The nucleotide sequence of a 2224 bp region of the Escherichia coli chromosome that carries the LexA regulated recN gene has been determined. A region of 1701 nucleotides encoding a polypeptide of 567 amino acids with a predicted molecular weight of 63,599 was identified as the most probable sequence for the recN structural gene. The proposed initiation codon is preceded by a reasonable Shine-Dalgarno sequence and a promoter region containing two 16 bp sequences, separated by 6 bp, that match the consensus sequence (SOS box) for binding LexA protein. DNA fragments containing this putative promoter region are shown to bind LexA in vitro and to have LexA-regulated promoter activity in vivo. The amino acid sequence of RecN predicted from the DNA contains a region that is homologous to highly conserved sequences found in several DNA repair enzymes and other proteins that bind ATP. A sequence of 9 amino acids was found to be homologous to a region of the RecA protein of E. coli postulated to have a role in DNA/nucleotide binding.
The recN gene which is necessary for inducible DNA repair and recombination in Escherichia coli has been cloned into the low copy plasmid vector pHSG415. Analysis of the recombinant plasmid, pSP100, revealed a 5.6 Kb HindIII insert of chromosomal DNA. Transposon inactivation of recN function and analysis of a recN::Mu(Ap lac) fusion located the coding region to a 1.4 Kb region within a 2.1 Kb BglII-AvaI DNA fragment transcribed in a clockwise direction with respect to the chromosome map. The gene product was identified in maxicells as a 60,000 dalton protein. Synthesis of this protein was increased in cells lacking LexA activity or in strains carrying recN cloned into the multicopy vector pBR322. Multiple copies of recN increase resistance to ionizing radiation in recN mutants but reduce the survival of a wild-type strain.
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