Mutations in U4atac snRNA, a Component of the Minor Spliceosome, in the Developmental Disorder MOPD I

Huiling He; Sandya Liyanarachchi; Keiko Akagi; Rebecca Nagy; Jingfeng Li; Rosemary C. Dietrich; Wei Li; Nikhil Sebastian; Bernard Wen; Baozhong Xin; Jarnail Singh; Pearlly S. Yan; Hansjüerg Alder; Eric Haan; Dagmar Wieczorek; Beate Albrecht; Erik G. Puffenberger; Heng Wang; Judith A. Westman; Richard A. Padgett; David E. Symer; Albert de la Chapelle

doi:10.1126/science.1200587

Mutations in U4atac snRNA, a Component of the Minor Spliceosome, in the Developmental Disorder MOPD I

Huiling He(Cancer Genetics (United States)), Sandya Liyanarachchi(Cancer Genetics (United States)), Keiko Akagi(Cancer Genetics (United States)), Rebecca Nagy(Cancer Genetics (United States)), Jingfeng Li(Cancer Genetics (United States)), Rosemary C. Dietrich(Cleveland Clinic Lerner College of Medicine), Wei Li(Cancer Genetics (United States)), Nikhil Sebastian(Cancer Genetics (United States)), Bernard Wen(Cancer Genetics (United States)), Baozhong Xin(Center For Children With Special Needs), Jarnail Singh(Cleveland Clinic Lerner College of Medicine), Pearlly S. Yan(Cancer Genetics (United States)), Hansjüerg Alder(Cancer Genetics (United States)), Eric Haan(South Australia Pathology), Dagmar Wieczorek(Essen University Hospital), Beate Albrecht(Essen University Hospital), Erik G. Puffenberger(Clinic for Special Children), Heng Wang(Center For Children With Special Needs), Judith A. Westman(Cancer Genetics (United States)), Richard A. Padgett(Cleveland Clinic Lerner College of Medicine), David E. Symer(Cancer Genetics (United States)), Albert de la Chapelle(Cancer Genetics (United States))

Science

April 8, 2011

10.1126/science.1200587

Cited by 260

Abstract

Small nuclear RNAs (snRNAs) are essential factors in messenger RNA splicing. By means of homozygosity mapping and deep sequencing, we show that a gene encoding U4atac snRNA, a component of the minor U12-dependent spliceosome, is mutated in individuals with microcephalic osteodysplastic primordial dwarfism type I (MOPD I), a severe developmental disorder characterized by extreme intrauterine growth retardation and multiple organ abnormalities. Functional assays showed that mutations (30G>A, 51G>A, 55G>A, and 111G>A) associated with MOPD I cause defective U12-dependent splicing. Endogenous U12-dependent but not U2-dependent introns were found to be poorly spliced in MOPD I patient fibroblast cells. The introduction of wild-type U4atac snRNA into MOPD I cells enhanced U12-dependent splicing. These results illustrate the critical role of minor intron splicing in human development.

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