Human gene targeting by viral vectors
DW Russell, RK Hirata - Nature genetics, 1998 - nature.com
DW Russell, RK Hirata
Nature genetics, 1998•nature.comStable transduction of mammalian cells typically involves random integration of viral vectors
by non-homologous recombination. Here we report that vectors based on adeno-associated
virus (AAV) can efficiently modify homologous human chromosomal target sequences. Both
integrated neomycin phosphotransferase genes and the hypoxanthine
phosphoribosyltransferase gene were targeted by AAV vectors. Site-specific genetic
modifications could be introduced into approximately 1% of cells, with the highest targeting …
by non-homologous recombination. Here we report that vectors based on adeno-associated
virus (AAV) can efficiently modify homologous human chromosomal target sequences. Both
integrated neomycin phosphotransferase genes and the hypoxanthine
phosphoribosyltransferase gene were targeted by AAV vectors. Site-specific genetic
modifications could be introduced into approximately 1% of cells, with the highest targeting …
Abstract
Stable transduction of mammalian cells typically involves random integration of viral vectors by non-homologous recombination. Here we report that vectors based on adeno-associated virus (AAV) can efficiently modify homologous human chromosomal target sequences. Both integrated neomycin phosphotransferase genes and the hypoxanthine phosphoribosyltransferase gene were targeted by AAV vectors. Site-specific genetic modifications could be introduced into approximately 1% of cells, with the highest targeting rates occurring in normal human fibroblasts. These results suggest that AAV vectors could be used to introduce specific genetic changes into the genomic DNA of a wide variety of mammalian cells, including therapeutic gene targeting applications.
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