siRNA that participates in Drosophila dosage compensation is produced by many 1.688X and 359 bp repeats.

IF 3.3 3区 生物学 Q2 GENETICS & HEREDITY
Genetics Pub Date : 2024-07-08 DOI:10.1093/genetics/iyae074
Sudeshna Biswas, Katherine Gurdziel, Victoria H Meller
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引用次数: 0

Abstract

Organisms with differentiated sex chromosomes must accommodate unequal gene dosage in males and females. Male fruit flies increase X-linked gene expression to compensate for hemizygosity of their single X chromosome. Full compensation requires localization of the Male-Specific Lethal (MSL) complex to active genes on the male X, where it modulates chromatin to elevate expression. The mechanisms that identify X chromatin are poorly understood. The euchromatic X is enriched for AT-rich, ∼359 bp satellites termed the 1.688X repeats. Autosomal insertions of 1.688X DNA enable MSL recruitment to nearby genes. Ectopic expression of dsRNA from one of these repeats produces siRNA and partially restores X-localization of MSLs in males with defective X recognition. Surprisingly, expression of double-stranded RNA from three other 1.688X repeats failed to rescue males. We reconstructed dsRNA-expressing transgenes with sequence from two of these repeats and identified phasing of repeat DNA, rather than sequence or orientation, as the factor that determines rescue of males with defective X recognition. Small RNA sequencing revealed that siRNA was produced in flies with a transgene that rescues, but not in those carrying a transgene with the same repeat but different phasing. We demonstrate that pericentromeric X heterochromatin promotes X recognition through a maternal effect, potentially mediated by small RNA from closely related heterochromatic repeats. This suggests that the sources of siRNAs promoting X recognition are highly redundant. We propose that enrichment of satellite repeats on Drosophilid X chromosomes facilitates the rapid evolution of differentiated sex chromosomes by marking the X for compensation.

参与果蝇剂量补偿的 siRNA 由许多 1.688X 和 359 bp 重复序列产生。
具有分化的性染色体的生物必须适应雌雄基因剂量的不平等。雄性果蝇会增加 X 连锁基因的表达,以补偿其单条 X 染色体的半杂合性。要实现完全补偿,需要将雄性特异性致死复合物(MSL)定位到雄性 X 上的活性基因上,并在那里调节染色质以提高表达量。人们对识别 X 染色质的机制知之甚少。雄性 X 染色质富含 AT、359 bp 的卫星,称为 1.688X 重复序列。1.688X DNA 的常染色体插入使 MSL 能够被招募到附近的基因中。异位表达这些重复序列之一的dsRNA可产生siRNA,并部分恢复X识别缺陷雄性MSL的X定位。令人惊讶的是,来自其他三个 1.688X 重复序列的双链 RNA 的表达未能挽救雄性个体。我们用其中两个重复序列重建了表达dsRNA的转基因,并确定重复DNA的相位,而不是序列或方向,是决定挽救X识别缺陷雄性个体的因素。小 RNA 测序显示,转基因能挽救的雌蝇能产生 siRNA,而转基因重复序列相同但相位不同的雌蝇不能产生 siRNA。我们证明,中心粒周围的X异染色质通过母体效应促进X识别,这种效应可能是由来自密切相关的异染色质重复序列的小RNA介导的。这表明,促进 X 识别的 siRNA 来源是高度冗余的。我们提出,果蝇X染色体上卫星重复序列的富集通过标记X进行补偿,促进了分化的性染色体的快速进化。
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来源期刊
Genetics
Genetics GENETICS & HEREDITY-
CiteScore
6.90
自引率
6.10%
发文量
177
审稿时长
1.5 months
期刊介绍: GENETICS is published by the Genetics Society of America, a scholarly society that seeks to deepen our understanding of the living world by advancing our understanding of genetics. Since 1916, GENETICS has published high-quality, original research presenting novel findings bearing on genetics and genomics. The journal publishes empirical studies of organisms ranging from microbes to humans, as well as theoretical work. While it has an illustrious history, GENETICS has changed along with the communities it serves: it is not your mentor''s journal. The editors make decisions quickly – in around 30 days – without sacrificing the excellence and scholarship for which the journal has long been known. GENETICS is a peer reviewed, peer-edited journal, with an international reach and increasing visibility and impact. All editorial decisions are made through collaboration of at least two editors who are practicing scientists. GENETICS is constantly innovating: expanded types of content include Reviews, Commentary (current issues of interest to geneticists), Perspectives (historical), Primers (to introduce primary literature into the classroom), Toolbox Reviews, plus YeastBook, FlyBook, and WormBook (coming spring 2016). For particularly time-sensitive results, we publish Communications. As part of our mission to serve our communities, we''ve published thematic collections, including Genomic Selection, Multiparental Populations, Mouse Collaborative Cross, and the Genetics of Sex.
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