DNA binding residues in the RQC domain of Werner protein are critical for its catalytic activities.

[werner syndrome]

Werner protein (WRN ), member of the RecQ helicase family , is a helicase and exonuclease , and participates in multiple DNA metabolic processes including DNA replication , recombination and DNA repair . Mutations in the WRN gene cause Werner syndrome , associated with premature aging , genome instability and cancer predisposition . The RecQ C-terminal (RQC ) domain of WRN , containing Î±2 -Î±3 loop and Î²-wing motifs , is important for DNA binding and for many protein interactions . To better understand the critical functions of this domain , we generated recombinant WRN proteins (using a novel purification scheme ) with mutations in Arg-993 within the Î±2 -Î±3 loop of the RQC domain and in Phe-1037 of the ï¢-wing motif . We then studied the catalytic activities and DNA binding of these mutant proteins as well as some important functional protein interactions . The mutant proteins were defective in DNA binding and helicase activity , and interestingly , they had deficient exonuclease activity and strand annealing function . The RQC domain of WRN has not previously been implicated in exonuclease or annealing activities . The mutant proteins could not stimulate NEIL 1 incision activity as did the wild type . Thus , the Arg-993 and Phe-1037 in the RQC domain play essential roles in catalytic activity , and in functional interactions mediated by WRN .

Diseases
Validation

Diseases presenting "deficient exonuclease activity" symptom

werner syndrome

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