Transient chromatin decompaction at the start of D. melanogaster male embryonic germline development.

IF 3.3 2区生物学 Q1 BIOLOGY Life Science Alliance Pub Date : 2024-07-11 Print Date: 2024-10-01 DOI:10.26508/lsa.202302401

Yi-Ru Li, Li Bin Ling, Angel Chao, Sebastian D Fugmann, Shu Yuan Yang

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Abstract

Embryonic germ cells develop rapidly to establish the foundation for future developmental trajectories, and in this process, they make critical lineage choices including the configuration of their unique identity and a decision on sex. Here, we use single-cell genomics patterns for the entire embryonic germline in Drosophila melanogaster along with the somatic gonadal precursors after embryonic gonad coalescence to investigate molecular mechanisms involved in the setting up and regulation of the germline program. Profiling of the early germline chromatin landscape revealed sex- and stage-specific features. In the male germline immediately after zygotic activation, the chromatin structure underwent a brief remodeling phase during which nucleosome density was lower and deconcentrated from promoter regions. These findings echoed enrichment analysis results of our genomics data in which top candidates were factors with the ability to mediate large-scale chromatin reorganization. Together, they point to the importance of chromatin regulation in the early germline and raise the possibility of a conserved epigenetic reprogramming-like process required for proper initiation of germline development.

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黑腹蝇雄性胚胎生殖系发育初期的瞬时染色质分解。

胚胎生殖细胞发育迅速，为未来的发育轨迹奠定了基础，在这一过程中，它们做出了关键的系谱选择，包括配置其独特的身份和决定性别。在这里，我们利用黑腹果蝇整个胚胎生殖细胞以及胚胎性腺凝聚后的体细胞性腺前体的单细胞基因组学模式来研究生殖细胞程序的建立和调控的分子机制。早期生殖系染色质图谱显示了性别和阶段特异性特征。在男性生殖系中，染色质结构在合子激活后立即经历了一个短暂的重塑阶段，在此期间核小体密度较低，并从启动子区域分散开来。这些发现与我们的基因组学数据的富集分析结果相吻合，其中最重要的候选因子具有介导大规模染色质重组的能力。这些发现共同表明了染色质调控在早期生殖系中的重要性，并提出了一种保守的类似于表观遗传重编程的过程的可能性，这种过程是生殖系发育正常启动所必需的。

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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来源期刊

Life Science Alliance Agricultural and Biological Sciences-Plant Science

CiteScore

5.80

自引率

2.30%

发文量

241

审稿时长

10 weeks

期刊介绍： Life Science Alliance is a global, open-access, editorially independent, and peer-reviewed journal launched by an alliance of EMBO Press, Rockefeller University Press, and Cold Spring Harbor Laboratory Press. Life Science Alliance is committed to rapid, fair, and transparent publication of valuable research from across all areas in the life sciences.

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