Wei Xu , Xin Liu , Jinjin Li , Changbin Sun , Luxi Chen , Jincong Zhou , Kuan Li , Qin Li , Anming Meng , Qianwen Sun
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引用次数: 0
摘要
R环是一种染色质结构,包含一个RNA:DNA杂交体和一个未配对的单链DNA,具有多种生物学作用。然而,由于技术限制,R-环在胚胎发生过程中的景观和潜在功能仍然难以捉摸。在这里,我们开发了一种定量、高分辨率的超低输入R环图谱绘制方法,命名为ULI-ssDRIP-seq。通过ULI-ssDRIP-seq,我们揭示了斑马鱼从配子到早期胚胎的R环动态。在卵母细胞中,除母体遗传的rDNA和线粒体基因组外,核基因组大部分区域的R环水平相对较低。在早期发育过程中,R-环和 CG 甲基化动态之间的相关性相对较弱。此外,通过敲除或过量表达 RNase H1 来上调或下调全局 R 环会导致胚胎发育延迟,并使子代和母代基因的表达发生巨大变化。这项研究提供了脊椎动物早期胚胎发育过程中的全面 R 环图谱,证明了 R 环在胚胎发育中的作用。
ULI-ssDRIP-seq revealed R-loop dynamics during vertebrate early embryogenesis
R-loop, a chromatin structure containing one RNA:DNA hybrid and one unpaired single-stranded DNA, plays multiple biological roles. However, due to technical limitations, the landscapes and potential functions of R-loops during embryogenesis remain elusive. Here, we developed a quantitative and high-resolution ultra-low input R-loop profiling method, named ULI-ssDRIP-seq, which can map global R-loops with as few as 1000 cells. By using ULI-ssDRIP-seq, we reveal the R-loop dynamics in the zebrafish from gametes to early embryos. In oocytes, the R-loop level is relatively low in most regions of the nuclear genome, except maternal-inherited rDNA and mitochondrial genome. The correlation between R-loop and CG methylation dynamics during early development is relatively weak. Furthermore, either up- or down-regulation of global R-loops by knockdown or overexpression of RNase H1 causes a delay of embryonic development with dramatic expression changes in zygotic and maternal genes. This study provides comprehensive R-loop landscapes during early vertebrate embryogenesis and demonstrates the implication of R-loops in embryonic development.
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