Gene- and strand-specific repair in vitro: partial purification of a transcription-repair coupling factor.

In eukaryotic and prokaryotic cells, activity transcribed genes and, in some instances, the template strand of these genes have been found to be repaired 2-10 times more rapidly than nontranscribed genes or the coding strand of transcribed genes. We demonstrate here gene- and template strand-specific repair synthesis in vitro by using an Escherichia coli cell-free extract and a plasmid carrying a gene with the strong tac promoter. Strand-specific repair of UV, 4'-hydroxymethyl1-4,5',8-trimethylpsoralen, and cis-dicholorodiammine platinum(II) damage was dependent upon transcription and a functional nucleotide excision repair system and was stimulated by 6% (wt/vol) polyethylene glycol. A defined system consisting of the transcription and repair proteins in highly purified form did not perform strand-specific repair; however, active fractions of extract conferred strand specificity to the defined system. Transcription-repair coupling activity was partially purified from extract by successive DEAE-agarose and gel filtration chromatography. The coupling factor is heat-labile, with an estimated Mr of 100,000. IMAGES: