较小的氨酰基转移中心位于较大 RNA 的 GU 内。

Small aminoacyl transfer centers at GU within a larger RNA.

机构信息

Department of Molecular, Cellular and Developmental Biology, University of Colorado, Boulder, CO, USA.

出版信息

RNA Biol. 2012 Jan;9(1):59-66. doi: 10.4161/rna.9.1.18039. Epub 2012 Jan 1.

DOI:10.4161/rna.9.1.18039

PMID:22258149

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3342943/

Abstract

Separate aminoacyl transfer centers related to the small …GUNNN..: NNNU ribozyme seem possible at the frequent GU sequences dispersed throughout an RNA tertiary structure. In fact, such activity is easily detected and varies more than 2 orders in rate, probabably being faster at sites with less structural constraint. Analysis of a particular constrained active site in an rRNA transcript suggests that its difficulty lies not in substrate strand association, but in binding and/or group transfer from the aminoacyl precursor. Efficient aminoacyl transfer requires accurate complementarity between large or small ribozymes and oligoribonucleotide substrates, even when only three or four base pairs link the two. Thus, multi-site active ribozymal superstructures might have coordinated an RNA metabolism, including aiding an early translation apparatus.

摘要

在 RNA 三级结构中散布的频繁 GU 序列处，似乎有可能存在与小……GUNNN..：NNNU 核酶相关的独立氨酰基转移中心。事实上，这种活性很容易被检测到，其速率变化超过 2 个数量级，在结构约束较小的部位可能更快。对 rRNA 转录本中特定约束活性部位的分析表明，其困难不在于底物链的缔合，而在于从氨酰基前体的结合和/或基团转移。有效的氨酰基转移需要大或小核酶与寡核苷酸底物之间的精确互补性，即使只有三四个碱基将两者连接起来也是如此。因此，多部位活性核酶超结构可能协调了 RNA 代谢，包括辅助早期翻译装置。

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