Anupa T Anil , Rakesh Pandian , Shravan Kumar Mishra
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引用次数: 0
摘要
前核糖核酸剪接的两个酯化反应需要剪接体中的小核 RNA 和蛋白质(snRNP)进行高度复杂但控制良好的重新排列。这些反应的效率和准确性对基因表达至关重要,因为几乎所有人类基因都要经过前 mRNA 剪接。决定剪接结果的关键参数是内含子的长度、剪接信号的强度和信号之间的间隙,以及是否存在剪接控制元件。其中,内含子的分支点(BP)与 3′剪接位点(ss)之间的间隙是决定剪接效率的主要因素。这一距离在生物内含子中的范围很小。之所以存在这种限制,可能是因为 BP 和 3'ss 被 BP 结合蛋白、U2 snRNP 和 U2 辅助因子(U2AF)以协调的方式识别。此外,两个信号之间的不同距离也会影响第二次酯化反应,因为中间的 RNA 需要在复杂的 RNP 机制中准确定位。剪接这类前 mRNA 需要 RNA 中的顺式作用元件和许多反式作用的剪接调节因子。具有 BP 远端 3'ss 的受控前 mRNA 剪接为基因表达增加了另一层控制,并促进了替代剪接。
Introns with branchpoint-distant 3′ splice sites: Splicing mechanism and regulatory roles
The two transesterification reactions of pre-mRNA splicing require highly complex yet well-controlled rearrangements of small nuclear RNAs and proteins (snRNP) in the spliceosome. The efficiency and accuracy of these reactions are critical for gene expression, as almost all human genes pass through pre-mRNA splicing. Key parameters that determine the splicing outcome are the length of the intron, the strengths of its splicing signals and gaps between them, and the presence of splicing controlling elements. In particular, the gap between the branchpoint (BP) and the 3′ splice site (ss) of introns is a major determinant of the splicing efficiency. This distance falls within a small range across the introns of an organism. The constraints exist possibly because BP and 3'ss are recognized by BP-binding proteins, U2 snRNP and U2 accessory factors (U2AF) in a coordinated manner. Furthermore, varying distances between the two signals may also affect the second transesterification reaction since the intervening RNA needs to be accurately positioned within the complex RNP machinery. Splicing such pre-mRNAs requires cis-acting elements in the RNA and many trans-acting splicing regulators. Regulated pre-mRNA splicing with BP-distant 3'ss adds another layer of control to gene expression and promotes alternative splicing.
期刊介绍:
Biophysical Chemistry publishes original work and reviews in the areas of chemistry and physics directly impacting biological phenomena. Quantitative analysis of the properties of biological macromolecules, biologically active molecules, macromolecular assemblies and cell components in terms of kinetics, thermodynamics, spatio-temporal organization, NMR and X-ray structural biology, as well as single-molecule detection represent a major focus of the journal. Theoretical and computational treatments of biomacromolecular systems, macromolecular interactions, regulatory control and systems biology are also of interest to the journal.
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