For adherent electroporation of primary cells, e.g. fibroblasts, when working with the 4D-Nucleofector® Y Unit.
For rapid determination of Nucleofection conditions for cell lines lacking an Optimized Protocol for the 4D-Nucleofector® 96-well Unit.
For adherent electroporation of primary cells, e.g. neuronal or endothelial cells, when working with the 4D-Nucleofector® Y Unit.
For efficient transfection of specific primary cells, e.g. mouse B-cells or mouse immature DCs, in the 4D-Nucleofector® X Unit (100 µL format).
For efficient transfection of specific primary cells, e.g. HUVEC, in the 4D-Nucleofector® X Unit (20 µL format).
For efficient transfection of specific primary cells, e.g. mouse macrophages and NHDF, in the 4D-Nucleofector® X Unit (20 µL format).
For efficient transfection of specific primary cells, e.g. HUVEC, in the 4D-Nucleofector® X Unit (100 µL format).
For efficient transfection of specific primary cells, e.g. HUVEC, in the 4D-Nucleofector® X Unit (100 µL format).
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CHO Media PortfolioMaximize Your Protein Expression With Our CHO Media
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PowerCHO® Protein Expression Media
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ProCHO® Protein Expression Media
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GSv9™ Media and FeedsLet’s maximize your protein expression together. Media and feeds designed for Lonza’s GS System®
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Therapeutic Protein Production Made Simple1 of 3 white papers written about TheraPRO®
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TheraPRO® CHO Scalability Therapeutic Protein Production, SimplifiedWhitepaper focusing on the scalability of the TheraPRO® CHO expansion medium
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TechSheet - Endothelial Cell Medium ProductsTechnical information for Clonetics™ Endothelial Growth Medias
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TechSheet - Keratinocyte Cell Medium ProductsTechnical information sheet for Clonetics® Keratinocyte Media
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Protein Electrophoresis
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Protein Electrophoresis VWRVWR Cobranded Version