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Literature DB >> 28424332

Improving genetic diagnosis in Mendelian disease with transcriptome sequencing.

Beryl B Cummings^1,2,3, Jamie L Marshall^1,2, Taru Tukiainen^1,2, Monkol Lek^1,2,4,5, Sandra Donkervoort⁶, A Reghan Foley⁶, Veronique Bolduc⁶, Leigh B Waddell^4,5, Sarah A Sandaradura^4,5, Gina L O'Grady^4,5, Elicia Estrella⁷, Hemakumar M Reddy⁸, Fengmei Zhao^1,2, Ben Weisburd^1,2, Konrad J Karczewski^1,2, Anne H O'Donnell-Luria^1,2, Daniel Birnbaum^1,2, Anna Sarkozy⁹, Ying Hu⁶, Hernan Gonorazky¹⁰, Kristl Claeys¹¹, Himanshu Joshi⁵, Adam Bournazos^4,5, Emily C Oates^4,5, Roula Ghaoui^4,5, Mark R Davis¹², Nigel G Laing^12,13, Ana Topf¹⁴, Peter B Kang^7,8, Alan H Beggs⁷, Kathryn N North¹⁵, Volker Straub¹⁴, James J Dowling¹⁰, Francesco Muntoni⁹, Nigel F Clarke^4,5, Sandra T Cooper^4,5, Carsten G Bönnemann⁶, Daniel G MacArthur^16,2.

Abstract

Exome and whole-genome sequencing are becoming increasingly routine approaches in Mendelian disease diagnosis. Despite their success, the current diagnostic rate for genomic analyses across a variety of rare diseases is approximately 25 to 50%. We explore the utility of transcriptome sequencing [RNA sequencing (RNA-seq)] as a complementary diagnostic tool in a cohort of 50 patients with genetically undiagnosed rare muscle disorders. We describe an integrated approach to analyze patient muscle RNA-seq, leveraging an analysis framework focused on the detection of transcript-level changes that are unique to the patient compared to more than 180 control skeletal muscle samples. We demonstrate the power of RNA-seq to validate candidate splice-disrupting mutations and to identify splice-altering variants in both exonic and deep intronic regions, yielding an overall diagnosis rate of 35%. We also report the discovery of a highly recurrent de novo intronic mutation in COL6A1 that results in a dominantly acting splice-gain event, disrupting the critical glycine repeat motif of the triple helical domain. We identify this pathogenic variant in a total of 27 genetically unsolved patients in an external collagen VI-like dystrophy cohort, thus explaining approximately 25% of patients clinically suggestive of having collagen VI dystrophy in whom prior genetic analysis is negative. Overall, this study represents a large systematic application of transcriptome sequencing to rare disease diagnosis and highlights its utility for the detection and interpretation of variants missed by current standard diagnostic approaches.

Entities: Chemical Disease Gene Mutation Species

Mesh：

Substances：
Collagen Type VI

Year: 2017 PMID： 28424332 PMCID： PMC5548421 DOI： 10.1126/scitranslmed.aal5209

Source DB: PubMed Journal: Sci Transl Med ISSN： 1946-6234 Impact factor: 17.956

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