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环-环复合物向四链体连接的转变对于一种调控性反义RNA的活性至关重要。

Progression of a loop-loop complex to a four-way junction is crucial for the activity of a regulatory antisense RNA.

作者信息

Kolb F A, Engdahl H M, Slagter-Jäger J G, Ehresmann B, Ehresmann C, Westhof E, Wagner E G, Romby P

机构信息

UPR 9002 du CNRS, Institut de Biologie Moléculaire et Cellulaire, 15 rue R. Descartes, Strasbourg cedex, France.

出版信息

EMBO J. 2000 Nov 1;19(21):5905-15. doi: 10.1093/emboj/19.21.5905.

DOI:10.1093/emboj/19.21.5905
PMID:11060041
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC305787/
Abstract

The antisense RNA, CopA, regulates the replication frequency of plasmid R1 through inhibition of RepA translation by rapid and specific binding to its target RNA (CopT). The stable CopA-CopT complex is characterized by a four-way junction structure and a side-by-side alignment of two long intramolecular helices. The significance of this structure for binding in vitro and control in vivo was tested by mutations in both CopA and CopT. High rates of stable complex formation in vitro and efficient inhibition in vivo required initial loop-loop complexes to be rapidly converted to extended interactions. These interactions involve asymmetric helix progression and melting of the upper stems of both RNAs to promote the formation of two intermolecular helices. Data presented here delineate the boundaries of these helices and emphasize the need for unimpeded helix propagation. This process is directional, i.e. one of the two intermolecular helices (B) must form first to allow formation of the other (B'). A binding pathway, characterized by a hierarchy of intermediates leading to an irreversible and inhibitory RNA-RNA complex, is proposed.

摘要

反义RNA CopA通过与靶RNA(CopT)快速特异性结合抑制RepA翻译,从而调节质粒R1的复制频率。稳定的CopA - CopT复合物具有四重连接结构和两个长分子内螺旋的并排排列。通过CopA和CopT中的突变测试了该结构在体外结合和体内调控中的意义。体外稳定复合物的高形成率和体内的有效抑制要求初始环-环复合物迅速转化为延伸相互作用。这些相互作用涉及不对称螺旋延伸以及两个RNA上茎的解链,以促进两个分子间螺旋的形成。此处给出的数据描绘了这些螺旋的边界,并强调了螺旋不受阻碍延伸的必要性。这个过程是有方向性的,即两个分子间螺旋之一(B)必须先形成,以允许另一个(B')的形成。本文提出了一种结合途径,其特征是存在一系列中间体,最终形成不可逆的抑制性RNA - RNA复合物。

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