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Target Concepts:
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Query: UMLS:C0038187 (
starvation
)
24,951
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
MMS, an S(N)2 alkylating agent, is a moderate inducer of SOS mutagenesis and adaptive response. Our previous studies have shown that transient
starvation
of Escherichia coli AB1157argE3 strain causes a decrease of MMS-induced argE3-->Arg(+) reversions and this decrease is accompanied by the disappearance of the Fpg protein sensitive sites on plasmids isolated from MMS-treated and subsequently starved bacteria. This suggests that in such cells the mutation frequency decline (MFD) repair takes place. Here, we study the relation between MMS-induced mutagenesis as well as mutation frequency decline during
starvation
, and the repair of alkylated bases and AP-sites by base and nucleotide excision repair systems. In the AB1157alkA(-) strain, MMS-induced mutagenesis was over five-fold higher than in the wild type strain and no MFD repair occurred during
starvation
. Surprisingly, the lack of TagA glycosylase diminished MMS mutagenesis and accelerated the MFD effect. However, in double tagA(-)alkA(-) mutant, the frequency of Arg(+) reversions increased over 10-fold during 60 min of aminoacid
starvation
after MMS-treatment. Lack of the uvrA gene function did not affect the MMS-induced mutation rate and MFD in AB1157alkA(+)tagA(+).
Starvation
of MMS treated AB1157tagAalkAuvrA triple mutant caused a decrease of mutation frequency almost to the level of spontaneous mutation rate. Examination of the repair of 3-MeAde, 7-MeGua and AP sites during
starvation
using repair glycosylases and plasmids isolated from MMS-treated and starved bacteria revealed that in E. coli uvr(+) but tagAalkA strain, neither 3-MeAde nor 7-MeGua were repaired during 60 min
starvation
and these persistent lesions could be responsible for the induction of the SOS system and an increase in mutation rate during
starvation
. In the triple tagAalkAuvrA mutant the repair of 3-MeAde, 7-MeGua and AP sites was carried out effectively and this could explain the observed decrease in the mutation rate during
starvation
. These results suggest that only in the absence of the "first choice" repair enzymes TagA,
AlkA
glycosylases and UvrABC excinuclease, a third error-free repair system of alkylated bases is activated. In the absence of only TagA and
AlkA
glycosylases, UvrABC excinuclease mediates activation of the SOS response, and this results in an increase of mutagenesis induced by the presence of alkylated bases in DNA.
...
PMID:Contribution of E. coli AlkA, TagA glycosylases and UvrABC-excinuclease in MMS mutagenesis. 1150 1
