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在活体拟南芥植物中鉴定含有参与微小RNA生物合成蛋白质的细胞核切割体。

Identification of nuclear dicing bodies containing proteins for microRNA biogenesis in living Arabidopsis plants.

作者信息

Fang Yuda, Spector David L

机构信息

Cold Spring Harbor Laboratory, Cold Spring Harbor, New York 11724, USA.

出版信息

Curr Biol. 2007 May 1;17(9):818-23. doi: 10.1016/j.cub.2007.04.005. Epub 2007 Apr 19.

DOI:10.1016/j.cub.2007.04.005
PMID:17442570
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1950788/
Abstract

MicroRNAs (miRNAs) are important for regulating gene expression in muticellular organisms. MiRNA processing is a two-step process. In animal cells, the first step is nuclear and the second step cytoplasmic, whereas in plant cells, both steps occur in the nucleus via the enzyme Dicer-like1 (DCL1) and other proteins including the zinc-finger-domain protein Serrate (SE) and a double-stranded RNA (dsRNA) binding-domain protein, Hyponastic Leaves1 (HYL1). Furthermore, plant miRNAs are methylated by Hua Enhancer (HEN1) at their 3' ends and loaded onto Argonaute1 (AGO1). However, little is known about the cellular basis of miRNA biogenesis. Using live-cell imaging, we show here that DCL1 and HYL1 colocalize in discrete nuclear bodies in addition to being present in a low-level diffuse nucleoplasmic distribution. These bodies, which we refer to as nuclear dicing bodies (D-bodies), differ from Cajal bodies. A mutated DCL1 with impaired function in miRNA processing fails to target to D-bodies, and an introduced primary (pri)-miRNA transcript is recruited to D-bodies. Furthermore, bimolecular fluorescence complementation (BiFC) shows that DCL1, HYL1, and SE interact in D-bodies. On the basis of these data, we propose that D-bodies are crucial for orchestrating pri-miRNA processing and/or storage/assembly of miRNA-processing complexes in the nuclei of plant cells.

摘要

微小RNA(miRNA)对于多细胞生物中基因表达的调控至关重要。miRNA加工是一个两步过程。在动物细胞中,第一步发生在细胞核内,第二步发生在细胞质中;而在植物细胞中,两步均通过类似Dicer1(DCL1)的酶以及包括锌指结构域蛋白锯齿状蛋白(SE)和双链RNA(dsRNA)结合结构域蛋白下弯叶片1(HYL1)在内的其他蛋白质在细胞核内完成。此外,植物miRNA在其3'端被华增强子(HEN1)甲基化,并加载到AGO1蛋白上。然而,关于miRNA生物合成的细胞基础却知之甚少。通过活细胞成像,我们在此表明,DCL1和HYL1除了以低水平的弥散核质分布存在外,还共定位于离散的核体中。这些核体,我们称之为核切割体(D体),与卡哈尔体不同。在miRNA加工中功能受损的突变型DCL1无法靶向D体,而引入的初级(pri)-miRNA转录本会被招募到D体中。此外,双分子荧光互补(BiFC)显示DCL1、HYL1和SE在D体中相互作用。基于这些数据,我们提出D体对于协调植物细胞核中pri-miRNA加工和/或miRNA加工复合体的储存/组装至关重要。

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