NRDE-2,人类同源物裂殖酵母 Nrl1,可防止人类细胞中 DNA 损伤的积累。
NRDE-2, the human homolog of fission yeast Nrl1, prevents DNA damage accumulation in human cells.
机构信息
a Department of Biological Sciences , Columbia University , New York , NY , USA.
b Department of Biological Chemistry, Graduate School of Pharmaceutical Sciences , Nagoya City University , Nagoya , Japan.
出版信息
RNA Biol. 2018;15(7):868-876. doi: 10.1080/15476286.2018.1467180. Epub 2018 Aug 2.
Abstract
The RNA helicase Mtr4 is a versatile protein that is a crucial component of several distinct RNA surveillance complexes. Here we describe a novel complex that contains Mtr4, but has a role distinct from any of those previously described. We found that Mtr4 association with the human homolog of fission yeast Nrl1, NRDE-2, defines a novel function for Mtr4 in the DNA damage response pathway. We provide biochemical evidence that Mtr4 and NRDE-2 are part of the same complex and show that both proteins play a role in the DNA damage response by maintaining low DNA double-strand break levels. Importantly, the DNA damage response function of the Mtr4/NRDE-2 complex does not depend on the formation of R loops. We show however that NRDE-2 and Mtr4 can affect R-loop signals at a subset of distinct genes, possibly regulating their expression. Our work not only expands the wide range of Mtr4 functions, but also elucidates an important role of the less characterized human NRDE-2 protein.
摘要
RNA 解旋酶 Mtr4 是一种多功能蛋白,是几种不同 RNA 监测复合物的关键组成部分。在这里,我们描述了一种含有 Mtr4 的新型复合物,但它的作用与之前描述的任何复合物都不同。我们发现 Mtr4 与裂殖酵母 Nrl1 的人类同源物 NRDE-2 的关联定义了 Mtr4 在 DNA 损伤反应途径中的新功能。我们提供了生化证据表明 Mtr4 和 NRDE-2 是同一复合物的一部分,并表明这两种蛋白通过维持低 DNA 双链断裂水平在 DNA 损伤反应中发挥作用。重要的是,Mtr4/NRDE-2 复合物的 DNA 损伤反应功能不依赖于 R 环的形成。然而,我们表明 NRDE-2 和 Mtr4 可以影响一组不同基因的 R 环信号,可能调节它们的表达。我们的工作不仅扩展了 Mtr4 功能的广泛范围,还阐明了较不为人知的人类 NRDE-2 蛋白的重要作用。
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