TransIT-PRO® Transfection Kit
High, reproducible protein yield in suspension CHO and 293 cellsTransIT-PRO® Transfection Kit consists of a DNA transfection reagent and boost combination specifically developed for mammalian protein production in suspension 293 and CHO derived cells.Reach critical stages faster. Decrease time to produce usable protein by maximizing target protein yields through transient transfection. The TransIT-PRO® Transfection Kit uses an…
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High, reproducible protein yield in suspension CHO and 293 cells
TransIT-PRO® Transfection Kit consists of a DNA transfection reagent and boost combination specifically developed for mammalian protein production in suspension 293 and CHO derived cells.
Reach critical stages faster. Decrease time to produce usable protein by maximizing target protein yields through transient transfection. The TransIT-PRO® Transfection Kit uses animal origin free components designed for high and reproducible protein yield in suspension CHO and 293 derived cells.
TransIT-PRO® Transfection Kit Features:
•Achieve high protein yield in suspension CHO and 293 cells
•Compatible with multiple CHO media formulations
•Reproducible protein expression with minimal optimization
Maximizing Protein Expression in CHO Suspension Cells through Transient Transfection
The TransIT-PRO Transfection Kit uses animal origin free components designed for high and reproducible protein yield in suspension CHO cells. Transfections using the TransIT-PRO Transfection Kit are linear in culture volumes ranging from 4-400 milliliters in shake or spinner vessels. Competitor benchmarking experiments were performed utilizing the FreeStyle Max expression system and multiple transfection methods. Western blot and ELISA detecting human IgG levels demonstrate that the TransIT-PRO Transfection Kit and FreeStyle Max Transfection Reagent perform similarly, outperforming 25 kDa linear PEI by 5-fold. The results demonstrate that maximum levels of transient expression are achieved when an effective delivery reagent is combined with optimized transfection parameters and growth conditions.
