A recA mutant (recA423; Arg169-->His), with properties that should help clarify the relationship between the biochemical properties of RecA protein and its two major functions, homologous genetic recombination and recombinational DNA repair, has been isolated. The mutant has been characterized in vivo and the purified RecA423 protein has been studied in vitro. The recA423 cells are nearly as proficient in conjugational recombination, transductional recombination, and recombination of lambda red- gam- phage as wild-type cells. At the same time, the mutant cells are deficient for intra-chromosomal recombination and nearly as sensitive to UV irradiation as a recA deletion strain. The cells are proficient in SOS induction, and results indicate the defect involves the capacity of RecA protein to participate directly in recombinational DNA repair. In vitro, the RecA423 protein binds to single-stranded DNA slowly, with an associated decline in the ATP hydrolytic activity. The RecA423 protein promoted a limited DNA strand exchange reaction when the DNA substrates were homologous, but no bypass of a short heterologous insert in the duplex DNA substrate was observed. These results indicate that poor binding to DNA and low ATP hydrolysis activity can selectively compromise certain functions of RecA protein. The RecA423 protein can promote recombination between homologous DNAs during Hfr crosses, indicating that the biochemical requirements for such genetic exchanges are minimal. However, the deficiencies in recombinational DNA repair suggest that the biochemical requirements for this function are more exacting.
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Article Synopsis
- Bacteria have various DNA repair mechanisms to keep their genomes intact, but identifying these proteins is tricky due to their similarities.
- A new search strategy helps identify and analyze DNA repair proteins, particularly those involved in RecA-dependent homologous recombination, revealing common proteins like RecA and SSB across many species.
- The study finds that some DNA repair proteins are often found alongside immune system components, suggesting a potential link, but no immune system is entirely dependent on a single DNA repair protein, indicating a complex relationship between these systems in bacteria.
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