质粒引物RNA中亚稳态结构对反义RNA结合动力学的影响。

The influence of a metastable structure in plasmid primer RNA on antisense RNA binding kinetics.

作者信息

Gultyaev A P, van Batenburg F H, Pleij C W

机构信息

Leiden Institute of Chemistry, Leiden University, The Netherlands.

出版信息

Nucleic Acids Res. 1995 Sep 25;23(18):3718-25. doi: 10.1093/nar/23.18.3718.

DOI:10.1093/nar/23.18.3718

PMID:7479002

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC307271/

Abstract

Replication of the ColE1 group plasmids is kinetically regulated by the interaction between plasmid-encoded primer RNA II and antisense RNA I. The binding is dependent on alternative RNA II conformations, formed during the transcription, and effectively inhibits the primer function within some time interval. In this paper, the folding pathways for the wild type and copy number mutants of ColE1 RNA II are studied using simulations by a genetic algorithm. The simulated pathways reveal a transient formation of a metastable structure, which is stabilized by copy number mutations. The folding kinetics of the proposed conformational transitions is calculated using a model of a multistep refolding process with elementary steps of double-helical stem formation or disruption. The approximation shows that the lifetime of the metastable structure is relatively long and is considerably increased in the mutants, resulting in a delay of the formation of the stable RNA II structure, which is the most sensitive to the inhibition by the antisense RNA I. Thus the effect of copy number mutations can be interpreted as a compression of the time window of effective inhibition due to an increased time spent by the RNA II in the metastable state. The implications of metastable foldings in RNA functioning are discussed.

摘要

ColE1 组质粒的复制在动力学上受质粒编码的引物 RNA II 与反义 RNA I 之间相互作用的调控。这种结合取决于转录过程中形成的 RNA II 的不同构象，并在一定时间间隔内有效抑制引物功能。本文通过遗传算法模拟研究了 ColE1 RNA II 的野生型和拷贝数突变体的折叠途径。模拟途径揭示了一种亚稳态结构的瞬时形成，该结构通过拷贝数突变得以稳定。利用具有双螺旋茎形成或破坏基本步骤的多步重折叠过程模型，计算了所提出的构象转变的折叠动力学。近似结果表明，亚稳态结构的寿命相对较长，且在突变体中显著延长，导致稳定的 RNA II 结构形成延迟，而该结构对反义 RNA I 的抑制最为敏感。因此，拷贝数突变的影响可解释为由于 RNA II 在亚稳态停留时间增加，有效抑制的时间窗口被压缩。文中还讨论了 RNA 功能中亚稳态折叠的意义。

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