生物
剪接体
RNA剪接
遗传学
基因
小核RNA
内含子
核糖核酸
计算生物学
非编码RNA
作者
Caroline Nava,Benjamin Cogné,A. Santini,Elsa Leitão,François Lecoquierre,Yuyang Chen,Sarah L. Stenton,Thomas Besnard,Solveig Heide,Sarah Baer,Abhilasha Jakhar,Sonja Neuser,Boris Keren,Anne Faudet,Sylvie Forlani,Marie Faoucher,Kévin Uguen,Konrad Platzer,Alexandra Afenjar,Jean‐Luc Alessandri
出处
期刊:Nature Genetics
[Nature Portfolio]
日期:2025-05-16
卷期号:57 (6): 1374-1388
被引量:27
标识
DOI:10.1038/s41588-025-02184-4
摘要
The major spliceosome contains five small nuclear RNAs (snRNAs; U1, U2, U4, U5 and U6) essential for splicing. Variants in RNU4-2, encoding U4, cause a neurodevelopmental disorder called ReNU syndrome. We investigated de novo variants in 50 snRNA-encoding genes in a French cohort of 23,649 individuals with rare disorders and gathered additional cases through international collaborations. Altogether, we identified 145 previously unreported probands with (likely) pathogenic variants in RNU4-2 and 21 individuals with de novo and/or recurrent variants in RNU5B-1 and RNU5A-1, encoding U5. Pathogenic variants typically arose de novo on the maternal allele and cluster in regions critical for splicing. RNU4-2 variants mainly localize to two structures, the stem III and T-loop/quasi-pseudoknot, which position the U6 ACAGAGA box for 5' splice site recognition and associate with different phenotypic severity. RNU4-2 variants result in specific defects in alternative 5' splice site usage and methylation patterns (episignatures) that correlate with variant location and clinical severity. This study establishes RNU5B-1 as a neurodevelopmental disorder gene, suggests RNU5A-1 as a strong candidate and highlights the role of de novo variants in snRNAs.
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