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Browsing by Author "Yuan, Bo"
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Item BICRA, a SWI/SNF Complex Member, Is Associated with BAF-Disorder Related Phenotypes in Humans and Model Organisms(Elsevier, 2020-12-03) Barish, Scott; Barakat, Tahsin Stefan; Michel, Brittany C.; Mashtalir, Nazar; Phillips, Jennifer B.; Valencia, Alfredo M.; Ugur, Berrak; Wegner, Jeremy; Scott, Tiana M.; Bostwick, Brett; Murdock, David R.; Dai, Hongzheng; Perenthaler, Elena; Nikoncuk, Anita; van Slegtenhorst, Marjon; Brooks, Alice S.; Keren, Boris; Nava, Caroline; Mignot, Cyril; Douglas, Jessica; Rodan, Lance; Nowak, Catherine; Ellard, Sian; Stals, Karen; Lynch, Sally Ann; Faoucher, Marie; Lesca, Gaetan; Edery, Patrick; Engleman, Kendra L.; Zhou, Dihong; Thiffault, Isabelle; Herriges, John; Gass, Jennifer; Louie, Raymond J.; Stolerman, Elliot; Washington, Camerun; Vetrini, Francesco; Otsubo, Aiko; Pratt, Victoria M.; Conboy, Erin; Treat, Kayla; Shannon, Nora; Camacho, Jose; Wakeling, Emma; Yuan, Bo; Chen, Chun-An; Rosenfeld, Jill A.; Westerfield, Monte; Wangler, Michael; Yamamoto, Shinya; Kadoch, Cigall; Scott, Daryl A.; Bellen, Hugo J.; Medical and Molecular Genetics, School of MedicineSWI/SNF-related intellectual disability disorders (SSRIDDs) are rare neurodevelopmental disorders characterized by developmental disability, coarse facial features, and fifth digit/nail hypoplasia that are caused by pathogenic variants in genes that encode for members of the SWI/SNF (or BAF) family of chromatin remodeling complexes. We have identified 12 individuals with rare variants (10 loss-of-function, 2 missense) in the BICRA (BRD4 interacting chromatin remodeling complex-associated protein) gene, also known as GLTSCR1, which encodes a subunit of the non-canonical BAF (ncBAF) complex. These individuals exhibited neurodevelopmental phenotypes that include developmental delay, intellectual disability, autism spectrum disorder, and behavioral abnormalities as well as dysmorphic features. Notably, the majority of individuals lack the fifth digit/nail hypoplasia phenotype, a hallmark of most SSRIDDs. To confirm the role of BICRA in the development of these phenotypes, we performed functional characterization of the zebrafish and Drosophila orthologs of BICRA. In zebrafish, a mutation of bicra that mimics one of the loss-of-function variants leads to craniofacial defects possibly akin to the dysmorphic facial features seen in individuals harboring putatively pathogenic BICRA variants. We further show that Bicra physically binds to other non-canonical ncBAF complex members, including the BRD9/7 ortholog, CG7154, and is the defining member of the ncBAF complex in flies. Like other SWI/SNF complex members, loss of Bicra function in flies acts as a dominant enhancer of position effect variegation but in a more context-specific manner. We conclude that haploinsufficiency of BICRA leads to a unique SSRIDD in humans whose phenotypes overlap with those previously reported.Item Genetic architecture of laterality defects revealed by whole exome sequencing(Springer Nature, 2019-04) Li, Alexander H.; Hanchard, Neil A.; Azamian, Mahshid; D’Alessandro, Lisa C. A.; Coban-Akdemir, Zeynep; Lopez, Keila N.; Hall, Nancy J.; Dickerson, Heather; Nicosia, Annarita; Fernbach, Susan; Boone, Philip M.; Gambin, Tomaz; Karaca, Ender; Gu, Shen; Yuan, Bo; Jhangiani, Shalini N.; Doddapaneni, HarshaVardhan; Hu, Jianhong; Dinh, Huyen; Jayaseelan, Joy; Muzny, Donna; Lalani, Seema; Towbin, Jeffrey; Penny, Daniel; Fraser, Charles; Martin, James; Lupski, James R.; Gibbs, Richard A.; Boerwinkle, Eric; Ware, Stephanie M.; Belmont, John W.; Pediatrics, School of MedicineAberrant left-right patterning in the developing human embryo can lead to a broad spectrum of congenital malformations. The causes of most laterality defects are not known, with variants in established genes accounting for <20% of cases. We sought to characterize the genetic spectrum of these conditions by performing whole-exome sequencing of 323 unrelated laterality cases. We investigated the role of rare, predicted-damaging variation in 1726 putative laterality candidate genes derived from model organisms, pathway analyses, and human phenotypes. We also evaluated the contribution of homo/hemizygous exon deletions and gene-based burden of rare variation. A total of 28 candidate variants (26 rare predicted-damaging variants and 2 hemizygous deletions) were identified, including variants in genes known to cause heterotaxy and primary ciliary dyskinesia (ACVR2B, NODAL, ZIC3, DNAI1, DNAH5, HYDIN, MMP21), and genes without a human phenotype association, but with prior evidence for a role in embryonic laterality or cardiac development. Sanger validation of the latter variants in probands and their parents revealed no de novo variants, but apparent transmitted heterozygous (ROCK2, ISL1, SMAD2), and hemizygous (RAI2, RIPPLY1) variant patterns. Collectively, these variants account for 7.1% of our study subjects. We also observe evidence for an excess burden of rare, predicted loss-of-function variation in PXDNL and BMS1- two genes relevant to the broader laterality phenotype. These findings highlight potential new genes in the development of laterality defects, and suggest extensive locus heterogeneity and complex genetic models in this class of birth defects.