在子代基因组激活过程中,局部细胞核与细胞质的比例可调节伴侣依赖性 H3 变体的掺入

bioRxiv Pub Date : 2024-07-16 DOI:10.1101/2024.07.15.603602
Anusha D. Bhatt, Madeleine G. Brown, Aurora B. Wackford, Yuki Shindo, Amanda A. Amodeo
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摘要

早期胚胎的染色质往往结构相对不完整,缺乏分化细胞特有的活性和非活性结构域。在许多物种中,这些调控域是在子代基因组激活(ZGA)过程中建立起来的。在果蝇中,ZGA 发生在 13 次快速、还原性的同步核分裂之后,在此期间,核与胞质(N/C)的比率呈指数增长。这些分裂将母体负载的细胞质组蛋白池纳入染色质。以前的研究发现,在 ZGA 之前的细胞周期中,复制偶联组蛋白 H3 的染色质结合减少,而其变体 H3.3 则增加。在其他细胞类型中,H3.3 与活跃的转录位点以及异染色质相关,这表明 H3.3 的掺入与 ZGA 之间存在联系。在这里,我们研究了导致 H3.3 在 ZGA 上整合的因素。我们发现,在 ZGA 前的最后一个周期中,H3 的核可用性比 H3.3 的核可用性下降得更快。我们还观察到,在局部 N/C 比率不均匀的突变胚胎中,H3.3 的掺入量增加与 N/C 比率有关。我们发现,在内源性 H3.3A 基因座上使用 H3/H3.3 嵌合蛋白,控制掺入模式的是伴侣蛋白结合,而不是基因表达。我们利用 Hira(H3.3 合体)突变体胚胎测试了 H3.3 合体途径对 H3.3 结合的特异性。总之,我们提出了一个模型,在该模型中,局部 N/C 比率和特异性伴侣结合调节 ZGA 期间 H3.3 的不同结合。图表摘要
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Local nuclear to cytoplasmic ratio regulates chaperone-dependent H3 variant incorporation during zygotic genome activation
Early embryos often have relatively unstructured chromatin that lacks active and inactive domains typical of differentiated cells. In many species, these regulatory domains are established during zygotic genome activation (ZGA). In Drosophila, ZGA occurs after 13 fast, reductive, syncytial nuclear divisions during which the nuclear to cytoplasmic (N/C) ratio grows exponentially. These divisions incorporate maternally-loaded, cytoplasmic pools of histones into chromatin. Previous work found that chromatin incorporation of replication-coupled histone H3 decreases while its variant H3.3 increases in the cell cycles leading up to ZGA. In other cell types, H3.3 is associated with sites of active transcription as well as heterochromatin, suggesting a link between H3.3 incorporation and ZGA. Here, we examine the factors that contribute to H3.3 incorporation at ZGA. We identify a more rapid decrease in the nuclear availability of H3 than H3.3 over the final pre-ZGA cycles. We also observe an N/C ratio-dependent increase in H3.3 incorporation in mutant embryos with non-uniform local N/C ratios. We find that chaperone binding, not gene expression, controls incorporation patterns using H3/H3.3 chimeric proteins at the endogenous H3.3A locus. We test the specificity of the H3.3 chaperone pathways for H3.3 incorporation using Hira (H3.3 chaperone) mutant embryos. Overall, we propose a model in which local N/C ratios and specific chaperone binding regulate differential incorporation of H3.3 during ZGA. Graphical abstract
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