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Multimeric BLM is dissociated upon ATP hydrolysis and functions as monomers in resolving DNA structures.

Nucleic acids research (2012-08-14)
Ya-Nan Xu, Nicolas Bazeille, Xiu-Yan Ding, Xi-Ming Lu, Peng-Ye Wang, Elisabeth Bugnard, Virginie Grondin, Shuo-Xing Dou, Xu Guang Xi
RÉSUMÉ

Bloom (BLM) syndrome is an autosomal recessive disorder characterized by an increased risk for many types of cancers. Previous studies have shown that BLM protein forms a hexameric ring structure, but its oligomeric form in DNA unwinding is still not well clarified. In this work, we have used dynamic light scattering and various stopped-flow assays to study the active form and kinetic mechanism of BLM in DNA unwinding. It was found that BLM multimers were dissociated upon ATP hydrolysis. Steady-state and single-turnover kinetic studies revealed that BLM helicase always unwound duplex DNA in the monomeric form under conditions of varying enzyme and ATP concentrations as well as 3'-ssDNA tail lengths, with no sign of oligomerization being discerned. Measurements of ATPase activity further indicated that BLM helicase might still function as monomers in resolving highly structured DNAs such as Holliday junctions and D-loops. These results shed new light on the underlying mechanism of BLM-mediated DNA unwinding and on the molecular and functional basis for the phenotype of heterozygous carriers of BLM syndrome.

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Adenosine 5′-(β,γ-imido)triphosphate lithium salt hydrate, ≥93% (HPLC), powder