Intersection of diverse neuronal genomes and neuropsychiatric disease: The Brain Somatic Mosaicism Network | Zendy

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Intersection of diverse neuronal genomes and neuropsychiatric disease: The Brain Somatic Mosaicism Network

Author(s) -

Michael J. McConnell,

John V. Moran,

Alexej Abyzov,

Schahram Akbarian,

Taejeong Bae,

Isidro CortésCiriano,

Jennifer A. Erwin,

Liana Fasching,

Diane A. Flasch,

Donald Freed,

Javier Ganz,

Andrew E. Jaffe,

Kenneth Y. Kwan,

MinSeok Kwon,

Michael A. Lodato,

Ryan E. Mills,

Apuã C.M. Paquola,

Rachel E. Rodin,

Chaggai Rosenbluh,

Nenad Šestan,

Maxwell A. Sherman,

Joo Heon Shin,

Saera Song,

Richard E. Straub,

Jeremy Thorpe,

Daniel R. Weinberger,

Alexander E. Urban,

Bo Zhou,

Fred H. Gage,

Thomas Lehner,

Geetha Senthil,

Christopher A. Walsh,

Andrew Chess,

Eric Courchesne,

Joseph G. Gleeson,

Jeffrey M. Kidd,

Peter J. Park,

Jonathan Pevsner,

Flora M. Vaccarino,

Alison R. Barton,

Stefan Bekiranov,

Craig L. Bohrson,

Ian Burbulis,

William D. Chronister,

Gianfilippo Coppola,

Kenneth Daily,

Alissa M. D’Gama,

Sarah B. Emery,

Trenton J. Frisbie,

Tianliuyun Gao,

Attila Gulyás-Kovács,

Mark F. Haakenson,

Jason M. Keil,

Huira C. Kopera,

Mandy M. Lam,

Eunjung Alice Lee,

Tomás MarquèsBonet,

Gary W. Mathern,

John B. Moldovan,

Matthew T. Oetjens,

Larsson Omberg,

Mette A. Peters,

Sirisha Pochareddy,

Tiziano Pramparo,

Aakrosh Ratan,

Tiziana Sanavia,

Lei Shi,

Mario Škarica,

Jia Wang,

Meiyan Wang,

Yifan Wang,

Margaret E. Wierman,

Matthew J. Wolpert,

Mollie B. Woodworth,

Xuefang Zhao,

Weichen Zhou

Publication year - 2017

Publication title -

science

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 12.556

H-Index - 1186

eISSN - 1095-9203

pISSN - 0036-8075

DOI - 10.1126/science.aal1641

Subject(s) - somatic cell , biology , germline , genetics , context (archaeology) , neuroscience , population , gene , medicine , paleontology , environmental health

Neuropsychiatric disorders have a complex genetic architecture. Human genetic population-based studies have identified numerous heritable sequence and structural genomic variants associated with susceptibility to neuropsychiatric disease. However, these germline variants do not fully account for disease risk. During brain development, progenitor cells undergo billions of cell divisions to generate the ~80 billion neurons in the brain. The failure to accurately repair DNA damage arising during replication, transcription, and cellular metabolism amid this dramatic cellular expansion can lead to somatic mutations. Somatic mutations that alter subsets of neuronal transcriptomes and proteomes can, in turn, affect cell proliferation and survival and lead to neurodevelopmental disorders. The long life span of individual neurons and the direct relationship between neural circuits and behavior suggest that somatic mutations in small populations of neurons can significantly affect individual neurodevelopment. The Brain Somatic Mosaicism Network has been founded to study somatic mosaicism both in neurotypical human brains and in the context of complex neuropsychiatric disorders.

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