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Genetic and genomic studies of pathogenic EXOSC2 mutations in the newly described disease SHRF implicate the autophagy pathway in disease pathogenesis

Hum Mol Genet. 2020; 
Yang X, , Bayat V, DiDonato N, Zhao Y, Zarnegar B, Siprashvili Z, Lopez-Pajares V, Sun T, Tao S, Li C, Rump A, Khavari P, Lu B, .
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Gene Synthesis We would like to thank the Lu Lab members, Can Cenik, Cain Yam (BestGene), Molly Jia (GenScript), Su Guo (UCSF), Xinnan Wang (Stanford), Gerald Tiu (Stanford), Kotaro Fujii (Stanford), Shinya Yamamoto . Get A Quote

摘要

Missense mutations in the RNA exosome component exosome component 2 (EXOSC2), also known as ribosomal RNA-processing protein 4 (RRP4), were recently identified in two unrelated families with a novel syndrome known as Short stature, Hearing loss, Retinitis pigmentosa and distinctive Facies (SHRF, #OMIM 617763). Little is known about the mechanism of the SHRF pathogenesis. Here we have studied the effect of mutations in EXOSC2/RRP4 in patient-derived lymphoblasts, clustered regularly interspaced short palindromic repeats (CRISPR)-generated mutant fetal keratinocytes and Drosophila. We determined that human EXOSC2 is an essential gene and that the pathogenic G198D mutation prevents binding to other RNA exosome com... More

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