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一种参与细胞核核糖核酸酶P利用二价阳离子的保守RNA基序。

A conserved RNA motif involved in divalent cation utilization by nuclear RNase P.

作者信息

Pagán-Ramos E, Lee Y, Engelke D R

机构信息

Department of Biological Chemistry, The University of Michigan, Ann Arbor 48109-0606, USA.

出版信息

RNA. 1996 Nov;2(11):1100-9.

PMID:8903341
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1369440/
Abstract

Catalytic RNAs are metalloenzymes that require precise coordination of divalent cation cofactors. In RNase P RNA, a conserved structural subdomain that has been implicated in magnesium coordination contains the consensus sequence acAGaRA. Randomization mutagenesis of the analogous sequence in the Saccharomyces cerevisiae nuclear RNase P RNA gene, RPR1, gave viable sequence variants that confer magnesium-correctable growth defects and are defective in magnesium cofactor utilization by the RNase P holoenzyme in vitro. Kinetic analysis of the defective holoenzymes suggests that the primary effects were on catalytic rate, rather than substrate recognition. The possible involvement of this RNA subdomain in catalysis is discussed.

摘要

催化性RNA是需要二价阳离子辅助因子精确配位的金属酶。在核糖核酸酶P RNA中,一个与镁配位有关的保守结构亚结构域包含共有序列acAGaRA。对酿酒酵母核核糖核酸酶P RNA基因RPR1中类似序列进行随机诱变,得到了可行的序列变体,这些变体导致镁可纠正的生长缺陷,并且在体外核糖核酸酶P全酶利用镁辅助因子方面存在缺陷。对缺陷全酶的动力学分析表明,主要影响在于催化速率,而非底物识别。本文讨论了该RNA亚结构域可能参与催化的情况。

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