An efficient vector system to modify cells genetically

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Abstract

The transfer of foreign genes into mammalian cells has been essential for understanding the functions of genes and mechanisms of genetic diseases, for the production of coding proteins and for gene therapy applications. Currently, the identification and selection of cells that have received transferred genetic material can be accomplished by methods, including drug selection, reporter enzyme detection and GFP imaging. These methods may confer antibiotic resistance, or be disruptive, or require special equipment. In this study, we labeled genetically modified cells with a cell surface biotinylation tag by co-transfecting cells with BirA, a biotin ligase. The modified cells can be quickly isolated for downstream applications using a simple streptavidin bead method. This system can also be used to screen cells expressing two sets of genes from separate vectors. © 2011 Han et al.

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Han, H., Liu, Q., He, W., Ong, K., Liu, X., & Gao, B. (2011). An efficient vector system to modify cells genetically. PLoS ONE, 6(11). https://doi.org/10.1371/journal.pone.0026380

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