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拟南芥 Dicer-Like1 的解旋酶和 RNaseIIIa 结构域在 microRNA 生物发生过程中调节催化参数。

The helicase and RNaseIIIa domains of Arabidopsis Dicer-Like1 modulate catalytic parameters during microRNA biogenesis.

机构信息

Department of Biology, Pennsylvania State University, University Park, Pennsylvania 16802, USA.

出版信息

Plant Physiol. 2012 Jun;159(2):748-58. doi: 10.1104/pp.112.193508. Epub 2012 Apr 3.

DOI:10.1104/pp.112.193508
PMID:22474216
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3406889/
Abstract

Dicer-Like1 (DCL1), an RNaseIII endonuclease, and Hyponastic Leaves1 (HYL1), a double-stranded RNA-binding protein, are core components of the plant microRNA (miRNA) biogenesis machinery. hyl1 null mutants accumulate low levels of miRNAs and display pleiotropic developmental phenotypes. We report the identification of five new hyl1 suppressor mutants, all of which are alleles of DCL1. These new alleles affect either the helicase or the RNaseIIIa domains of DCL1, highlighting the critical functions of these domains. Biochemical analysis of the DCL1 suppressor variants reveals that they process the primary transcript (pri-miRNA) more efficiently than wild-type DCL1, with both higher K(cat) and lower K(m) values. The DCL1 variants largely rescue wild-type miRNA accumulation levels in vivo, but do not rescue the MIRNA processing precision defects of the hyl1 null mutant. In vitro, the helicase domain confers ATP dependence on DCL1-catalyzed MIRNA processing, attenuates DCL1 cleavage activity, and is required for precise MIRNA processing of some substrates.

摘要

Dicer-Like1 (DCL1),一种 RNaseIII 内切酶,和 Hyponastic Leaves1 (HYL1),一种双链 RNA 结合蛋白,是植物 microRNA (miRNA) 生物发生机制的核心组成部分。hyl1 缺失突变体积累低水平的 miRNA,并表现出多种发育表型。我们报告了五个新的 hyl1 抑制突变体的鉴定,它们都是 DCL1 的等位基因。这些新等位基因影响 DCL1 的解旋酶或 RNaseIIIa 结构域,突出了这些结构域的关键功能。对 DCL1 抑制变体的生化分析表明,它们比野生型 DCL1 更有效地加工初级转录物(pri-miRNA),具有更高的 K(cat)和更低的 K(m)值。这些 DCL1 变体在体内很大程度上挽救了野生型 miRNA 的积累水平,但不能挽救 hyl1 缺失突变体的 miRNA 加工精度缺陷。在体外,解旋酶结构域使 DCL1 催化的 miRNA 加工依赖于 ATP,减弱 DCL1 的切割活性,并需要一些底物的精确 miRNA 加工。

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