When Coupled to Natural Transformation in Acinetobacter sp. Strain ADP1, PCR Mutagenesis Is Made Less Random by Mismatch Repair
A Buchan, LN Ornston - Applied and environmental microbiology, 2005 - Am Soc Microbiol
A Buchan, LN Ornston
Applied and environmental microbiology, 2005•Am Soc MicrobiolRandom PCR mutagenesis is a powerful tool for structure-function analysis of targeted
proteins, especially when coupled with DNA integration through natural transformation
followed by selection for loss of function. The technique has been applied successfully to
structure-function analysis of transcriptional regulators, enzymes, and transporters in
Acinetobacter sp. strain ADP1. However, the mismatch repair system prevents the full
spectrum of nucleotide substitutions that may be selected at the level of protein function from …
proteins, especially when coupled with DNA integration through natural transformation
followed by selection for loss of function. The technique has been applied successfully to
structure-function analysis of transcriptional regulators, enzymes, and transporters in
Acinetobacter sp. strain ADP1. However, the mismatch repair system prevents the full
spectrum of nucleotide substitutions that may be selected at the level of protein function from …
Abstract
Random PCR mutagenesis is a powerful tool for structure-function analysis of targeted proteins, especially when coupled with DNA integration through natural transformation followed by selection for loss of function. The technique has been applied successfully to structure-function analysis of transcriptional regulators, enzymes, and transporters in Acinetobacter sp. strain ADP1. However, the mismatch repair system prevents the full spectrum of nucleotide substitutions that may be selected at the level of protein function from being recovered. This barrier may be overcome by introducing PCR-mutagenized genes into strains in which the corresponding genes have been deleted.
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