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The transcriptional underpinnings of brain development remain poorly understood, particularly in humans and closely related non-human primates. We describe a high-resolution transcriptional atlas of rhesus monkey (Macaca mulatta) brain development that combines dense temporal sampling of prenatal and postnatal periods with fine anatomical division of cortical and subcortical regions associated with human neuropsychiatric disease. Gene expression changes more rapidly before birth, both in progenitor cells and maturing neurons. Cortical layers and areas acquire adult-like molecular profiles surprisingly late in postnatal development. Disparate cell populations exhibit distinct developmental timing of gene expression, but also unexpected synchrony of processes underlying neural circuit construction including cell projection and adhesion. Candidate risk genes for neurodevelopmental disorders including primary microcephaly, autism spectrum disorder, intellectual disability, and schizophrenia show disease-specific spatiotemporal enrichment within developing neocortex. Human developmental expression trajectories are more similar to monkey than rodent, although approximately 9% of genes show human-specific regulation with evidence for prolonged maturation or neoteny compared to monkey.

Original publication

DOI

10.1038/nature18637

Type

Journal article

Journal

Nature

Publication Date

13/07/2016

Volume

535

Pages

367 - 375

Keywords

Aging, Animals, Autism Spectrum Disorder, Brain, Cell Adhesion, Conserved Sequence, Female, Humans, Intellectual Disability, Macaca mulatta, Male, Microcephaly, Neocortex, Neurodevelopmental Disorders, Neurogenesis, Risk Factors, Schizophrenia, Spatio-Temporal Analysis, Species Specificity, Transcription, Genetic, Transcriptome