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Identification and Biochemical Characterization of a Novel Mutation in DDX11 Causing Warsaw Breakage Syndrome

2012; Wiley; Volume: 34; Issue: 1 Linguagem: Inglês

10.1002/humu.22226

1098-1004

José‐Mario Capo‐Chichi, Sanjay Kumar Bharti, Joshua A. Sommers, Tony Yammine, Éliane Chouery, Lysanne Patry, Guy A. Rouleau, Mark Samuels, Fadi F. Hamdan, Jacques L. Michaud, Robert Brosh, André Mégarbané, Zoha Kibar,

Mitochondrial Function and Pathology

Mutations in the gene encoding the iron–sulfur-containing DNA helicase DDX11 (ChlR1) were recently identified as a cause of a new recessive cohesinopathy, Warsaw breakage syndrome (WABS), in a single patient with severe microcephaly, pre- and postnatal growth retardation, and abnormal skin pigmentation. Here, using homozygosity mapping in a Lebanese consanguineous family followed by exome sequencing, we identified a novel homozygous mutation (c.788G>A [p.R263Q]) in DDX11 in three affected siblings with severe intellectual disability and many of the congenital abnormalities reported in the WABS original case. Cultured lymphocytes from the patients showed increased mitomycin C-induced chromosomal breakage, as found in WABS. Biochemical studies of purified recombinant DDX11 indicated that the p.R263Q mutation impaired DDX11 helicase activity by perturbing its DNA binding and DNA-dependent ATP hydrolysis. Our findings thus confirm the involvement of DDX11 in WABS, describe its phenotypical spectrum, and provide novel insight into the structural requirement for DDX11 activity.