Search Results

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Zebrafish Brain Electrode Recommendation

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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�

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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NEPA21 / CUY21 Publications by Research Interest

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CUY21 Publications by Research Interest

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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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 Publications by Research Interest

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 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 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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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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LF201 Publication Listing for Cell Fusion and Nuclear Transfer

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LF201 Publication Listing

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LF201 Publication Listing for Cell Fusion and Nuclear Transfer

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LF201 Publication Listing for Cell Fusion and Nuclear Transfer

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LF201 Publication Listing

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LF201 Publication Listing for Cell Fusion and Nuclear Transfer

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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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NEPA21 Electroporator

Zebrafish Brain Electrode Recommendation

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Zebrafish Brain Electrode Recommendation

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Zebrafish Brain

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Zebrafish Brain

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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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CUY21 Publication List, Electrode Recommendations and Protocol Information

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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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LF201 Publication Listing for Cell Fusion and Nuclear Transfer

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LF201 Publication Listing for Cell Fusion and Nuclear Transfer

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NEPA21 Electroporator

CUY900-13-3-5_Technical_Drawings

CUY900-13-3-5 Adherent Cell Electrode

CUY900-13-3-5_Technical_Drawings

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NEPA21 Electroporator

NEPA21 Publication List

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�

NEPA21 Electroporator

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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Photo comparison of NEPA21 with CUY21EDIT

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NEPA21 Electroporator

LTM-1000 : Laser Thermal Microinjector

Heat-induced expansion of liquid in a sealed capillary generates high pressure, which enables injection by capillaries with the tip diameter around 0.1μm (Knoblauch et al., Nature Biotech., 1999). As the heat source, we chose a laser beam which enables�

LTM-1000 : Laser Thermal Microinjector

NEPA21 Electroporator

CUY21 Publications by Research Interest

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NEPA21 / CUY21 Publications by Research Interest

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NEPA21 Electroporator

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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

NEPA21 Electroporator

Cell Lines-TIG-7-Human Embryonic Lung Fibroblasts

Cell Image Results: TIG-7 Human Embryonic Lung Fibroblasts . . Viability 89% Transfection Efficiency 76%

Cell Lines-TIG-7-Human Embryonic Lung Fibroblasts

Cell Image Results: TIG-7 Human Embryonic Lung Fibroblasts . . Viability 89% Transfection Efficiency 76%

Cell Lines-TIG-7-Human Embryonic Lung Fibroblasts

Cell Image Results: TIG-7 Human Embryonic Lung Fibroblasts . . Viability 89% Transfection Efficiency 76%

NEPA21 Electroporator

Cell Lines-SUSM-1-Human Fibroblasts

Cell Image Result: SUSM-1 Human Fibroblasts Viability 77% Transfection Efficiency 71%

Cell Lines-SUSM-1-Human Fibroblasts

Cell Image Result: SUSM-1 Human Fibroblasts Viability 77% Transfection Efficiency 71%

Cell Lines-SUSM-1-Human Fibroblasts

Cell Image Result: SUSM-1 Human Fibroblasts Viability 77% Transfection Efficiency 71%

Cell Lines-KMST-6-Human Fibroblast

Cell Image Result: KMST-6 Human Fibroblasts Viability 70% Transfection Efficiency 60%

Cell Lines-KMST-6-Human Fibroblast

Cell Image Result: KMST-6 Human Fibroblasts Viability 70% Transfection Efficiency 60%

Cell Lines-MIA-PaCa-2-Human Pancreatic Carcinoma Cells

Cell Image Result: MIA-PaCa-2 Human Pancreatic Carcinoma Cells Viability 80% Transfection Efficiency 77%

NEPA21 Electroporator

Cell Lines-MIA-PaCa-2-Human Pancreatic Carcinoma Cells

Cell Image Result: MIA-PaCa-2 Human Pancreatic Carcinoma Cells Viability 80% Transfection Efficiency 77%

Cell Lines-HepG2-Human Hepatoma Cells

Cell Image Results: HepG2 Human Hepatoma Cells Viability 88% Transfection Efficiency 76%

Cell Lines-OVCAR-3-Human Ovarian Carcinoma Cells

Cell Image Result: OVCAR-3 Human Ovarian Carcinoma Cells Viability 90% Transfection Efficiency 79%

Cell Lines-OVCAR-3-Human Ovarian Carcinoma Cells

Cell Image Result: OVCAR-3 Human Ovarian Carcinoma Cells Viability 90% Transfection Efficiency 79%

NEPA21 Electroporator

Cell Lines-MIN6-Mouse Pancreatic Beta Cells

Cell Image Result: MIN6 Mouse Pancreatic Beta Cells Viability 57% Transfection Efficiency 71%

Cell Lines-H9c2-Rat Ventricular Myoblasts

Cell Image Result: H9c2 Rat Ventricular Myoblasts Viability 71% Transfection Efficiency 82%

Cell Lines-CHO-Chinese Hamster Ovary Cells

Cell Image Result: CHO Chinese Hamster Ovary Cells Viability 74% Transfection Efficiency 90%

NEPA21 Electroporator

Cell Lines-PC12-Rat Adrenal Pheo

Cell Image Result: PC12 Rat Adrenal Pheochromocytoma Cells Viability 70% Transfection Efficiency 50%

Cell Lines-RAW264.7-Mouse Macrophage-like Cells

Cell Image Result: RAW264.7 Mouse Macrophage-like Cells Viability 70% Transfection Efficiency 56%

Cell Lines-RAW264.7-Mouse Macrophage-like Cells

Cell Image Result: RAW264.7 Mouse Macrophage-like Cells Viability 70% Transfection Efficiency 56%

NEPA21 Electroporator

Cell Lines-HuH-7 - Human Hepatoma cells

Cell Image Result HuH-7 Human Hepatoma cells Viability: 70% Transfection Efficiency: 60%

HuH-7 Human Hepatoma cells

Cell Image Result HuH-7 Human Hepatoma cells Viability: 70% Transfection Efficiency: Good

Cell Lines - HuH-7 - Human Hepatoma cells

Cell Image Result HuH-7 Human Hepatoma cells Viability: 70% Transfection Efficiency: 60%

HuH-7 - Human Hepatoma cells

Cell Image Result HuH-7 Human Hepatoma cells Viability: 70% Transfection Efficiency: Good

NEPA21 Electroporator

A172-Human Glioblastoma cells

Cell Image Result A172 Human Glioblastoma cells Viability: 80-90% Transfection Efficiency: 70%

NEPA21 Electroporator

THP-1 - Human acute monocytic leukemia cells

Cell Image Results THP-1 Human acute monocytic leukemia cells Viability: 76% Transfection Efficiency: 63%

NEPA21 Electroporator

NIH-3T3 - Mouse Embryonic Fibroblasts

Cell Image Result NIH/3T3 Mouse Embryonic Fibroblasts Viability: 74% Transfection Efficiency: 81%

Cell Image Result NIH/3T3 Mouse Embryonic Fibroblasts Viability: 74% Transfection Efficiency: 82%

NEPA21 Electroporator

C2C12 - Mouse Myoblast cells

Cell Image Result C2C12 Mouse Myoblast cells Viability: 80% Transfection Efficiency: 70%

NEPA21 Electroporator

MC/9 - Mouse Mast cells

Cell Image Result MC/9 Mouse Mast cells Viability: 76% Transfection Efficiency: 84%

NEPA21 Electroporator

RSC96 - Rat Schwann cells

Cell Image Result RSC96 Rat Schwann cells Viability: 70% Transfection Efficiency: 85%

NEPA21 Electroporator

Primary - Mouse Cerebral Cortex Neurons

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Primary-Mouse Cerebral Cortex Neurons

Cell Image Result Primary Mouse Cerebral Cortex Neurons 9 days after EP Red: MAP2 Blue: GFAP Green: GFP The cells were from Embryonic Day 14 Mouse Cerebral Cortex Viability 80% Transfection Efficiency 70%

NEPA21 Electroporator

Primary BMMC - Mouse Bone Marrow-Derived Mast Cells

Cell Image Results Primary BMMC Mouse Bone Marrow-Derived Mast Cells Viability 64% Transfection Efficiency 78%

cell-lines-Primary BMMC-Mouse Bone Marrow-Derived Mast Cells

Cell Image Results Primary BMMC Mouse Bone Marrow-Derived Mast Cells Viability 64% Transfection Efficiency 78%

NEPA21 Electroporator

Primary - Rat Bulbar Neurons

Cell Image Result Primary Rat Bulbar Neurons 7 days after EP / The cells were from Embryonic Day 15 Rat Bubblar Neurons Viability 80% Transfection Efficiency 75%

Primary -Rat Bulbar Neurons

Cell Image Result Primary Rat Bulbar Neurons 7 days after EP / The cells were from Embryonic Day 15 Rat Bubblar Neurons Viability 80% Transfection Efficiency 75%

NEPA21 Electroporator

C2C12 - Mouse Myoblast cells

Cell Image Result C2C12 Mouse Myoblast cells Viability: 80% Transfection Efficiency: 70%

MC/9 - Mouse Mast cells

Cell Image Result MC/9 Mouse Mast cells Viability: 76% Transfection Efficiency: 84%

RSC96 - Rat Schwann cells

Cell Image Result RSC96 Rat Schwann cells Viability: 70% Transfection Efficiency: 85%

Primary - Mouse Cerebral Cortex Neurons

Cell Image Result Primary Mouse Cerebral Cortex Neurons 9 days after EPRed: MAP2 Blue: GFAP Green: GFP The cells were from Embryonic Day 14 Mouse Cerebral Cortex............... Viability 80% Transfection Efficiency 70%

Primary BMMC - Mouse Bone Marrow-Derived Mast Cells

Cell Image Results Primary BMMC Mouse Bone Marrow-Derived Mast Cells Viability 64% Transfection Efficiency 78%

Primary - Rat Bulbar Neurons

Cell Image Result Primary Rat Bulbar Neurons 7 days after EP / The cells were from Embryonic Day 15 Rat Bubblar Neurons Viability 80% Transfection Efficiency 75%

Cell Lines-PC12-Rat Adrenal Pheochromocytoma Cells

Cell Image Result: PC12 Rat Adrenal Pheochromocytoma Cells Viability 70% Transfection Efficiency 50%

NEPA21 Electroporator

293 (HEK293T) Human Embryonic Kidney Cells Cell Image Result: 293T (HEK293T) Human Embryonic Kidney cells Viability: 90% Transfection Efficiency: 70%

HuH-7 - Human Hepatoma cells

Cell Image Result HuH-7 Human Hepatoma cells Viability: 70% Transfection Efficiency: Good

HuH-7 - Human Hepatoma cells

Cell Image Result HuH-7 Human Hepatoma cells Viability: 70% Transfection Efficiency: 60%

Cell Lines-H69 - Human Small-Cell Lung Cancer cells

Cell Image Result H69 Human Small-cell Lung Cancer cELLS Viability: 90% Transfection Efficiency: 85%

NIH-3T3 - Mouse Embryonic Fibroblasts

Cell Image Result NIH/3T3 Mouse Embryonic Fibroblasts Viability: 74% Transfection Efficiency: 82%

NIH-3T3 - Mouse Embryonic Fibroblasts

Cell Image Result NIH/3T3 Mouse Embryonic Fibroblasts Viability: 74% Transfection Efficiency: 81%

Cell Lines-RAW264.7-Mouse Macrophage-like Cells

Cell Image Result: RAW264.7 Mouse Macrophage-like Cells Viability 70% Transfection Efficiency 56%

Cell Lines- BV-2 - Mouse Microglial cells

Cell Image Result: BV-2 Mouse Microglial cells Viability 70% Transfection Efficiency 56%

Cell Lines-MIN6-Mouse Pancreatic Beta Cells

Cell Image Result: MIN6 Mouse Pancreatic Beta Cells Viability 57% Transfection Efficiency 71%

Cell Lines-MIN6-Mouse Pancreatic Beta Cells

Cell Image Result: MIN6 Mouse Pancreatic Beta Cells Viability 57% Transfection Efficiency 71%

Cell Lines-MIN6 - Mouse Pancreatic Islet Beta cells

Cell Image Result: MIN6 Mouse Pancreatic Islet Beta cells Viability 60% Transfection Efficiency 40%

Cell Lines-H9c2-Rat Ventricular Myoblasts

Cell Image Result: H9c2 Rat Ventricular Myoblasts Viability 71% Transfection Efficiency 82%

Cell Lines-CHO-Chinese Hamster Ovary Cells

Cell Image Result: CHO Chinese Hamster Ovary Cells Viability 74% Transfection Efficiency 90%

Cell-Lines-A6 - Xenopus Kidney Epithelial cells

Cell Image Result: A6 Xenopus Kidney Epithelial cells Viability 90% Transfection Efficiency 60%

Primary - Mouse Cerebral Cortex Neurons

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Primary - Mouse Cerebral Cortex Neurons

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Primary - Mouse Cerebral Cortex Neurons

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Cell Lines-Primary - Rat Cerebral Cortex Neurons

Cell Image Result Primary Rat Cerebral Cortex Neurons Viability: 70% Transfection Efficiency: 60%

NEPA21 Electroporator

Cell Lines-HepG2-Human Hepatoma Cells

Cell Image Results: HepG2 Human Hepatoma Cells Viability 88% Transfection Efficiency 76%

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CUY900-13-3-5_Technical_Drawings

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Adherent Cells

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CUY900-13-3-5_Technical_Drawings

CUY900-13-3-5 Adherent Cell Electrode

CUY900-13-3-5_Technical_Drawings

CUY900-13-3-5 Adherent Cell Electrode

CUY900-13-3-5_Technical_Drawings

CUY900-13-3-5 Adherent Cell Electrode

CUY900-13-3-5_Technical_Drawings

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NEPA21 Electroporator

CUY900-13-3-5_Technical_Drawings

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NEPA21 Electroporator

Adherent Cells

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Adherent Cells

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Adherent Cells

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Organoid Electroporation Email

With this market-leading control and (user-independent) reproducibility of the technique, it is now possible to apply electroporation techniques to applications previously considered too sensitive for electroporation methodologies. One such application�

Free NEPA21 Demo and Trial :-Zygote Electroporation for Transgenic Animal Production

Compared to other devices on the market, the NEPA21 system offers the researcher a level of previously unavailable control over energy delivery to the electroporation target. This control is generated via unique electroporation pulse-output configurations�

Free NEPA21 Demo and Trial :-Zygote Electroporation for Transgenic Animal Production

NEPA21 Publication List

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�

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

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

Free NEPA21 Demo and Trial :-Zygote Electroporation for Transgenic Animal Production

NEPA21 Publications

Free NEPA21 Demo and Trial :-Zygote Electroporation for Transgenic Animal Production

NEPA21 Publications

Free NEPA21 Demo and Trial :-Zygote Electroporation for Transgenic Animal Production

NEPA21 Publications

Free NEPA21 Demo and Trial :-Zygote Electroporation for Transgenic Animal Production

NEPA21 Publications

NEPA21 Publication List

NEPA21 Publications

Organoid Electroporation Email

NEPA21 Publication List

NEPA21 Publications

Organoid Electroporation Email

NEPA21 Publication List

NEPA21 Publications

ELEP021

Materials) 1.5 ug plasmid DNA linearized (The total volume is 40uL/2mm gap cuvettes: 8 uL Opti-MEM, 1.5 ug plasmid DNA linearized in 1.5 uL TE buffer, and 30.5 uL C medium�

ELEP021

Materials) 1.5 ug plasmid DNA linearized (The total volume is 40uL/2mm gap cuvettes: 8 uL Opti-MEM, 1.5 ug plasmid DNA linearized in 1.5 uL TE buffer, and 30.5 uL C medium�

ELEP021 Square Wave Electroporation

Materials) 1.5 ug plasmid DNA linearized (The total volume is 40uL/2mm gap cuvettes: 8 uL Opti-MEM, 1.5 ug plasmid DNA linearized in 1.5 uL TE buffer, and 30.5 uL C medium�

ELEP021 Square Wave Electroporation

Materials) 1.5 ug plasmid DNA linearized (The total volume is 40uL/2mm gap cuvettes: 8 uL Opti-MEM, 1.5 ug plasmid DNA linearized in 1.5 uL TE buffer, and 30.5 uL C medium�

ELEP021

Materials) 1.5 ug plasmid DNA linearized (The total volume is 40uL/2mm gap cuvettes: 8 uL Opti-MEM, 1.5 ug plasmid DNA linearized in 1.5 uL TE buffer, and 30.5 uL C medium�

ELEP021

Materials) 1.5 ug plasmid DNA linearized (The total volume is 40uL/2mm gap cuvettes: 8 uL Opti-MEM, 1.5 ug plasmid DNA linearized in 1.5 uL TE buffer, and 30.5 uL C medium�

ELEP021

Materials) 1.5 ug plasmid DNA linearized (The total volume is 40uL/2mm gap cuvettes: 8 uL Opti-MEM, 1.5 ug plasmid DNA linearized in 1.5 uL TE buffer, and 30.5 uL C medium�

ELEP021

Materials) 1.5 ug plasmid DNA linearized (The total volume is 40uL/2mm gap cuvettes: 8 uL Opti-MEM, 1.5 ug plasmid DNA linearized in 1.5 uL TE buffer, and 30.5 uL C medium�

ELEP021 Square Wave Electroporation

Materials) 1.5 ug plasmid DNA linearized (The total volume is 40uL/2mm gap cuvettes: 8 uL Opti-MEM, 1.5 ug plasmid DNA linearized in 1.5 uL TE buffer, and 30.5 uL C medium�

ELEP021 Square Wave Electroporation

The efficiency of transformation is not very high; the average transformation efficiency following selection in 0.3 μgml-1 phleomycin was 5.5 9 10-6 cells or 0.03 transformants μg–1 DNA (Abe et al., 2011). Therefore, many cells must be prepared�

ELEP021 Square Wave Electroporation

Materials) 1.5 ug plasmid DNA linearized (The total volume is 40uL/2mm gap cuvettes: 8 uL Opti-MEM, 1.5 ug �

ELEP021 Square Wave Electroporation

Materials : 1.5 ug plasmid DNA linearized (The total volume is 40uL/2mm gap cuvettes: 8 uL Opti-MEM, 1.5 ug �

ELEP021 Square Wave Electroporation

Materials) 1.5 ug plasmid DNA linearized (The total volume is 40uL/2mm gap cuvettes: 8 uL Opti-MEM, 1.5 ug �

ELEP021 Square Wave Electroporation

Materials) 1.5 ug plasmid DNA linearized (The total volume is 40uL/2mm gap cuvettes: 8 uL Opti-MEM, 1.5 ug �

ELEP021 Square Wave Electroporation

Materials) 1.5 ug plasmid DNA linearized (The total volume is 40uL/2mm gap cuvettes: 8 uL Opti-MEM, 1.5 ug �

ELEP021 Square Wave Electroporation

Materials : 1.5 ug plasmid DNA linearized (The total volume is 40uL/2mm gap cuvettes: 8 uL Opti-MEM, 1.5 ug �

ELEP021 Square Wave Electroporation

Materials : 1.5 ug plasmid DNA linearized (The total volume is 40uL/2mm gap cuvettes: 8 uL Opti-MEM, 1.5 ug �

ELEP021 Square Wave Electroporation

Materials : 1.5 ug plasmid DNA linearized (The total volume is 40uL/2mm gap cuvettes: 8 uL Opti-MEM, 1.5 ug �

ELEP021 Square Wave Electroporation

Materials : 1.5 ug plasmid DNA linearized (The total volume is 40uL/2mm gap cuvettes: 8 uL Opti-MEM, 1.5 ug �

ELEP021 Square Wave Electroporation

Materials : 1.5 ug plasmid DNA linearized (The total volume is 40uL/2mm gap cuvettes: 8 uL Opti-MEM, 1.5 ug �

ELEP021 Square Wave Electroporation

Materials : 1.5 ug plasmid DNA linearized (The total volume is 40uL/2mm gap cuvettes: 8 uL Opti-MEM, 1.5 ug �

ELEP021 Square Wave Electroporation

Materials : 1.5 ug plasmid DNA linearized (The total volume is 40uL/2mm gap cuvettes: 8 uL Opti-MEM, 1.5 ug �

ELEP021 Square Wave Electroporation

Materials : 1.5 ug plasmid DNA linearized (The total volume is 40uL/2mm gap cuvettes: 8 uL Opti-MEM, 1.5 ug �

ELEP021 Square Wave Electroporation

Materials : 1.5 ug plasmid DNA linearized (The total volume is 40uL/2mm gap cuvettes: 8 uL Opti-MEM, 1.5 ug �

ELEP021 Square Wave Electroporation

Materials : 1.5 ug plasmid DNA linearized (The total volume is 40uL/2mm gap cuvettes: 8 uL Opti-MEM, 1.5 ug �

ELEP021 Square Wave Electroporation

Materials : 1.5 ug plasmid DNA linearized (The total volume is 40uL/2mm gap cuvettes: 8 uL Opti-MEM, 1.5 ug �

ELEP021 Square Wave Electroporation

Materials : 1.5 ug plasmid DNA linearized (The total volume is 40uL/2mm gap cuvettes: 8 uL Opti-MEM, 1.5 ug �

ELEP021 Square Wave Electroporation

Materials : 1.5 ug plasmid DNA linearized (The total volume is 40uL/2mm gap cuvettes: 8 uL Opti-MEM, 1.5 ug �

ELEP021 Square Wave Electroporation

Materials : 1.5 ug plasmid DNA linearized (The total volume is 40uL/2mm gap cuvettes: 8 uL Opti-MEM, 1.5 ug �

ELEP021 Square Wave Electroporation

Materials : 1.5 ug plasmid DNA linearized (The total volume is 40uL/2mm gap cuvettes: 8 uL Opti-MEM, 1.5 ug �

ELEP021 Square Wave Electroporation

Materials : 1.5 ug plasmid DNA linearized (The total volume is 40uL/2mm gap cuvettes: 8 uL Opti-MEM, 1.5 ug �

ELEP021 Square Wave Electroporation

Materials : 1.5 ug plasmid DNA linearized (The total volume is 40uL/2mm gap cuvettes: 8 uL Opti-MEM, 1.5 ug �

ELEP021 Square Wave Electroporation

Materials : 1.5 ug plasmid DNA linearized (The total volume is 40uL/2mm gap cuvettes: 8 uL Opti-MEM, 1.5 ug �

ELEP021 Square Wave Electroporation

Materials : 1.5 ug plasmid DNA linearized (The total volume is 40uL/2mm gap cuvettes: 8 uL Opti-MEM, 1.5 ug �

ELEP021 Square Wave Electroporation

Materials : 1.5 ug plasmid DNA linearized (The total volume is 40uL/2mm gap cuvettes: 8 uL Opti-MEM, 1.5 ug �

ELEP021 Square Wave Electroporation

Materials : 1.5 ug plasmid DNA linearized (The total volume is 40uL/2mm gap cuvettes: 8 uL Opti-MEM, 1.5 ug �

ELEP021 Square Wave Electroporation

Materials : 1.5 ug plasmid DNA linearized (The total volume is 40uL/2mm gap cuvettes: 8 uL Opti-MEM, 1.5 ug �

ELEP021 Square Wave Electroporation

Materials : 1.5 ug plasmid DNA linearized (The total volume is 40uL/2mm gap cuvettes: 8 uL Opti-MEM, 1.5 ug �

ELEP021 Square Wave Electroporation

Materials : 1.5 ug plasmid DNA linearized (The total volume is 40uL/2mm gap cuvettes: 8 uL Opti-MEM, 1.5 ug �

ELEP021 Square Wave Electroporation

Materials : 1.5 ug plasmid DNA linearized (The total volume is 40uL/2mm gap cuvettes: 8 uL Opti-MEM, 1.5 ug �

ELEP021 Square Wave Electroporation

Materials : 1.5 ug plasmid DNA linearized (The total volume is 40uL/2mm gap cuvettes: 8 uL Opti-MEM, 1.5 ug �

ELEP021 Square Wave Electroporation

Materials : 1.5 ug plasmid DNA linearized (The total volume is 40uL/2mm gap cuvettes: 8 uL Opti-MEM, 1.5 ug �

ELEP021 Square Wave Electroporation

Materials : 1.5 ug plasmid DNA linearized (The total volume is 40uL/2mm gap cuvettes: 8 uL Opti-MEM, 1.5 ug �

ELEP021 Square Wave Electroporation

Materials : 1.5 ug plasmid DNA linearized (The total volume is 40uL/2mm gap cuvettes: 8 uL Opti-MEM, 1.5 ug �

ELEP021 Square Wave Electroporation

Materials : 1.5 ug plasmid DNA linearized (The total volume is 40uL/2mm gap cuvettes: 8 uL Opti-MEM, 1.5 ug �

ELEP021 Square Wave Electroporation

Materials : 1.5 ug plasmid DNA linearized (The total volume is 40uL/2mm gap cuvettes: 8 uL Opti-MEM, 1.5 ug �

ELEP021 Square Wave Electroporation

Materials : 1.5 ug plasmid DNA linearized (The total volume is 40uL/2mm gap cuvettes: 8 uL Opti-MEM, 1.5 ug �

ELEP021 Square Wave Electroporation

Materials : 1.5 ug plasmid DNA linearized (The total volume is 40uL/2mm gap cuvettes: 8 uL Opti-MEM, 1.5 ug �

ELEP021 Square Wave Electroporation

Materials : 1.5 ug plasmid DNA linearized (The total volume is 40uL/2mm gap cuvettes: 8 uL Opti-MEM, 1.5 ug �

ELEP021 Square Wave Electroporation

Materials : 1.5 ug plasmid DNA linearized (The total volume is 40uL/2mm gap cuvettes: 8 uL Opti-MEM, 1.5 ug �

ELEP021 Square Wave Electroporation

Materials : 1.5 ug plasmid DNA linearized (The total volume is 40uL/2mm gap cuvettes: 8 uL Opti-MEM, 1.5 ug �

ELEP021 Square Wave Electroporation

Materials : 1.5 ug plasmid DNA linearized (The total volume is 40uL/2mm gap cuvettes: 8 uL Opti-MEM, 1.5 ug �

ELEP021 Square Wave Electroporation

Materials : 1.5 ug plasmid DNA linearized (The total volume is 40uL/2mm gap cuvettes: 8 uL Opti-MEM, 1.5 ug �

ELEP021 Square Wave Electroporation

Materials : 1.5 ug plasmid DNA linearized (The total volume is 40uL/2mm gap cuvettes: 8 uL Opti-MEM, 1.5 ug �

ELEP021 Square Wave Electroporation

Materials : 1.5 ug plasmid DNA linearized (The total volume is 40uL/2mm gap cuvettes: 8 uL Opti-MEM, 1.5 ug �

ELEP021 Square Wave Electroporation

Materials : 1.5 ug plasmid DNA linearized (The total volume is 40uL/2mm gap cuvettes: 8 uL Opti-MEM, 1.5 ug �

ELEP021 Square Wave Electroporation

Materials : 1.5 ug plasmid DNA linearized (The total volume is 40uL/2mm gap cuvettes: 8 uL Opti-MEM, 1.5 ug �

ELEP021 Square Wave Electroporation

Materials : 1.5 ug plasmid DNA linearized (The total volume is 40uL/2mm gap cuvettes: 8 uL Opti-MEM, 1.5 ug �

ELEP021 Square Wave Electroporation

Materials : 1.5 ug plasmid DNA linearized (The total volume is 40uL/2mm gap cuvettes: 8 uL Opti-MEM, 1.5 ug �

ELEP021 Square Wave Electroporation

Materials : 1.5 ug plasmid DNA linearized (The total volume is 40uL/2mm gap cuvettes: 8 uL Opti-MEM, 1.5 ug �

ELEP021 Square Wave Electroporation

Materials : 1.5 ug plasmid DNA linearized (The total volume is 40uL/2mm gap cuvettes: 8 uL Opti-MEM, 1.5 ug �

ELEP021 Square Wave Electroporation

Materials : 1.5 ug plasmid DNA linearized (The total volume is 40uL/2mm gap cuvettes: 8 uL Opti-MEM, 1.5 ug �

ELEP021 Square Wave Electroporation

Materials : 1.5 ug plasmid DNA linearized (The total volume is 40uL/2mm gap cuvettes: 8 uL Opti-MEM, 1.5 ug �

ELEP021 Square Wave Electroporation

Materials : 1.5 ug plasmid DNA linearized (The total volume is 40uL/2mm gap cuvettes: 8 uL Opti-MEM, 1.5 ug �

ELEP021 Square Wave Electroporation

Materials : 1.5 ug plasmid DNA linearized (The total volume is 40uL/2mm gap cuvettes: 8 uL Opti-MEM, 1.5 ug �

ELEP021 Square Wave Electroporation

Materials : 1.5 ug plasmid DNA linearized (The total volume is 40uL/2mm gap cuvettes: 8 uL Opti-MEM, 1.5 ug �

ELEP021 Square Wave Electroporation

Materials : 1.5 ug plasmid DNA linearized (The total volume is 40uL/2mm gap cuvettes: 8 uL Opti-MEM, 1.5 ug �

ELEP021 Square Wave Electroporation

Materials : 1.5 ug plasmid DNA linearized (The total volume is 40uL/2mm gap cuvettes: 8 uL Opti-MEM, 1.5 ug �

ELEP021 Square Wave Electroporation

Materials : 1.5 ug plasmid DNA linearized (The total volume is 40uL/2mm gap cuvettes: 8 uL Opti-MEM, 1.5 ug �

ELEP021 Square Wave Electroporation

Materials : 1.5 ug plasmid DNA linearized (The total volume is 40uL/2mm gap cuvettes: 8 uL Opti-MEM, 1.5 ug �

ELEP021 Square Wave Electroporation

Materials : 1.5 ug plasmid DNA linearized (The total volume is 40uL/2mm gap cuvettes: 8 uL Opti-MEM, 1.5 ug �

ELEP021 Square Wave Electroporation

Materials : 1.5 ug plasmid DNA linearized (The total volume is 40uL/2mm gap cuvettes: 8 uL Opti-MEM, 1.5 ug �

ELEP021 Square Wave Electroporation

Materials : 1.5 ug plasmid DNA linearized (The total volume is 40uL/2mm gap cuvettes: 8 uL Opti-MEM, 1.5 ug �

ELEP021 Square Wave Electroporation

Materials : 1.5 ug plasmid DNA linearized (The total volume is 40uL/2mm gap cuvettes: 8 uL Opti-MEM, 1.5 ug �

ELEP021 Square Wave Electroporation

Materials : 1.5 ug plasmid DNA linearized (The total volume is 40uL/2mm gap cuvettes: 8 uL Opti-MEM, 1.5 ug �

ELEP021 Square Wave Electroporation

Materials : 1.5 ug plasmid DNA linearized (The total volume is 40uL/2mm gap cuvettes: 8 uL Opti-MEM, 1.5 ug �

ELEP021 Square Wave Electroporation

Materials : 1.5 ug plasmid DNA linearized (The total volume is 40uL/2mm gap cuvettes: 8 uL Opti-MEM, 1.5 ug �

ELEP021 Square Wave Electroporation

Materials : 1.5 ug plasmid DNA linearized (The total volume is 40uL/2mm gap cuvettes: 8 uL Opti-MEM, 1.5 ug �

ELEP021 Square Wave Electroporation

Materials : 1.5 ug plasmid DNA linearized (The total volume is 40uL/2mm gap cuvettes: 8 uL Opti-MEM, 1.5 ug �

ELEP021 Square Wave Electroporation

Materials : 1.5 ug plasmid DNA linearized (The total volume is 40uL/2mm gap cuvettes: 8 uL Opti-MEM, 1.5 ug �

ELEP021 Square Wave Electroporation

Materials : 1.5 ug plasmid DNA linearized (The total volume is 40uL/2mm gap cuvettes: 8 uL Opti-MEM, 1.5 ug �

ELEP021 Square Wave Electroporation

Materials : 1.5 ug plasmid DNA linearized (The total volume is 40uL/2mm gap cuvettes: 8 uL Opti-MEM, 1.5 ug �

NEPA21 Publication List

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NEPA21 Publication List

Test spacing

NEPA21 Publication List

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