progress in of the CRISPR/Cas9 system has been shown to be an efficient gene-editing technology in various organisms. We recently developed a novel method called Genome-editing via Oviductal Nucleic Acids Delivery (GONAD); a novel in vivo genome… |
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| NEPA21 Publications |
| bioRxiv February 25, 2020Margarete Diaz-Cuadros, Daniel E Wagner, Christoph Budjan, Alexis Hubaud, Oscar A Tarazona, Sophia Donelly, Arthur Michaut, Ziad Al Tanoury, Kumiko Yoshioka-Kobayashi, Yusuke Niino, Ryoichiro Kageyama, Atsushi Miyawaki, Jonathan… |
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| NEPA21 Publications |
| bioRxiv February 25, 2020Margarete Diaz-Cuadros, Daniel E Wagner, Christoph Budjan, Alexis Hubaud, Oscar A Tarazona, Sophia Donelly, Arthur Michaut, Ziad Al Tanoury, Kumiko Yoshioka-Kobayashi, Yusuke Niino, Ryoichiro Kageyama, Atsushi Miyawaki, Jonathan… |
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| NEPA21 Publications |
| bioRxiv February 25, 2020Margarete Diaz-Cuadros, Daniel E Wagner, Christoph Budjan, Alexis Hubaud, Oscar A Tarazona, Sophia Donelly, Arthur Michaut, Ziad Al Tanoury, Kumiko Yoshioka-Kobayashi, Yusuke Niino, Ryoichiro Kageyama, Atsushi Miyawaki, Jonathan… |
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| NEPA21 Publications |
| bioRxiv February 25, 2020Margarete Diaz-Cuadros, Daniel E Wagner, Christoph Budjan, Alexis Hubaud, Oscar A Tarazona, Sophia Donelly, Arthur Michaut, Ziad Al Tanoury, Kumiko Yoshioka-Kobayashi, Yusuke Niino, Ryoichiro Kageyama, Atsushi Miyawaki, Jonathan… |
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| NEPA21 Publications |
| bioRxiv February 25, 2020Margarete Diaz-Cuadros, Daniel E Wagner, Christoph Budjan, Alexis Hubaud, Oscar A Tarazona, Sophia Donelly, Arthur Michaut, Ziad Al Tanoury, Kumiko Yoshioka-Kobayashi, Yusuke Niino, Ryoichiro Kageyama, Atsushi Miyawaki, Jonathan… |
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| NEPA21 Publications |
| Margarete Diaz-Cuadros, Daniel E Wagner, Christoph Budjan, Alexis Hubaud, Oscar A Tarazona, Sophia Donelly, Arthur Michaut, Ziad Al Tanoury, Kumiko Yoshioka-Kobayashi, Yusuke Niino, Ryoichiro Kageyama, Atsushi Miyawaki, Jonathan Touboul, Olivier Pourqui… |
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| NEPA21 Publications |
| Margarete Diaz-Cuadros, Daniel E Wagner, Christoph Budjan, Alexis Hubaud, Oscar A Tarazona, Sophia Donelly, Arthur Michaut, Ziad Al Tanoury, Kumiko Yoshioka-Kobayashi, Yusuke Niino, Ryoichiro Kageyama, Atsushi Miyawaki, Jonathan Touboul, Olivier Pourqui… |
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| NEPA21 Publications |
| Margarete Diaz-Cuadros, Daniel E Wagner, Christoph Budjan, Alexis Hubaud, Oscar A Tarazona, Sophia Donelly, Arthur Michaut, Ziad Al Tanoury, Kumiko Yoshioka-Kobayashi, Yusuke Niino, Ryoichiro Kageyama, Atsushi Miyawaki, Jonathan Touboul, Olivier Pourqui… |
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| NEPA21 Publications |
| Margarete Diaz-Cuadros, Daniel E Wagner, Christoph Budjan, Alexis Hubaud, Oscar A Tarazona, Sophia Donelly, Arthur Michaut, Ziad Al Tanoury, Kumiko Yoshioka-Kobayashi, Yusuke Niino, Ryoichiro Kageyama, Atsushi Miyawaki, Jonathan Touboul, Olivier Pourqui… |
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| NEPA21_Retina_EP |
| (B) The current was applied with the positive electrode contralateral to the injected eye. After prior injection of plasmid DNA into the subretinal space of the right eye, this arrangement electrophoresed the negatively-charged DNA toward the RPE layer… |
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| NEPA21_Retina_EP |
| (B) The current was applied with the positive electrode contralateral to the injected eye. After prior injection of plasmid DNA into the subretinal space of the right eye, this arrangement electrophoresed the negatively-charged DNA toward the RPE layer… |
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| NEPA21 Publications |
| bioRxiv February 25, 2020Margarete Diaz-Cuadros, Daniel E Wagner, Christoph Budjan, Alexis Hubaud, Oscar A Tarazona, Sophia Donelly, Arthur Michaut, Ziad Al Tanoury, Kumiko Yoshioka-Kobayashi, Yusuke Niino, Ryoichiro Kageyama, Atsushi Miyawaki, Jonathan… |
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| NEPA21 Publications |
| Peter Gee, Mandy S Y Lung, Yuya Okuzaki, Noriko Sasakawa, Takahiro Iguchi, Yukimasa Makita, Hiroyuki Hozumi, Yasutomo Miura, Lucy F Yang, Mio Iwasaki, Xiou H Wang, Matthew A Waller, Nanako Shirai, Yasuko O Abe, Yoko Fujita, Kei Watanabe, Akihiro Kagita… |
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| NEPA21 Publications |
| Peter Gee, Mandy S Y Lung, Yuya Okuzaki, Noriko Sasakawa, Takahiro Iguchi, Yukimasa Makita, Hiroyuki Hozumi, Yasutomo Miura, Lucy F Yang, Mio Iwasaki, Xiou H Wang, Matthew A Waller, Nanako Shirai, Yasuko O Abe, Yoko Fujita, Kei Watanabe, Akihiro Kagita… |
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| NEPA21 Publications |
| Peter Gee, Mandy S Y Lung, Yuya Okuzaki, Noriko Sasakawa, Takahiro Iguchi, Yukimasa Makita, Hiroyuki Hozumi, Yasutomo Miura, Lucy F Yang, Mio Iwasaki, Xiou H Wang, Matthew A Waller, Nanako Shirai, Yasuko O Abe, Yoko Fujita, Kei Watanabe, Akihiro Kagita… |
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| NEPA21 Publications |
| Peter Gee, Mandy S Y Lung, Yuya Okuzaki, Noriko Sasakawa, Takahiro Iguchi, Yukimasa Makita, Hiroyuki Hozumi, Yasutomo Miura, Lucy F Yang, Mio Iwasaki, Xiou H Wang, Matthew A Waller, Nanako Shirai, Yasuko O Abe, Yoko Fujita, Kei Watanabe, Akihiro Kagita… |
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| NEPA21 Publications |
| Peter Gee, Mandy S Y Lung, Yuya Okuzaki, Noriko Sasakawa, Takahiro Iguchi, Yukimasa Makita, Hiroyuki Hozumi, Yasutomo Miura, Lucy F Yang, Mio Iwasaki, Xiou H Wang, Matthew A Waller, Nanako Shirai, Yasuko O Abe, Yoko Fujita, Kei Watanabe, Akihiro Kagita… |
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| NEPA21 Publications |
| Peter Gee, Mandy S Y Lung, Yuya Okuzaki, Noriko Sasakawa, Takahiro Iguchi, Yukimasa Makita, Hiroyuki Hozumi, Yasutomo Miura, Lucy F Yang, Mio Iwasaki, Xiou H Wang, Matthew A Waller, Nanako Shirai, Yasuko O Abe, Yoko Fujita, Kei Watanabe, Akihiro Kagita… |
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| NEPA21 Publications |
| Peter Gee, Mandy S Y Lung, Yuya Okuzaki, Noriko Sasakawa, Takahiro Iguchi, Yukimasa Makita, Hiroyuki Hozumi, Yasutomo Miura, Lucy F Yang, Mio Iwasaki, Xiou H Wang, Matthew A Waller, Nanako Shirai, Yasuko O Abe, Yoko Fujita, Kei Watanabe, Akihiro Kagita… |
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| NEPA21 Publications |
| Peter Gee, Mandy S Y Lung, Yuya Okuzaki, Noriko Sasakawa, Takahiro Iguchi, Yukimasa Makita, Hiroyuki Hozumi, Yasutomo Miura, Lucy F Yang, Mio Iwasaki, Xiou H Wang, Matthew A Waller, Nanako Shirai, Yasuko O Abe, Yoko Fujita, Kei Watanabe, Akihiro Kagita… |
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| NEPA21 Publications |
| Peter Gee, Mandy S Y Lung, Yuya Okuzaki, Noriko Sasakawa, Takahiro Iguchi, Yukimasa Makita, Hiroyuki Hozumi, Yasutomo Miura, Lucy F Yang, Mio Iwasaki, Xiou H Wang, Matthew A Waller, Nanako Shirai, Yasuko O Abe, Yoko Fujita, Kei Watanabe, Akihiro Kagita… |
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| NEPA21 Publications |
| Peter Gee, Mandy S Y Lung, Yuya Okuzaki, Noriko Sasakawa, Takahiro Iguchi, Yukimasa Makita, Hiroyuki Hozumi, Yasutomo Miura, Lucy F Yang, Mio Iwasaki, Xiou H Wang, Matthew A Waller, Nanako Shirai, Yasuko O Abe, Yoko Fujita, Kei Watanabe, Akihiro Kagita… |
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| NEPA21 Publications |
| Peter Gee, Mandy S Y Lung, Yuya Okuzaki, Noriko Sasakawa, Takahiro Iguchi, Yukimasa Makita, Hiroyuki Hozumi, Yasutomo Miura, Lucy F Yang, Mio Iwasaki, Xiou H Wang, Matthew A Waller, Nanako Shirai, Yasuko O Abe, Yoko Fujita, Kei Watanabe, Akihiro Kagita… |
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| NEPA21 Publications |
| Peter Gee, Mandy S Y Lung, Yuya Okuzaki, Noriko Sasakawa, Takahiro Iguchi, Yukimasa Makita, Hiroyuki Hozumi, Yasutomo Miura, Lucy F Yang, Mio Iwasaki, Xiou H Wang, Matthew A Waller, Nanako Shirai, Yasuko O Abe, Yoko Fujita, Kei Watanabe, Akihiro Kagita… |
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| NEPA21 Publications |
| Peter Gee, Mandy S Y Lung, Yuya Okuzaki, Noriko Sasakawa, Takahiro Iguchi, Yukimasa Makita, Hiroyuki Hozumi, Yasutomo Miura, Lucy F Yang, Mio Iwasaki, Xiou H Wang, Matthew A Waller, Nanako Shirai, Yasuko O Abe, Yoko Fujita, Kei Watanabe, Akihiro Kagita… |
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| NEPA21 Publications |
| Peter Gee, Mandy S Y Lung, Yuya Okuzaki, Noriko Sasakawa, Takahiro Iguchi, Yukimasa Makita, Hiroyuki Hozumi, Yasutomo Miura, Lucy F Yang, Mio Iwasaki, Xiou H Wang, Matthew A Waller, Nanako Shirai, Yasuko O Abe, Yoko Fujita, Kei Watanabe, Akihiro Kagita… |
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| NEPA21 Publications |
| Peter Gee, Mandy S Y Lung, Yuya Okuzaki, Noriko Sasakawa, Takahiro Iguchi, Yukimasa Makita, Hiroyuki Hozumi, Yasutomo Miura, Lucy F Yang, Mio Iwasaki, Xiou H Wang, Matthew A Waller, Nanako Shirai, Yasuko O Abe, Yoko Fujita, Kei Watanabe, Akihiro Kagita… |
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| NEPA21 Publications |
| Peter Gee, Mandy S Y Lung, Yuya Okuzaki, Noriko Sasakawa, Takahiro Iguchi, Yukimasa Makita, Hiroyuki Hozumi, Yasutomo Miura, Lucy F Yang, Mio Iwasaki, Xiou H Wang, Matthew A Waller, Nanako Shirai, Yasuko O Abe, Yoko Fujita, Kei Watanabe, Akihiro Kagita… |
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| NEPA21 Publications |
| Peter Gee, Mandy S Y Lung, Yuya Okuzaki, Noriko Sasakawa, Takahiro Iguchi, Yukimasa Makita, Hiroyuki Hozumi, Yasutomo Miura, Lucy F Yang, Mio Iwasaki, Xiou H Wang, Matthew A Waller, Nanako Shirai, Yasuko O Abe, Yoko Fujita, Kei Watanabe, Akihiro Kagita… |
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| NEPA21 Publications |
| Peter Gee, Mandy S Y Lung, Yuya Okuzaki, Noriko Sasakawa, Takahiro Iguchi, Yukimasa Makita, Hiroyuki Hozumi, Yasutomo Miura, Lucy F Yang, Mio Iwasaki, Xiou H Wang, Matthew A Waller, Nanako Shirai, Yasuko O Abe, Yoko Fujita, Kei Watanabe, Akihiro Kagita… |
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| NEPA21 Publications |
| Peter Gee, Mandy S Y Lung, Yuya Okuzaki, Noriko Sasakawa, Takahiro Iguchi, Yukimasa Makita, Hiroyuki Hozumi, Yasutomo Miura, Lucy F Yang, Mio Iwasaki, Xiou H Wang, Matthew A Waller, Nanako Shirai, Yasuko O Abe, Yoko Fujita, Kei Watanabe, Akihiro Kagita… |
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| NEPA21 Publications |
| Peter Gee, Mandy S Y Lung, Yuya Okuzaki, Noriko Sasakawa, Takahiro Iguchi, Yukimasa Makita, Hiroyuki Hozumi, Yasutomo Miura, Lucy F Yang, Mio Iwasaki, Xiou H Wang, Matthew A Waller, Nanako Shirai, Yasuko O Abe, Yoko Fujita, Kei Watanabe, Akihiro Kagita… |
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| NEPA21 Publications |
| Peter Gee, Mandy S Y Lung, Yuya Okuzaki, Noriko Sasakawa, Takahiro Iguchi, Yukimasa Makita, Hiroyuki Hozumi, Yasutomo Miura, Lucy F Yang, Mio Iwasaki, Xiou H Wang, Matthew A Waller, Nanako Shirai, Yasuko O Abe, Yoko Fujita, Kei Watanabe, Akihiro Kagita… |
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| NEPA21 Publications |
| Peter Gee, Mandy S Y Lung, Yuya Okuzaki, Noriko Sasakawa, Takahiro Iguchi, Yukimasa Makita, Hiroyuki Hozumi, Yasutomo Miura, Lucy F Yang, Mio Iwasaki, Xiou H Wang, Matthew A Waller, Nanako Shirai, Yasuko O Abe, Yoko Fujita, Kei Watanabe, Akihiro Kagita… |
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| NEPA21 Publications |
| Stem Cells Transl Med. 2021 Jan;10(1):115-127.Takafumi Yumoto, Misaki Kimura, Ryota Nagatomo, Tsukika Sato, Shun Utsunomiya, Natsue Aoki, Motoji Kitaura, Koji Takahashi, Hiroshi Takemoto, Hirotaka Watanabe, Hideyuki Okano, Fumiaki Yoshida, Yosuke Nao… |
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| NEPA21 Publications |
| Stem Cells Transl Med. 2021 Jan;10(1):115-127.Takafumi Yumoto, Misaki Kimura, Ryota Nagatomo, Tsukika Sato, Shun Utsunomiya, Natsue Aoki, Motoji Kitaura, Koji Takahashi, Hiroshi Takemoto, Hirotaka Watanabe, Hideyuki Okano, Fumiaki Yoshida, Yosuke Nao… |
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| NEPA21 Publications |
| Stem Cells Transl Med. 2021 Jan;10(1):115-127.Takafumi Yumoto, Misaki Kimura, Ryota Nagatomo, Tsukika Sato, Shun Utsunomiya, Natsue Aoki, Motoji Kitaura, Koji Takahashi, Hiroshi Takemoto, Hirotaka Watanabe, Hideyuki Okano, Fumiaki Yoshida, Yosuke Nao… |
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