SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2569061709> ?p ?o ?g. }

Showing items 1 to 100 of ±118 with 100 items per page.

W2569061709 endingPage "3163" @default.
W2569061709 startingPage "3154" @default.
W2569061709 abstract "The structural and biophysical properties typically associated with G-quadruplex (G4) structures render them a significant block for DNA replication, which must be overcome for cell division to occur. The Werner syndrome protein (WRN) is a RecQ family helicase that has been implicated in the efficient processing of G4 DNA structures. The aim of this study was to identify the residues of WRN involved in the binding and ATPase-driven unwinding of G4 DNA. Using a c-Myc G4 DNA model sequence and recombinant WRN, we have determined that the RecQ-C-terminal (RQC) domain of WRN imparts a 2-fold preference for binding to G4 DNA relative to non-G4 DNA substrates. NMR studies identified residues involved specifically in interactions with G4 DNA. Three of the amino acids in the WRN RQC domain that exhibited the largest G4-specific changes in NMR signal were then mutated alone or in combination. Mutating individual residues implicated in G4 binding had a modest effect on WRN binding to DNA, decreasing the preference for G4 substrates by ∼25%. Mutating two G4-interacting residues (T1024G and T1086G) abrogated preferential binding of WRN to G4 DNA. Very modest decreases in G4 DNA-stimulated ATPase activity were observed for the mutant enzymes. Most strikingly, G4 unwinding by WRN was inhibited ∼50% for all three point mutants and >90% for the WRN double mutant (T1024G/T1086G) relative to normal B-form dsDNA substrates. Our work has helped to identify residues in the WRN RQC domain that are involved specifically in the interaction with G4 DNA. The structural and biophysical properties typically associated with G-quadruplex (G4) structures render them a significant block for DNA replication, which must be overcome for cell division to occur. The Werner syndrome protein (WRN) is a RecQ family helicase that has been implicated in the efficient processing of G4 DNA structures. The aim of this study was to identify the residues of WRN involved in the binding and ATPase-driven unwinding of G4 DNA. Using a c-Myc G4 DNA model sequence and recombinant WRN, we have determined that the RecQ-C-terminal (RQC) domain of WRN imparts a 2-fold preference for binding to G4 DNA relative to non-G4 DNA substrates. NMR studies identified residues involved specifically in interactions with G4 DNA. Three of the amino acids in the WRN RQC domain that exhibited the largest G4-specific changes in NMR signal were then mutated alone or in combination. Mutating individual residues implicated in G4 binding had a modest effect on WRN binding to DNA, decreasing the preference for G4 substrates by ∼25%. Mutating two G4-interacting residues (T1024G and T1086G) abrogated preferential binding of WRN to G4 DNA. Very modest decreases in G4 DNA-stimulated ATPase activity were observed for the mutant enzymes. Most strikingly, G4 unwinding by WRN was inhibited ∼50% for all three point mutants and >90% for the WRN double mutant (T1024G/T1086G) relative to normal B-form dsDNA substrates. Our work has helped to identify residues in the WRN RQC domain that are involved specifically in the interaction with G4 DNA." @default.
W2569061709 created "2017-01-13" @default.
W2569061709 creator A5010113188 @default.
W2569061709 creator A5010550612 @default.
W2569061709 creator A5015360214 @default.
W2569061709 creator A5020567066 @default.
W2569061709 date "2017-02-01" @default.
W2569061709 modified "2023-09-30" @default.
W2569061709 title "Residues in the RecQ C-terminal Domain of the Human Werner Syndrome Helicase Are Involved in Unwinding G-quadruplex DNA" @default.
W2569061709 cites W1778505584 @default.
W2569061709 cites W193545315 @default.
W2569061709 cites W1975817860 @default.
W2569061709 cites W1983127291 @default.
W2569061709 cites W1991616035 @default.
W2569061709 cites W2005098652 @default.
W2569061709 cites W2006527080 @default.
W2569061709 cites W2006530281 @default.
W2569061709 cites W2010562095 @default.
W2569061709 cites W2019058450 @default.
W2569061709 cites W2026766143 @default.
W2569061709 cites W2043720815 @default.
W2569061709 cites W2056072994 @default.
W2569061709 cites W2057259693 @default.
W2569061709 cites W2066437830 @default.
W2569061709 cites W2067133520 @default.
W2569061709 cites W2069138831 @default.
W2569061709 cites W2078024052 @default.
W2569061709 cites W2078383934 @default.
W2569061709 cites W2082947047 @default.
W2569061709 cites W2084712319 @default.
W2569061709 cites W2094556673 @default.
W2569061709 cites W2100013366 @default.
W2569061709 cites W2124007239 @default.
W2569061709 cites W2126192932 @default.
W2569061709 cites W2151888603 @default.
W2569061709 cites W2154093655 @default.
W2569061709 cites W2156174123 @default.
W2569061709 cites W2163548075 @default.
W2569061709 cites W2164255791 @default.
W2569061709 cites W2275411324 @default.
W2569061709 cites W2307754412 @default.
W2569061709 cites W2460228443 @default.
W2569061709 cites W2470082626 @default.
W2569061709 cites W4242251173 @default.
W2569061709 doi "https://doi.org/10.1074/jbc.m116.767699" @default.
W2569061709 hasPubMedCentralId "https://www.ncbi.nlm.nih.gov/pmc/articles/5336152" @default.
W2569061709 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/28069813" @default.
W2569061709 hasPublicationYear "2017" @default.
W2569061709 type Work @default.
W2569061709 sameAs 2569061709 @default.
W2569061709 citedByCount "18" @default.
W2569061709 countsByYear W25690617092017 @default.
W2569061709 countsByYear W25690617092019 @default.
W2569061709 countsByYear W25690617092020 @default.
W2569061709 countsByYear W25690617092021 @default.
W2569061709 countsByYear W25690617092022 @default.
W2569061709 countsByYear W25690617092023 @default.
W2569061709 crossrefType "journal-article" @default.
W2569061709 hasAuthorship W2569061709A5010113188 @default.
W2569061709 hasAuthorship W2569061709A5010550612 @default.
W2569061709 hasAuthorship W2569061709A5015360214 @default.
W2569061709 hasAuthorship W2569061709A5020567066 @default.
W2569061709 hasBestOaLocation W25690617091 @default.
W2569061709 hasConcept C104317684 @default.
W2569061709 hasConcept C130965112 @default.
W2569061709 hasConcept C134935766 @default.
W2569061709 hasConcept C143065580 @default.
W2569061709 hasConcept C143425029 @default.
W2569061709 hasConcept C153911025 @default.
W2569061709 hasConcept C161223559 @default.
W2569061709 hasConcept C178169997 @default.
W2569061709 hasConcept C2778090637 @default.
W2569061709 hasConcept C2780751114 @default.
W2569061709 hasConcept C552990157 @default.
W2569061709 hasConcept C55493867 @default.
W2569061709 hasConcept C67705224 @default.
W2569061709 hasConcept C73573662 @default.
W2569061709 hasConcept C86803240 @default.
W2569061709 hasConceptScore W2569061709C104317684 @default.
W2569061709 hasConceptScore W2569061709C130965112 @default.
W2569061709 hasConceptScore W2569061709C134935766 @default.
W2569061709 hasConceptScore W2569061709C143065580 @default.
W2569061709 hasConceptScore W2569061709C143425029 @default.
W2569061709 hasConceptScore W2569061709C153911025 @default.
W2569061709 hasConceptScore W2569061709C161223559 @default.
W2569061709 hasConceptScore W2569061709C178169997 @default.
W2569061709 hasConceptScore W2569061709C2778090637 @default.
W2569061709 hasConceptScore W2569061709C2780751114 @default.
W2569061709 hasConceptScore W2569061709C552990157 @default.
W2569061709 hasConceptScore W2569061709C55493867 @default.
W2569061709 hasConceptScore W2569061709C67705224 @default.
W2569061709 hasConceptScore W2569061709C73573662 @default.
W2569061709 hasConceptScore W2569061709C86803240 @default.
W2569061709 hasFunder F4320337351 @default.
W2569061709 hasFunder F4320337354 @default.
W2569061709 hasIssue "8" @default.
W2569061709 hasLocation W25690617091 @default.
W2569061709 hasLocation W25690617092 @default.