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Comprehensive multi-omic profiling of somatic mutations in malformations of cortical development

Authors
 Chung, Changuk  ;  Yang, Xiaoxu  ;  Bae, Taejeong  ;  Vong, Keng Ioi  ;  Mittal, Swapnil H.  ;  Donkels, Catharina  ;  Westley Phillips, H.  ;  Li, Zhen  ;  Marsh, Ashley P. L.  ;  Breuss, Martin  ;  Ball, Laurel  ;  Garcia, Camila Araujo Bernardino  ;  George, Renee  ;  Gu, Jing  ;  Xu, Mingchu  ;  Barrows, Chelsea  ;  James, Kiely  ;  Stanley, Valentina  ;  Nidhiry, Anna  ;  Khoury, Sami  ;  Howe, Gabrielle  ;  Riley, Emily  ;  Xu, Xin  ;  Copeland, Brett  ;  Wang, Yifan G.  ;  Kim, Se Hoon L.  ;  Kang, Hoon-Chul W.  ;  Schulze-Bonhage, Andreas  ;  Haas, Carola  ;  Urbach, Horst  ;  Prinz, Marco  ;  Limbrick, David A.  ;  Gurnett, Christina  ;  Smyth, Matthew C.  ;  Sattar, Shifteh M.  ;  Nespeca, Mark B.  ;  Gonda, David V.  ;  Imai, Katsumi Y.  ;  Takahashi, Yukitoshi E.  ;  Chen, Hsin-Hung B.  ;  Tsai, Jin-Wu  ;  Conti, Valerio  ;  Guerrini, Renzo  ;  Devinsky, Orrin  ;  Silva, Wilson  ;  Machado, Helio M.  ;  Mathern, Gary  ;  Abyzov, Alexej  ;  Baldassari, Sara  ;  Baulac, Stephanie  ;  Gleeson, Joseph G. 
Citation
 NATURE GENETICS, Vol.55(2) : 209-220, 2023-02 
Journal Title
NATURE GENETICS
ISSN
 1061-4036 
Issue Date
2023-02
Abstract
Malformations of cortical development (MCD) are neurological conditions involving focal disruptions of cortical architecture and cellular organization that arise during embryogenesis, largely from somatic mosaic mutations, and cause intractable epilepsy. Identifying the genetic causes of MCD has been a challenge, as mutations remain at low allelic fractions in brain tissue resected to treat condition-related epilepsy. Here we report a genetic landscape from 283 brain resections, identifying 69 mutated genes through intensive profiling of somatic mutations, combining whole-exome and targeted-amplicon sequencing with functional validation including in utero electroporation of mice and single-nucleus RNA sequencing. Genotype-phenotype correlation analysis elucidated specific MCD gene sets associated with distinct pathophysiological and clinical phenotypes. The unique single-cell level spatiotemporal expression patterns of mutated genes in control and patient brains indicate critical roles in excitatory neurogenic pools during brain development and in promoting neuronal hyperexcitability after birth.
DOI
10.1038/s41588-022-01276-9
Appears in Collections:
1. College of Medicine (의과대학) > Dept. of Pathology (병리학교실) > 1. Journal Papers
1. College of Medicine (의과대학) > Dept. of Pediatrics (소아과학교실) > 1. Journal Papers
Yonsei Authors
Kang, Hoon Chul(강훈철) ORCID logo https://orcid.org/0000-0002-3659-8847
Kim, Se Hoon(김세훈) ORCID logo https://orcid.org/0000-0001-7516-7372
URI
https://ir.ymlib.yonsei.ac.kr/handle/22282913/198237
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