小鼠Lfng 3'非翻译区中mir-125家族微小RNA的假定结合位点影响体节发生时钟中的转录本表达,但mir-125a-5p对于正常的体节发生并非必需。
Putative binding sites for mir-125 family miRNAs in the mouse Lfng 3'UTR affect transcript expression in the segmentation clock, but mir-125a-5p is dispensable for normal somitogenesis.
作者信息
Wahi Kanu, Friesen Sophia, Coppola Vincenzo, Cole Susan E
机构信息
Department of Molecular Genetics, College of Arts and Sciences, The Ohio State University, Columbus, Ohio.
Department of Cancer Biology and Genetics, College of Medicine, The Ohio State University, Columbus, Ohio.
出版信息
Dev Dyn. 2017 Oct;246(10):740-748. doi: 10.1002/dvdy.24552. Epub 2017 Aug 18.
BACKGROUND
In vertebrate embryos, a "segmentation clock" times somitogenesis. Clock-linked genes, including Lunatic fringe (Lfng), exhibit cyclic expression in the presomitic mesoderm (PSM), with a period matching the rate of somite formation. The clock period varies widely across species, but the mechanisms that underlie this variability are not clear. The half-lives of clock components are proposed to influence the rate of clock oscillations, and are tightly regulated in the PSM. Interactions between Lfng and mir-125a-5p in the embryonic chicken PSM promote Lfng transcript instability, but the conservation of this mechanism in other vertebrates has not been tested. Here, we examine whether this interaction affects clock activity in a mammalian species.
RESULTS
Mutation of mir-125 binding sites in the Lfng 3'UTR leads to persistent, nonoscillatory reporter transcript expression in the caudal-most mouse PSM, although dynamic transcript expression recovers in the central PSM. Despite this, expression of endogenous mir-125a-5p is dispensable for mouse somitogenesis.
CONCLUSIONS
These results suggest that mir-125a sites in the Lfng 3' untranslated region influence transcript turnover in both mouse and chicken embryos, and support the existence of position-dependent regulatory mechanisms in the PSM. They further suggest the existence of compensatory mechanisms that can rescue the loss of mir-125a-5p in mice. Developmental Dynamics 246:740-748, 2017. © 2017 Wiley Periodicals, Inc.
背景
在脊椎动物胚胎中,“体节时钟”控制着体节发生的时间。与时钟相关的基因,包括 Lunatic fringe(Lfng),在前体节中胚层(PSM)中呈现周期性表达,其周期与体节形成的速率相匹配。时钟周期在不同物种间差异很大,但导致这种变异性的机制尚不清楚。时钟组件的半衰期被认为会影响时钟振荡的速率,并且在 PSM 中受到严格调控。胚胎鸡 PSM 中 Lfng 与 mir - 125a - 5p 之间的相互作用促进了 Lfng 转录本的不稳定性,但这种机制在其他脊椎动物中的保守性尚未得到验证。在这里,我们研究这种相互作用是否会影响哺乳动物物种的时钟活性。
结果
Lfng 3'UTR 中 mir - 125 结合位点的突变导致最尾端小鼠 PSM 中报告基因转录本持续、非振荡性表达,尽管在中央 PSM 中动态转录本表达得以恢复。尽管如此,内源性 mir - 125a - 5p 的表达对于小鼠体节发生并非必需。
结论
这些结果表明,Lfng 3'非翻译区中的 mir - 125a 位点影响小鼠和鸡胚胎中的转录本周转,并支持 PSM 中存在位置依赖性调控机制。它们进一步表明存在补偿机制,可以挽救小鼠中 mir - 125a - 5p 的缺失。《发育动力学》246:740 - 748,2017 年。©2017 威利期刊公司。
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