结构 3' UTR 使植物中的 mRNAs 不稳定。

Structured 3' UTRs destabilize mRNAs in plants.

机构信息

Department of Biochemistry and Biophysics, Texas A&M University, College Station, TX, 77843, USA.

Molecular and Environmental Plant Sciences, Texas A&M University, College Station, TX, 77843, USA.

出版信息

Genome Biol. 2024 Feb 22;25(1):54. doi: 10.1186/s13059-024-03186-x.

DOI:10.1186/s13059-024-03186-x

PMID:38388963

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10885604/

Abstract

BACKGROUND

RNA secondary structure (RSS) can influence the regulation of transcription, RNA processing, and protein synthesis, among other processes. 3' untranslated regions (3' UTRs) of mRNA also hold the key for many aspects of gene regulation. However, there are often contradictory results regarding the roles of RSS in 3' UTRs in gene expression in different organisms and/or contexts.

RESULTS

Here, we incidentally observe that the primary substrate of miR159a (pri-miR159a), when embedded in a 3' UTR, could promote mRNA accumulation. The enhanced expression is attributed to the earlier polyadenylation of the transcript within the hybrid pri-miR159a-3' UTR and, resultantly, a poorly structured 3' UTR. RNA decay assays indicate that poorly structured 3' UTRs could promote mRNA stability, whereas highly structured 3' UTRs destabilize mRNA in vivo. Genome-wide DMS-MaPseq also reveals the prevailing inverse relationship between 3' UTRs' RSS and transcript accumulation in the transcriptomes of Arabidopsis, rice, and even human. Mechanistically, transcripts with highly structured 3' UTRs are preferentially degraded by 3'-5' exoribonuclease SOV and 5'-3' exoribonuclease XRN4, leading to decreased expression in Arabidopsis. Finally, we engineer different structured 3' UTRs to an endogenous FT gene and alter the FT-regulated flowering time in Arabidopsis.

CONCLUSIONS

We conclude that highly structured 3' UTRs typically cause reduced accumulation of the harbored transcripts in Arabidopsis. This pattern extends to rice and even mammals. Furthermore, our study provides a new strategy of engineering the 3' UTRs' RSS to modify plant traits in agricultural production and mRNA stability in biotechnology.

摘要

背景

RNA 二级结构（RSS）可以影响转录、RNA 加工和蛋白质合成等过程的调控。mRNA 的 3'非翻译区（3'UTR）也是许多基因调控方面的关键。然而，在不同的生物体和/或环境中，RSS 在 3'UTR 中对基因表达的作用往往存在相互矛盾的结果。

结果

在这里，我们偶然观察到 miR159a 的主要底物（pri-miR159a），当嵌入 3'UTR 时，可以促进 mRNA 的积累。这种增强的表达归因于杂交 pri-miR159a-3'UTR 内转录物的早期多聚腺苷酸化，从而导致 3'UTR 结构不佳。RNA 衰减测定表明，结构不佳的 3'UTR 可以促进 mRNA 的稳定性，而高度结构化的 3'UTR 在体内会使 mRNA 不稳定。全基因组 DMS-MaPseq 还揭示了 Arabidopsis、水稻，甚至人类转录组中 3'UTR 的 RSS 与转录物积累之间普遍存在的反比关系。从机制上讲，具有高度结构化 3'UTR 的转录物优先被 3'-5'外切核酸酶 SOV 和 5'-3'外切核酸酶 XRN4 降解，导致 Arabidopsis 中表达减少。最后，我们对一个内源性 FT 基因进行了不同结构的 3'UTR 工程改造，并改变了 Arabidopsis 中 FT 调控的开花时间。

结论

我们得出结论，高度结构化的 3'UTR 通常会导致 Arabidopsis 中所携带转录物的积累减少。这种模式扩展到水稻，甚至哺乳动物。此外，我们的研究为工程改造 3'UTR 的 RSS 提供了一种新策略，以改变农业生产中的植物特性和生物技术中的 mRNA 稳定性。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/b0b3/10885604/2bf1ad1c9bc1/13059_2024_3186_Fig1_HTML.jpg

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结构 3' UTR 使植物中的 mRNAs 不稳定。

Structured 3' UTRs destabilize mRNAs in plants.

机构信息

出版信息

BACKGROUND

RESULTS

CONCLUSIONS

背景

结果

结论

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