RecA protein acts at the initiation of stable DNA replication in rnh mutants of Escherichia coli K-12.

AUTOR(ES)

Kogoma, T

RESUMO

Escherichia coli rnh mutants lacking RNase H activity are capable of recA+-dependent DNA replication in the absence of concomitant protein synthesis (stable DNA replication). In rnh dnaA::Tn10 and rnh delta oriC double mutants in which the dnaA+-dependent initiation of DNA replication at oriC is completely blocked, the recA200 mutation encoding a thermolabile RecA protein renders both colony formation and DNA synthesis of these mutants temperature sensitive. To determine which stage of DNA replication (initiation, elongation, or termination) was blocked, we analyzed populations of these mutant cells incubated at 30 or 42 degrees C in the presence or absence of chloramphenicol (CM) by dual-parameter (DNA-light scatter) flow cytometry. Incubation at 30 degrees C in the presence of CM resulted in cells with a continuum of DNA content up to seven or more chromosome equivalents per cell. The cultures which had been incubated at 42 degrees C in the absence or presence of CM consisted of cells with integral numbers of chromosomes per cell. It is concluded that active RecA protein is required specifically for the initiation of stable DNA replication.

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