转导调控蝇 X 连锁基因的性别偏性表达。

Transvection regulates the sex-biased expression of a fly X-linked gene.

机构信息

Aix-Marseille Université, CNRS, Institut de Biologie du Développement de Marseille (IBDM), Campus de Luminy Case 907, 13288 Marseille Cedex 9, France.

出版信息

Science. 2021 Jan 22;371(6527):396-400. doi: 10.1126/science.abc2745.

DOI:10.1126/science.abc2745

PMID:33479152

Abstract

Sexual dimorphism in animals results from sex-biased gene expression patterns. These patterns are controlled by genetic sex determination hierarchies that establish the sex of an individual. Here we show that the male-biased wing expression pattern of the gene , located on the X chromosome, is independent of the fly sex determination hierarchy. Instead, we find that a regulatory interaction between alleles on homologous chromosomes (a process known as transvection) silences the activity of a enhancer functioning in the wing. Therefore, this enhancer can be active in males (XY) but not in females (XX). This transvection-dependent enhancer silencing requires the intron and the chromatin architecture protein Mod(mdg4). Our results suggest that transvection can contribute more generally to the sex-biased expression of X-linked genes.

摘要

动物的性别二态性源于性别偏向的基因表达模式。这些模式受性别决定层次结构控制，该结构决定个体的性别。在这里，我们表明位于 X 染色体上的基因的雄性偏向的翅膀表达模式独立于苍蝇性别决定层次结构。相反，我们发现同源染色体上的等位基因之间的调节相互作用（称为转导）沉默了在翅膀中起作用的基因的增强子的活性。因此，该增强子可以在雄性（XY）中活跃，但不能在雌性（XX）中活跃。这种依赖转导的增强子沉默需要基因的内含子和染色质结构蛋白 Mod(mdg4)。我们的结果表明，转导可以更普遍地导致 X 连锁基因的性别偏向表达。

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转导调控蝇 X 连锁基因的性别偏性表达。

Transvection regulates the sex-biased expression of a fly X-linked gene.

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