The RECQL4 protein, deficient in Rothmund-Thomson syndrome is active on telomeric D-loops containing DNA metabolism blocking lesions.

[werner syndrome]

Telomeres are critical for cell survival and functional integrity . Oxidative DNA damage induces telomeric instability and cellular senescence that are associated with normal aging and segmental premature aging disorders such as Werner Syndrome and Rothmund-Thomson Syndrome , caused by mutations in WRN and RECQL 4 helicases respectively . Characterizing the metabolic roles of RECQL 4 and WRN in telomere maintenance is crucial in understanding the pathogenesis of their associated disorders . We have previously shown that WRN and RECQL 4 display a preference in vitro to unwind telomeric DNA substrates containing the oxidative lesion 8 -oxoguanine . Here , we show that RECQL 4 helicase has a preferential activity in vitro on telomeric substrates containing thymine glycol , a critical lesion that blocks DNA metabolism , and can be modestly stimulated further on a D-loop structure by TRF 2 , a telomeric shelterin protein . Unlike that reported for telomeric D-loops containing 8 -oxoguanine , RECQL 4 does not cooperate with WRN to unwind telomeric D-loops with thymine glycol , suggesting RECQL 4 helicase is selective for the type of oxidative lesion . RECQL 4 's function at the telomere is not yet understood , and our findings suggest a novel role for RECQL 4 in the repair of thymine glycol lesions to promote efficient telomeric maintenance .

Diseases
Validation

Diseases presenting "segmental premature aging disorders such as werner syndrome and rothmund-thomson syndrome" symptom

werner syndrome

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