Chromosome transfer from F-lac+ strains of Escherichia coli K-12 mutant at recA, recB, or recC.

The frequency of chromosome transfer from various recombination-deficient F-lac(+) donor strains was estimated by standardizing the yield of conjugants receiving a male chromosomal marker against the level of episome transfer in the mating mixture. The efficiency of chromosome transfer from newly formed F-lac(+) cells carrying recB21 or recC22 was more than 50% of the wild-type value, although it was about 10 and 20%, respectively, if the male cell lines had become established. In contrast, recA13 donors transmitted the chromosome with less than 10(-4) of the normal frequency. If chromosome transfer from F-lac(+) strains reflects the cutting and subsequent joining of homologous single strands of episomal and chromosomal deoxyribonucleic acid by recombination, these results imply that the completed unions are not made in recA cells, but can be effected with more than 50% of normal efficiency in newly formed partial diploids mutant at either recB or recC. Thus, the defective stage in recA mutants may precede strand joining, whereas the deficiency in recB or recC cells may involve a later step in recombinant formation.