Gene Pulser/MicroPulser Electroporation Cuvettes, 0.1 cm gap #1652083
Pkg of 5, 0.1 cm–gap sterile electroporation cuvette, for use with the Gene Pulser and MicroPulser Systems, for mammalian and other eukaryotic cells
Use the 0.1 cm–gap Gene Pulser/MicroPulser Electroporation Cuvettes for reproducible transformation of bacteria, yeast, and mammalian cells, including primary and stem cells. These high-quality cuvettes are compatible with most electroporation systems, including Bio-Rad’s Gene Pulser MXcell, Gene Pulser Xcell, and MicroPulser Electroporators.
Gene Pulser/MicroPulser Cuvettes are available in three gap widths:
0.1 cm (brown cap) – for bacteria and yeast
0.2 cm (green cap) – for bacteria, yeast, and mammalian cells, including primary and stem cells
0.4 cm (blue cap) – for mammalian cells, including primary and stem cells, or plant protoplasts
电击杯Gene Pulser/MicroPulser Electroporation Cuvettes, 0.1 cm gap 1652089
Gene Pulser/MicroPulser Electroporation Cuvettes, 0.1 cm gap #1652089
Pkg of 50, 0.1cm–gap sterile electroporation cuvette, for use with the Gene Pulser and MicroPulser Systems, for mammalian and other eukaryotic cells
Use the 0.1 cm–gap Gene Pulser/MicroPulser Electroporation Cuvettes for reproducible transformation of bacteria, yeast, and mammalian cells, including primary and stem cells. These high-quality cuvettes are compatible with most electroporation systems, including Bio-Rad’s Gene Pulser MXcell, Gene Pulser Xcell, and MicroPulser Electroporators.
Gene Pulser/MicroPulser Cuvettes are available in three gap widths:
0.1 cm (brown cap) – for bacteria and yeast
0.2 cm (green cap) – for bacteria, yeast, and mammalian cells, including primary and stem cells
0.4 cm (blue cap) – for mammalian cells, including primary and stem cells, or plant protoplasts
伯乐Bio-Rad1652088Gene Pulser 电击杯简介,常规产品列表
伯乐Bio-Rad1652088Gene Pulser/MicroPulser Electroporation Cuvettes, 0.4 cm gap,Gene Pulser/MicroPulser电击杯
伯乐Bio-Rad1652088Gene Pulser/MicroPulser Electroporation Cuvettes, 0.4 cm gap,Gene Pulser/MicroPulser电击杯,产品简介:
产品品牌:伯乐Bio-Rad
产品名称:Pulser/MicroPulser Electroporation Cuvettes, 0.4 cm gap
英文名称:Gene Pulser/MicroPulser Electroporation Cuvettes, 0.4 cm gap
产品货号:1652088
产品规格:50个
伯乐Bio-Rad1652088Gene Pulser/MicroPulser Electroporation Cuvettes, 0.4 cm gap,Gene Pulser/MicroPulser电击杯,产品说明:
Pkg of 50, 0.4 cm–gap sterile electroporation cuvette, for use with the Gene Pulser and MicroPulser Systems, for mammalian and other eukaryotic cells
50,0.4 cm-gap无菌电穿孔反应杯包装,用于基因脉冲发生器和微脉冲发生器系统,用于哺乳动物和其他真核细胞
使用0.4 cm–gap基因脉冲/微脉冲电穿孔反应杯对哺乳动物和其他真核细胞进行可重复转化。这些高质量的反应杯与大多数电穿孔系统兼容,包括Bio-Rad的基因脉冲发生器MXcell、基因脉冲发生器Xcell和微脉冲电穿孔器。
基因脉冲/微脉冲反应杯有三种间隙宽度:
0.1 cm(棕色帽)-用于细菌和酵母
0.2 cm(绿帽)-用于细菌、酵母和哺乳动物细胞,包括原代细胞和干细胞
0.4 cm(蓝帽)-用于哺乳动物细胞,包括原代细胞和干细胞,或植物原生质体
Gene Pulser ®/MicroPulserTM电击杯
Bid-Rad高品质的电击杯为您宝贵的样品提供稳定的脉冲传送,确保结果的重复性。电击杯有3种不同的电极间距0.4、0.2和0.1cm,针对不同的细胞类型选择ji理想的场强。电击杯的特点包括:
保证效率-使用这些电击杯确保最高电转化效率,制作精良的电击间距公差包装了实验室的重复性。
通用兼容性-每一个电击杯都在净室环境下装配、洗涤、加盖和包装,并经过y射线。
结构坚固-耐用的聚碳酸酯能承受极高的电压
标有不同颜色的盖和包装袋-可快速地区分不同规格的电击杯
一致的腔体形状-无缝塑料模制避免了渗漏并保证铝板平行,这是均一的样品处理和安全性的关键所在。
平滑的电击表面-铝片经过11步严格的蚀刻和清洗处理,确保对整个样品均一的脉冲传送。
相关产品
基因脉冲电穿孔缓冲液,10 x 1.8 ml(1652676)Gene Pulser Electroporation Buffer, 10 x 1.8 ml (1652676)
基因脉冲电穿孔缓冲液,30 ml(1652677)Gene Pulser Electroporation Buffer, 30 ml (1652677)
基因脉冲反应杯架(1652095)Gene Pulser Cuvette Rack (1652095)
基因脉冲Xcell电穿孔系统,用于转化每种细胞类型的模块化系统Gene Pulser Xcell Electroporation Systems, modular systems for transforming every cell type
微脉冲电穿孔器,用于细菌、酵母和其他微生物MicroPulser Electroporator, for bacteria, yeast, and other microorganisms
伯乐Bio-Rad1652088Gene Pulser/MicroPulser Electroporation Cuvettes, 0.4 cm gap,Gene Pulser/MicroPulser电击杯,产品订购信息:
伯乐Bio-Rad1652088Gene Pulser/MicroPulser Electroporation Cuvettes, 0.4 cm gap,50
伯乐Bio-Rad1652086Gene Pulser/MicroPulser Electroporation Cuvettes, 0.2 cm gap,50
伯乐Bio-Rad1652089Gene Pulser/MicroPulser Electroporation Cuvettes, 0.1 cm gap,50
伯乐Bio-Rad 1652091 Gene Pulser/MicroPulser Electroporation Cuvettes, 0.4 cm gap,500
伯乐Bio-Rad 1652092 Gene Pulser/MicroPulser Electroporation Cuvettes, 0.2cm gap,500
伯乐Bio-Rad 1652093 Gene Pulser/MicroPulser Electroporation Cuvettes, 0.1 cm gap,500
伯乐Bio-Rad 1652081 Gene Pulser/MicroPulser Electroporation Cuvettes, 0.4 cm gap,5
伯乐Bio-Rad 1652082 Gene Pulser/MicroPulser Electroporation Cuvettes, 0.2 cm gap,5
伯乐Bio-Rad 1652083 Gene Pulser/MicroPulser Electroporation Cuvettes, 0.1 cm gap,5
BIO-RAD 伯乐 电击杯 电转杯1652086 ,1652089 电极杯
BIO-RAD 伯乐 电击杯 电转杯50个
0.4cm 1652088
0.2cm 1652086
0.1cm 1652089
Gene Pulser?/MicroPulser? Electroporation Cuvettes, 0.4 cm gap #1652081
Pkg of 5, 0.4 cm–gap sterile electroporation cuvette, for use with the Gene Pulser and MicroPulser Systems, for mammalian and other eukaryotic cells
Use the 0.4 cm–gap Gene Pulser/MicroPulser Electroporation Cuvettes for reproducible transformation of mammalian and other eukaryotic cells. These high-quality cuvettes are compatible with most electroporation systems, including Bio-Rad’s Gene Pulser MXcell Gene Pulser Xcell and MicroPulser Electroporators.
Gene Pulser/MicroPulser Cuvettes are available in three gap widths:
0.1 cm (brown cap) – for bacteria and yeast
0.2 cm (green cap) – for bacteria, yeast, and mammalian cells, including primary and stem cells
0.4 cm (blue cap) – for mammalian cells, including primary and stem cells, or plant protoplasts
1652086 电击杯 2MM 50个 CUVETTES 2MM PKG 50 STERILE
1652088 电击杯 4MM 50个 CUVETTES 4MM PKG 50 STERILE
1652089 电击杯 1MM 50个 CUVETTES 1MM PKG 50 STERILE
Related Products
Gene Pulser Electroporation Buffer, 10 x 1.8 ml (1652676)
Gene Pulser Electroporation Buffer, 30 ml (1652677)
Gene Pulser Cuvette Rack (1652095)
Gene Pulser Xcell Electroporation Systems, modular systems for transforming every cell type
MicroPulser Electroporator, for bacteria, yeast, and other microorganisms
Related Categories
Transfection
Cell Counting
Cell Imaging
Supporting Documents and Resources
Gene Pulser/MicroPulser Cuvette Selection Guide
Transfection Protocol Library
Gene Pulser Xcell? Electroporation System Quick Guide | Instruction Manual
MicroPulser Electroporation Apparatus Instruction Manual
Related Applications
Cell Counting Methods
Stem Cell Research