The separation between mRNA-ends is more variable than expected

IF 2.8 4区生物学 Q3 BIOCHEMISTRY & MOLECULAR BIOLOGY

FEBS Open Bio Pub Date : 2024-09-03 DOI:10.1002/2211-5463.13877

Nancy Gerling, J. Alfredo Mendez, Eduardo Gomez, Jaime Ruiz-Garcia

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Abstract

Effective circularization of mRNA molecules is a key step for the efficient initiation of translation. Research has shown that the intrinsic separation of the ends of mRNA molecules is rather small, suggesting that intramolecular arrangements could provide this effective circularization. Considering that the innate proximity of RNA ends might have important unknown biological implications, we aimed to determine whether the close proximity of the ends of mRNA molecules is a conserved feature across organisms and gain further insights into the functional effects of the proximity of RNA ends. To do so, we studied the secondary structure of 274 full native mRNA molecules from 17 different organisms to calculate the contour length (C_L) of the external loop as an index of their end-to-end separation. Our computational predictions show bigger variations (from 0.59 to 31.8 nm) than previously reported and also than those observed in random sequences. Our results suggest that separations larger than 18.5 nm are not favored, whereas short separations could be related to phenotypical stability. Overall, our work implies the existence of a biological mechanism responsible for the increase in the observed variability, suggesting that the C_L features of the exterior loop could be relevant for the initiation of translation and that a short C_L could contribute to the stability of phenotypes.

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mRNA 末端之间的分隔比预期的更多变。

mRNA 分子的有效环化是高效启动翻译的关键步骤。研究表明，mRNA 分子两端的内在分隔很小，这表明分子内排列可以提供这种有效的环化。考虑到 RNA 两端的先天接近性可能具有重要的未知生物学意义，我们旨在确定 mRNA 分子两端的接近性是否是不同生物的保守特征，并进一步了解 RNA 两端接近性的功能效应。为此，我们研究了来自 17 种不同生物的 274 个完整的原生 mRNA 分子的二级结构，计算外环的轮廓长度（CL），作为它们端对端分离的指数。我们的计算预测结果显示，CL 的变化（从 0.59 到 31.8 nm）比以前报道的要大，也比随机序列中观察到的要大。我们的结果表明，大于 18.5 nm 的分离度不被看好，而短分离度可能与表型稳定性有关。总之，我们的工作意味着存在一种生物机制，可以导致观察到的变异性增加，这表明外环的 CL 特征可能与翻译的启动有关，而短的 CL 可能有助于表型的稳定。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

FEBS Open Bio BIOCHEMISTRY & MOLECULAR BIOLOGY-

CiteScore

5.10

自引率

0.00%

发文量

173

审稿时长

10 weeks

期刊介绍： FEBS Open Bio is an online-only open access journal for the rapid publication of research articles in molecular and cellular life sciences in both health and disease. The journal''s peer review process focuses on the technical soundness of papers, leaving the assessment of their impact and importance to the scientific community. FEBS Open Bio is owned by the Federation of European Biochemical Societies (FEBS), a not-for-profit organization, and is published on behalf of FEBS by FEBS Press and Wiley. Any income from the journal will be used to support scientists through fellowships, courses, travel grants, prizes and other FEBS initiatives.