Ying Ding, Chen Zhang, Qisheng Zuo, Kai Jin, Bichun Li
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Quantitative reverse transcription polymerase chain reaction (qRT-PCR) showed that ASH2L, DPY30, WDR5, and RBBP5 overexpression significantly increased the expression of Bmp4, which was up-regulated after lncCPSET1 overexpression as well. It indicated that Bmp4 is a target gene co-regulated by lncCPSET1 and MLL2/COMPASS. Interestingly, co-immunoprecipitation results showed that ASH2L, DPY30 and WDR5 combined and RBBP5 weakly combined with DPY30 and WDR5. lncCPSET1 overexpression significantly increased Dpy30 expression and co-immunoprecipitation showed that interference/overexpression of lncCPSET1 did not affect the binding between the proteins in the complexes, but interference with lncCPSET1 inhibited DPY30 expression, which was confirmed by RNA immunoprecipitation that lncCPSET1 binds to DPY30. Additionally, CHIP-qPCR results showed that DPY30 enriched in the Bmp4 promoter region promoted its transcription, thus promoting the formation of PGCs. 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引用次数: 0
摘要
原始生殖细胞(PGC)是雌性和雄性生殖细胞的祖先。最近的研究表明,长非编码 RNA(lncRNA)和组蛋白甲基化是影响 PGC 形成的关键表观遗传因素;然而,它们的联合调控机制却很少被研究。在这里,我们首次探索了lncCPSET1和H3K4me2协同调控鸡PGC形成的机制。结合染色质免疫共沉淀(CHIP)测序和转染了lncCPSET1过表达载体的PGCs的RNA-seq分析,GO注释和KEGG富集分析显示,Wnt和TGF-β信号通路被显著富集,Fzd2、Id1、Id4和Bmp4被确定为候选基因。定量反转录聚合酶链反应(qRT-PCR)显示,ASH2L、DPY30、WDR5和RBBP5的过表达明显增加了Bmp4的表达,而在lncCPSET1过表达后,Bmp4的表达也上调。这表明Bmp4是lncCPSET1和MLL2/COMPASS共同调控的靶基因。有趣的是,共免疫沉淀结果显示,ASH2L、DPY30和WDR5结合,RBBP5与DPY30和WDR5弱结合。lncCPSET1的过表达明显增加了Dpy30的表达,共免疫沉淀显示,干扰/过表达lncCPSET1并不影响复合物中蛋白之间的结合,但干扰lncCPSET1会抑制DPY30的表达,RNA免疫沉淀证实lncCPSET1与DPY30结合。此外,CHIP-qPCR结果显示,富集在Bmp4启动子区域的DPY30促进了Bmp4的转录,从而促进了PGCs的形成。该研究表明,lncCPSET1与H3K4me2协同促进了PGCs的形成,为研究lncRNA与组蛋白甲基化之间的调控机制提供了参考,也为阐明鸡PGCs的形成机制提供了分子基础。
lncCPSET1 acts as a scaffold for MLL2/COMPASS to regulate Bmp4 and promote the formation of chicken primordial germ cells.
Primordial germ cells (PGCs) are the ancestors of female and male germ cells. Recent studies have shown that long non-coding RNA (lncRNA) and histone methylation are key epigenetic factors affecting PGC formation; however, their joint regulatory mechanisms have rarely been studied. Here, we explored the mechanism by which lncCPSET1 and H3K4me2 synergistically regulate the formation of chicken PGCs for the first time. Combined with chromatin immunoprecipitation (CHIP) sequencing and RNA-seq of PGCs transfected with the lncCPSET1 overexpression vector, GO annotation and KEGG enrichment analysis revealed that Wnt and TGF-β signaling pathways were significantly enriched, and Fzd2, Id1, Id4, and Bmp4 were identified as candidate genes. Quantitative reverse transcription polymerase chain reaction (qRT-PCR) showed that ASH2L, DPY30, WDR5, and RBBP5 overexpression significantly increased the expression of Bmp4, which was up-regulated after lncCPSET1 overexpression as well. It indicated that Bmp4 is a target gene co-regulated by lncCPSET1 and MLL2/COMPASS. Interestingly, co-immunoprecipitation results showed that ASH2L, DPY30 and WDR5 combined and RBBP5 weakly combined with DPY30 and WDR5. lncCPSET1 overexpression significantly increased Dpy30 expression and co-immunoprecipitation showed that interference/overexpression of lncCPSET1 did not affect the binding between the proteins in the complexes, but interference with lncCPSET1 inhibited DPY30 expression, which was confirmed by RNA immunoprecipitation that lncCPSET1 binds to DPY30. Additionally, CHIP-qPCR results showed that DPY30 enriched in the Bmp4 promoter region promoted its transcription, thus promoting the formation of PGCs. This study demonstrated that lncCPSET1 and H3K4me2 synergistically promote PGC formation, providing a reference for the study of the regulatory mechanisms between lncRNA and histone methylation, as well as a molecular basis for elucidating the formation mechanism of PGCs in chickens.
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Molecular Genetics and Genomics (MGG) publishes peer-reviewed articles covering all areas of genetics and genomics. Any approach to the study of genes and genomes is considered, be it experimental, theoretical or synthetic. MGG publishes research on all organisms that is of broad interest to those working in the fields of genetics, genomics, biology, medicine and biotechnology.
The journal investigates a broad range of topics, including these from recent issues: mechanisms for extending longevity in a variety of organisms; screening of yeast metal homeostasis genes involved in mitochondrial functions; molecular mapping of cultivar-specific avirulence genes in the rice blast fungus and more.
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