霊長類の脳の遺伝子発現が脳の進化にどのような影響を与えるかを調べる過去最大の研究(UMass Amherst Biologists Lead Broadest-Ever Study of Primate Brains to See How Gene Expression Influences Brain Evolution)

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2024-03-28 マサチューセッツ大学アマースト校

マサチューセッツ大学アマースト校の生物学者を中心とする多学科の研究チームが、18種類の霊長類の間の遺伝子発現と脳の進化の関連性を調査した初めての研究結果を発表しました。彼らは各種類の脳組織からRNAトランスクリプトを収集し、その後、各種類の脳で発現する17,000の遺伝子のマップを生成しました。この研究は、脳活動や神経変性疾患についての洞察を提供する可能性があります。

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霊長類の脳における遺伝子発現進化のテンポと様式 Tempo and mode of gene expression evolution in the brain across primates

Katherine Rickelton ,Trisha M Zintel,Jason Pizzollo,Emily Miller,John J Ely,Mary Ann Raghanti,William D Hopkins,Patrick R Hof,Chet C Sherwood,Courtney C Babbitt
eLife  Published:Jan 26, 2024
DOI:https://doi.org/10.7554/eLife.70276

霊長類の脳の遺伝子発現が脳の進化にどのような影響を与えるかを調べる過去最大の研究(UMass Amherst Biologists Lead Broadest-Ever Study of Primate Brains to See How Gene Expression Influences Brain Evolution)

Abstract

Primate evolution has led to a remarkable diversity of behavioral specializations and pronounced brain size variation among species (Barton, 2012; DeCasien and Higham, 2019; Powell et al., 2017). Gene expression provides a promising opportunity for studying the molecular basis of brain evolution, but it has been explored in very few primate species to date (e.g. Khaitovich et al., 2005; Khrameeva et al., 2020; Ma et al., 2022; Somel et al., 2009). To understand the landscape of gene expression evolution across the primate lineage, we generated and analyzed RNA-seq data from four brain regions in an unprecedented eighteen species. Here, we show a remarkable level of variation in gene expression among hominid species, including humans and chimpanzees, despite their relatively recent divergence time from other primates. We found that individual genes display a wide range of expression dynamics across evolutionary time reflective of the diverse selection pressures acting on genes within primate brain tissue. Using our samples that represent a 190-fold difference in primate brain size, we identified genes with variation in expression most correlated with brain size. Our study extensively broadens the phylogenetic context of what is known about the molecular evolution of the brain across primates and identifies novel candidate genes for the study of genetic regulation of brain evolution.

生物工学一般
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