Relevance and mechanisms of transvection.

Pub Date : 2021-12-20 DOI:10.5802/crbiol.69
Charalampos Chrysovalantis Galouzis, Benjamin Prud'homme
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Abstract

Transvection, the functional interaction between homologous alleles, was first described in Drosophila in the 1950's. While transvection has been documented in a growing list of genes, using mutant alleles or synthetic constructs, in Drosophila and other organisms, the extent of its relevance to gene expression in physiological conditions has remained questionable. The molecular mechanisms underlying transvection are still largely unexplored, although hints suggest a link with the general machinery that controls the genome organization in the nucleus. In this review, we discuss recent results establishing the relevance of transvection for proper gene regulation, and in particular for the sexually dimorphic regulation of the Drosophila X-linked gene yellow. We also discuss the role that DNA insulator sequences and chromatin architectural proteins play in bringing in proximity homologous alleles, and how they may contribute to interallelic gene regulation.

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横切的相关性和机制。
横切是同源等位基因之间的功能相互作用,在20世纪50年代首次在果蝇中被描述。虽然在果蝇和其他生物中,使用突变等位基因或合成结构体的基因转染已被记录在越来越多的基因列表中,但其与生理条件下基因表达的相关性程度仍然值得怀疑。横切的分子机制在很大程度上仍未被探索,尽管有迹象表明它与控制细胞核中基因组组织的一般机制有关。在这篇综述中,我们讨论了最近的研究结果,建立了横切与适当基因调控的相关性,特别是与果蝇x连锁基因黄色的两性二态调控有关。我们还讨论了DNA绝缘子序列和染色质结构蛋白在引入邻近同源等位基因中的作用,以及它们如何有助于等位基因间的基因调控。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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