性染色体进化过程中从基因剂量上分离基因表达的全染色体机制。

Chromosome-wide mechanisms to decouple gene expression from gene dose during sex-chromosome evolution.

机构信息

Department of Molecular and Cell Biology, Howard Hughes Medical Institute, University of California, Berkeley, Berkeley, United States.

Department of Biology, Howard Hughes Medical Institute, University of Utah, Salt Lake City, United States.

出版信息

Elife. 2016 Aug 30;5:e17365. doi: 10.7554/eLife.17365.

DOI:10.7554/eLife.17365

PMID:27572259

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5047749/

Abstract

Changes in chromosome number impair fitness by disrupting the balance of gene expression. Here we analyze mechanisms to compensate for changes in gene dose that accompanied the evolution of sex chromosomes from autosomes. Using single-copy transgenes integrated throughout the genome, we show that expression of all X-linked transgenes is balanced between XX hermaphrodites and XO males. However, proximity of a dosage compensation complex (DCC) binding site ( site) is neither necessary to repress X-linked transgenes nor sufficient to repress transgenes on autosomes. Thus, X is broadly permissive for dosage compensation, and the DCC acts via a chromosome-wide mechanism to balance transcription between sexes. In contrast, no analogous X-chromosome-wide mechanism balances transcription between X and autosomes: expression of compensated hermaphrodite X-linked transgenes is half that of autosomal transgenes. Furthermore, our results argue against an X-chromosome dosage compensation model contingent upon -directed positioning of X relative to the nuclear periphery.

摘要

染色体数目的变化通过破坏基因表达的平衡而损害适应性。在这里，我们分析了补偿伴随性染色体从常染色体进化而来的基因剂量变化的机制。我们使用整合在整个基因组中的单拷贝转基因，表明所有 X 连锁转基因在 XX 雌雄同体和 XO 雄性之间的表达是平衡的。然而，剂量补偿复合物（DCC）结合位点（site）的接近程度既不需要抑制 X 连锁转基因，也不需要抑制常染色体上的转基因。因此，X 广泛允许进行剂量补偿，并且 DCC 通过染色体范围的机制在性别之间平衡转录。相比之下，没有类似的 X 染色体全染色体范围的机制来平衡 X 和常染色体之间的转录：补偿后的雌雄同体 X 连锁转基因的表达是常染色体转基因的一半。此外，我们的结果反对依赖 X 相对于核周界的 -定向定位的 X 染色体剂量补偿模型。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/8ba4/5047749/d14f5fd48590/elife-17365-fig1.jpg

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性染色体进化过程中从基因剂量上分离基因表达的全染色体机制。

Chromosome-wide mechanisms to decouple gene expression from gene dose during sex-chromosome evolution.

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