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Temperature-dependent small RNA expression in Drosophila melanogaster

机译:在果蝇melanogaster中的温度依赖性小RNA表达

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摘要

Temperature has a major impact on gene expression in ectotherms. But until recently, it was not clear in which way, if any, small non-coding RNAs such as miRNAs or piRNAs contribute to thermosensitive gene regulation. We have recently shown that temperature-responsive miRNAs in Drosophila drive adaptation to different ambient temperatures on the transcriptome level. Moreover, we demonstrated that higher temperatures lead to a more efficient piRNA-dependent transposon silencing, possibly due to heatinduced unfolding of RNA secondary structures. In this commentary, we will dwell upon particular interesting aspects connected to our findings, hoping that our point of view may encourage other scientists to address some of the questions raised here. We will particularly focus on aspects related to climate-dependent transposon propagation in evolution and putative transgenerational epigenetic effects of altered small RNA transcriptomes. We further briefly indicate how temperature-responsive miRNAs may confound the interpretation of data obtained from experiments comprising heat-shock treatment which is a widely used technique not only in Drosophila genetics.
机译:温度对Ectotherms中的基因表达产生了重大影响。但直到最近,尚不清楚,哪种方式,如果有的话,诸如miRNA或piRNA的小的非编码RNA有助于热敏基因调节。我们最近表明,果蝇中的温度响应性miRNA驱动对转录组水平的不同环境温度。此外,我们证明了较高的温度导致更有效的PiRNA依赖的转座子沉默,可能是由于RNA二次结构的散热展开。在这项评论中,我们将讨论与我们的调查结果相连的特殊有趣的方面,希望我们的观点可以鼓励其他科学家解决这里提出的一些问题。我们将特别关注与气候依赖于气候转座子繁殖的方面,以改变的小RNA转录om的进化和推定的转基因表观遗传效应。我们进一步简要地指出了温度响应的miRNA如何混淆从包含热冲击处理所获得的数据的解释,这是一种不仅在果蝇遗传学中的广泛使用的技术。

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