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中心蛋白2定位于脊椎动物的核孔,并在mRNA和蛋白质输出中发挥作用。

Centrin 2 localizes to the vertebrate nuclear pore and plays a role in mRNA and protein export.

作者信息

Resendes Karen K, Rasala Beth A, Forbes Douglass J

机构信息

Section of Cell and Developmental Biology, Division of Biological Sciences 0347, University of California-San Diego, 9500 Gilman Drive, La Jolla, California 92093-0347, USA.

出版信息

Mol Cell Biol. 2008 Mar;28(5):1755-69. doi: 10.1128/MCB.01697-07. Epub 2008 Jan 2.

DOI:10.1128/MCB.01697-07
PMID:18172010
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2258798/
Abstract

Centrins in vertebrates have traditionally been associated with microtubule-nucleating centers such as the centrosome. Unexpectedly, we found centrin 2 to associate biochemically with nucleoporins, including the Xenopus laevis Nup107-160 complex, a critical subunit of the vertebrate nuclear pore in interphase and of the kinetochores and spindle poles in mitosis. Immunofluorescence of Xenopus cells and in vitro reconstituted nuclei indeed revealed centrin 2 localized at the nuclear pores. Use of the mild detergent digitonin in immunofluorescence also allowed centrin 2 to be clearly visualized at the nuclear pores of human cells. Disruption of nuclear pores using RNA interference of the pore assembly protein ELYS/MEL-28 resulted in a specific decrease of centrin 2 at the nuclear rim of HeLa cells. Functionally, excess expression of either the N- or C-terminal calcium-binding domains of human centrin 2 caused a dominant-negative effect on both mRNA and protein export, leaving protein import intact. The mRNA effect mirrors that found for the Saccharomyes cerevisiae centrin Cdc31p at the yeast nuclear pore, a role until now thought to be unique to yeast. We conclude that in vertebrates, centrin 2 interacts with major subunits of the nuclear pore, exhibits nuclear pore localization, and plays a functional role in multiple nuclear export pathways.

摘要

传统上,脊椎动物中的中心蛋白与微管成核中心(如中心体)相关。出乎意料的是,我们发现中心蛋白2在生化上与核孔蛋白相关联,包括非洲爪蟾的Nup107 - 160复合物,这是脊椎动物核孔在间期的关键亚基,也是有丝分裂中动粒和纺锤极的关键亚基。对非洲爪蟾细胞和体外重建细胞核进行免疫荧光检测,确实发现中心蛋白2定位于核孔。在免疫荧光检测中使用温和去污剂洋地黄皂苷,也能清楚地在人类细胞的核孔处观察到中心蛋白2。利用RNA干扰孔装配蛋白ELYS/MEL - 28破坏核孔,导致HeLa细胞核边缘的中心蛋白2特异性减少。在功能上,人类中心蛋白2的N端或C端钙结合结构域的过量表达对mRNA和蛋白质输出均产生显性负效应,但蛋白质输入不受影响。mRNA的这种效应与在酵母核孔处发现的酿酒酵母中心蛋白Cdc31p的效应相似,而此前认为该作用是酵母特有的。我们得出结论,在脊椎动物中,中心蛋白2与核孔的主要亚基相互作用,定位于核孔,并在多种核输出途径中发挥功能作用。

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