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Bae, Taejeong; Fasching, Liana; Wang, Yifan; Shin, Joo Heon; Suvakov, Milovan; Jang, Yeongjun; Norton, Scott; Dias, Caroline; Mariani, Jessica; Jourdon, Alexandre; Wu, Feinan; Panda, Arijit; Pattni, Reenal; Chahine, Yasmine; Yeh, Rebecca; Roberts, Rosalinda C.; Huttner, Anita; Kleinman, Joel E.; Hyde, Thomas M.; Straub, Richard E.; Walsh, Christopher A.; Urban, Alexander E.; Leckman, James F.; Weinberger, Daniel R.; [...]

Analysis of somatic mutations in 131 human brains reveals aging-associated hypermutability

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  • Media type: E-Article
  • Title: Analysis of somatic mutations in 131 human brains reveals aging-associated hypermutability
  • Contributor: Bae, Taejeong; Fasching, Liana; Wang, Yifan; Shin, Joo Heon; Suvakov, Milovan; Jang, Yeongjun; Norton, Scott; Dias, Caroline; Mariani, Jessica; Jourdon, Alexandre; Wu, Feinan; Panda, Arijit; Pattni, Reenal; Chahine, Yasmine; Yeh, Rebecca; Roberts, Rosalinda C.; Huttner, Anita; Kleinman, Joel E.; Hyde, Thomas M.; Straub, Richard E.; Walsh, Christopher A.; Urban, Alexander E.; Leckman, James F.; Weinberger, Daniel R.; [...]
  • Published: American Association for the Advancement of Science (AAAS), 2022
  • Published in: Science, 377 (2022) 6605, Seite 511-517
  • Language: English
  • DOI: 10.1126/science.abm6222
  • ISSN: 1095-9203; 0036-8075
  • Origination:
  • Footnote:
  • Description: We analyzed 131 human brains (44 neurotypical, 19 with Tourette syndrome, 9 with schizophrenia, and 59 with autism) for somatic mutations after whole genome sequencing to a depth of more than 200×. Typically, brains had 20 to 60 detectable single-nucleotide mutations, but ~6% of brains harbored hundreds of somatic mutations. Hypermutability was associated with age and damaging mutations in genes implicated in cancers and, in some brains, reflected in vivo clonal expansions. Somatic duplications, likely arising during development, were found in ~5% of normal and diseased brains, reflecting background mutagenesis. Brains with autism were associated with mutations creating putative transcription factor binding motifs in enhancer-like regions in the developing brain. The top-ranked affected motifs corresponded to MEIS (myeloid ectopic viral integration site) transcription factors, suggesting a potential link between their involvement in gene regulation and autism.