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.
Highlights
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
Residues That Confer Preferential Binding to G4 DNA Reside in the RQC Domain of Werner syndrome protein (WRN)—The RQC domain of WRN has previously been implicated in binding to DNA, a fact that was further supported by a co-crystal structure of the WRN RQC in complex with dsDNA [23, 24]
Recent reports have demonstrated the distinct roles of the HRDC and RQC domains of BLM in interacting with intra-strand G4 DNA structures [25]
Summary
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. Our work has helped to identify residues in the WRN RQC domain that are involved in the interaction with G4 DNA. The Werner syndrome protein (WRN), like all other RecQ family members, is an ssDNA-stimulated ATPase with 3Ј- to 5Ј-helicase activity [6, 7]. One feature that stands out regarding the cellular roles of WRN and BLM seems to be the repeated association of these enzymes with motifs capable of forming G-quadruplex (G4) structures Both WRN and BLM were found to coordinate with the FANCJ helicase to increase the efficiency of replication across G4 motifs in DT40 avian cells [8]. Loss of WRN results in an VOLUME 292 NUMBER 8 FEBRUARY 24, 2017
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