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Literature DB >> 31587868

Missense Mutations in NKAP Cause a Disorder of Transcriptional Regulation Characterized by Marfanoid Habitus and Cognitive Impairment.

Sarah K Fiordaliso¹, Aiko Iwata-Otsubo¹, Alyssa L Ritter¹, Mathieu Quesnel-Vallières², Katsunori Fujiki³, Eriko Nishi⁴, Miroslava Hancarova⁵, Noriko Miyake⁶, Jenny E V Morton⁷, Sangmoon Lee⁸, Karl Hackmann⁹, Masashige Bando³, Koji Masuda³, Ryuichiro Nakato³, Michiko Arakawa⁴, Elizabeth Bhoj¹⁰, Dong Li¹¹, Hakon Hakonarson¹⁰, Ryojun Takeda⁴, Margaret Harr¹¹, Beth Keena¹, Elaine H Zackai¹², Nobuhiko Okamoto¹³, Seiji Mizuno¹⁴, Jung Min Ko¹⁵, Alica Valachova¹⁶, Darina Prchalova⁵, Marketa Vlckova⁵, Tommaso Pippucci¹⁷, Christoph Seiler¹⁸, Murim Choi¹⁹, Naomichi Matsumoto⁶, Nataliya Di Donato⁹, Yoseph Barash², Zdenek Sedlacek⁵, Katsuhiko Shirahige³, Kosuke Izumi²⁰.

Abstract

NKAP is a ubiquitously expressed nucleoplasmic protein that is currently known as a transcriptional regulatory molecule via its interaction with HDAC3 and spliceosomal proteins. Here, we report a disorder of transcriptional regulation due to missense mutations in the X chromosome gene, NKAP. These mutations are clustered in the C-terminal region of NKAP where NKAP interacts with HDAC3 and post-catalytic spliceosomal complex proteins. Consistent with a role for the C-terminal region of NKAP in embryogenesis, nkap mutant zebrafish with a C-terminally truncated NKAP demonstrate severe developmental defects. The clinical features of affected individuals are highly conserved and include developmental delay, hypotonia, joint contractures, behavioral abnormalities, Marfanoid habitus, and scoliosis. In affected cases, transcriptome analysis revealed the presence of a unique transcriptome signature, which is characterized by the downregulation of long genes with higher exon numbers. These observations indicate the critical role of NKAP in transcriptional regulation and demonstrate that perturbations of the C-terminal region lead to developmental defects in both humans and zebrafish.

Entities: Chemical Disease Gene Species

Keywords: P-complex; spliceosome; splicing; transcriptome

Mesh：

Substances：

Year: 2019 PMID： 31587868 PMCID： PMC6848994 DOI： 10.1016/j.ajhg.2019.09.009

Source DB: PubMed Journal: Am J Hum Genet ISSN： 0002-9297 Impact factor: 11.025

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