与去甲化有关的 Hsp90 的天然变异体。

A naturally occurring variant of Hsp90 that is associated with decanalization.

机构信息

Centre for Environmental Stress and Adaptation Research, School of Biological Sciences, Monash University, Clayton, Melbourne, Australia.

出版信息

Proc Biol Sci. 2010 Jul 7;277(1690):2049-57. doi: 10.1098/rspb.2010.0008. Epub 2010 Mar 3.

DOI:10.1098/rspb.2010.0008

PMID:20200026

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2880099/

Abstract

The heat shock protein Hsp90 has been the focus of many studies since it was suggested that it acts to mediate the buffering of phenotypic variation. Hsp90-mediated buffering may result in the accumulation of cryptic genetic variation that, when released either as a consequence of environmental or genetic stress, increases the evolvability of a population. Recent studies using laboratory-induced mutations of Hsp90 and/or chemical inhibition to disrupt Hsp90 function confirm that Hsp90 can buffer cryptic genetic variation. We have previously identified a naturally occurring variant in the charged linker region of the Hsp90 gene, and now examine whether this variant is associated with altered levels of trait variability. The variant is associated with the release of cryptic genetic variation for canalized morphological (bristle) traits, but not for uncanalized morphological (wing and bristle) traits, and the effect on canalized traits depends on culture temperature. This suggests that natural genetic variation in Hsp90 may mediate the evolution of canalized morphological traits even if it does not influence the expression of variation for uncanalized traits.

摘要

热休克蛋白 Hsp90 自被提出其作用是介导表型变异的缓冲以来，一直是许多研究的焦点。Hsp90 介导的缓冲可能导致隐性遗传变异的积累，当这些变异由于环境或遗传压力而释放时，会增加种群的可进化性。最近使用实验室诱导的 Hsp90 突变和/或化学抑制来破坏 Hsp90 功能的研究证实，Hsp90 可以缓冲隐性遗传变异。我们之前在 Hsp90 基因的带电连接区域发现了一种自然发生的变异，现在研究这个变异是否与性状可变性的改变水平有关。该变体与 canalized 形态（刚毛）性状的隐性遗传变异的释放有关，但与非 canalized 形态（翅膀和刚毛）性状的遗传变异无关，并且这种对 canalized 性状的影响取决于培养温度。这表明，即使 Hsp90 中的自然遗传变异不影响非 canalized 性状变异的表达，它也可能介导 canalized 形态性状的进化。

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