SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2056563036> ?p ?o ?g. }

Showing items 1 to 100 of ±131 with 100 items per page.

W2056563036 endingPage "e1004748" @default.
W2056563036 startingPage "e1004748" @default.
W2056563036 abstract "Mitochondrial DNA (mtDNA) encodes proteins essential for ATP production. Mutant variants of the mtDNA polymerase cause mutagenesis that contributes to aging, genetic diseases, and sensitivity to environmental agents. We interrogated mtDNA replication in Saccharomyces cerevisiae strains with disease-associated mutations affecting conserved regions of the mtDNA polymerase, Mip1, in the presence of the wild type Mip1. Mutant frequency arising from mtDNA base substitutions that confer erythromycin resistance and deletions between 21-nucleotide direct repeats was determined. Previously, increased mutagenesis was observed in strains encoding mutant variants that were insufficient to maintain mtDNA and that were not expected to reduce polymerase fidelity or exonuclease proofreading. Increased mutagenesis could be explained by mutant variants stalling the replication fork, thereby predisposing the template DNA to irreparable damage that is bypassed with poor fidelity. This hypothesis suggests that the exogenous base-alkylating agent, methyl methanesulfonate (MMS), would further increase mtDNA mutagenesis. Mitochondrial mutagenesis associated with MMS exposure was increased up to 30-fold in mip1 mutants containing disease-associated alterations that affect polymerase activity. Disrupting exonuclease activity of mutant variants was not associated with increased spontaneous mutagenesis compared with exonuclease-proficient alleles, suggesting that most or all of the mtDNA was replicated by wild type Mip1. A novel subset of C to G transversions was responsible for about half of the mutants arising after MMS exposure implicating error-prone bypass of methylated cytosines as the predominant mutational mechanism. Exposure to MMS does not disrupt exonuclease activity that suppresses deletions between 21-nucleotide direct repeats, suggesting the MMS-induce mutagenesis is not explained by inactivated exonuclease activity. Further, trace amounts of CdCl2 inhibit mtDNA replication but suppresses MMS-induced mutagenesis. These results suggest a novel mechanism wherein mutations that lead to hypermutation by DNA base-damaging agents and associate with mitochondrial disease may contribute to previously unexplained phenomena, such as the wide variation of age of disease onset and acquired mitochondrial toxicities." @default.
W2056563036 created "2016-06-24" @default.
W2056563036 creator A5008819302 @default.
W2056563036 creator A5075186269 @default.
W2056563036 date "2014-10-23" @default.
W2056563036 modified "2023-09-23" @default.
W2056563036 title "MMS Exposure Promotes Increased MtDNA Mutagenesis in the Presence of Replication-Defective Disease-Associated DNA Polymerase γ Variants" @default.
W2056563036 cites W1501250521 @default.
W2056563036 cites W1535907462 @default.
W2056563036 cites W1580635092 @default.
W2056563036 cites W1669999604 @default.
W2056563036 cites W1703028909 @default.
W2056563036 cites W1971871399 @default.
W2056563036 cites W1983386499 @default.
W2056563036 cites W1987207427 @default.
W2056563036 cites W1994131907 @default.
W2056563036 cites W1995706959 @default.
W2056563036 cites W1996052541 @default.
W2056563036 cites W2000730064 @default.
W2056563036 cites W2001614456 @default.
W2056563036 cites W2008606982 @default.
W2056563036 cites W2012849860 @default.
W2056563036 cites W2015032724 @default.
W2056563036 cites W2015172033 @default.
W2056563036 cites W2020118122 @default.
W2056563036 cites W2020857138 @default.
W2056563036 cites W2021612469 @default.
W2056563036 cites W2022034523 @default.
W2056563036 cites W2029707526 @default.
W2056563036 cites W2038833748 @default.
W2056563036 cites W2040989554 @default.
W2056563036 cites W2042854528 @default.
W2056563036 cites W2044897807 @default.
W2056563036 cites W2045199120 @default.
W2056563036 cites W2057936833 @default.
W2056563036 cites W2059941706 @default.
W2056563036 cites W2064855999 @default.
W2056563036 cites W2066296193 @default.
W2056563036 cites W2068391952 @default.
W2056563036 cites W2071116588 @default.
W2056563036 cites W2083682226 @default.
W2056563036 cites W2097569418 @default.
W2056563036 cites W2107559330 @default.
W2056563036 cites W2108492107 @default.
W2056563036 cites W2114233205 @default.
W2056563036 cites W2114699320 @default.
W2056563036 cites W2115781467 @default.
W2056563036 cites W2116197652 @default.
W2056563036 cites W2117795149 @default.
W2056563036 cites W2119934335 @default.
W2056563036 cites W2120179554 @default.
W2056563036 cites W2125032902 @default.
W2056563036 cites W2141163306 @default.
W2056563036 cites W2141231332 @default.
W2056563036 cites W2147101735 @default.
W2056563036 cites W2153029275 @default.
W2056563036 cites W2156144742 @default.
W2056563036 cites W2167537912 @default.
W2056563036 cites W2167926463 @default.
W2056563036 cites W2169854429 @default.
W2056563036 cites W2170861280 @default.
W2056563036 cites W2171557432 @default.
W2056563036 doi "https://doi.org/10.1371/journal.pgen.1004748" @default.
W2056563036 hasPubMedCentralId "https://www.ncbi.nlm.nih.gov/pmc/articles/4207668" @default.
W2056563036 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/25340760" @default.
W2056563036 hasPublicationYear "2014" @default.
W2056563036 type Work @default.
W2056563036 sameAs 2056563036 @default.
W2056563036 citedByCount "20" @default.
W2056563036 countsByYear W20565630362015 @default.
W2056563036 countsByYear W20565630362016 @default.
W2056563036 countsByYear W20565630362017 @default.
W2056563036 countsByYear W20565630362018 @default.
W2056563036 countsByYear W20565630362020 @default.
W2056563036 countsByYear W20565630362021 @default.
W2056563036 countsByYear W20565630362023 @default.
W2056563036 crossrefType "journal-article" @default.
W2056563036 hasAuthorship W2056563036A5008819302 @default.
W2056563036 hasAuthorship W2056563036A5075186269 @default.
W2056563036 hasBestOaLocation W20565630361 @default.
W2056563036 hasConcept C104317684 @default.
W2056563036 hasConcept C143065580 @default.
W2056563036 hasConcept C153911025 @default.
W2056563036 hasConcept C16318435 @default.
W2056563036 hasConcept C24586158 @default.
W2056563036 hasConcept C2756471 @default.
W2056563036 hasConcept C2777501222 @default.
W2056563036 hasConcept C501734568 @default.
W2056563036 hasConcept C54355233 @default.
W2056563036 hasConcept C552990157 @default.
W2056563036 hasConcept C73573662 @default.
W2056563036 hasConcept C82381507 @default.
W2056563036 hasConcept C86803240 @default.
W2056563036 hasConceptScore W2056563036C104317684 @default.
W2056563036 hasConceptScore W2056563036C143065580 @default.
W2056563036 hasConceptScore W2056563036C153911025 @default.
W2056563036 hasConceptScore W2056563036C16318435 @default.
W2056563036 hasConceptScore W2056563036C24586158 @default.