Inactivation of DNA proofreading obviates the need for SOS induction in frameshift mutagenesis

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The National Academy of Sciences

RESUMO

Translesion synthesis at replication-blocking lesions requires the induction of proteins that are controlled by the SOS system in Escherichia coli. Of the proteins identified so far, UmuD′, UmuC, and RecA* were shown to facilitate replication across UV-light-induced lesions, yielding both error-free and mutagenic translesion-synthesis products. Similar to UV lesions, N-2-acetylaminofluorene (AAF), a chemical carcinogen that forms covalent adducts at the C8 position of guanine residues, is a strong replication-blocking lesion. Frameshift mutations are induced efficiently by AAF adducts when located within short repetitive sequences in a two-step mechanism; AAF adducts incorporate a cytosine across from the lesion and then form a primer-template misaligned intermediate that, upon elongation, yields frameshift mutations. Recently, we have shown that although elongation from the nonslipped intermediate depends on functional umuDC+ gene products, elongation from the slipped intermediate is umuDC+-independent but requires another, as yet biochemically uncharacterized, SOS function. We now show that in DNA Polymerase III-proofreading mutant strains (dnaQ49 and mutD5 strains), elongation from the slipped intermediate is highly efficient in the absence of SOS induction—in contrast to elongation from the nonslipped intermediate, which still requires UmuDC functions.

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