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人源丝氨酰-tRNA 合成酶及其 Ser-SA 复合物的晶体结构揭示了一种特有于高等真核生物的分子杠杆。

Crystal structure of human Seryl-tRNA synthetase and Ser-SA complex reveals a molecular lever specific to higher eukaryotes.

机构信息

Departments of Chemical Physiology and Cell and Molecular Biology, The Scripps Research Institute, 10550 North Torrey Pines Road, La Jolla, CA 92037, USA; Institute of Aging Research, School of Medicine, Hangzhou Normal University, Hangzhou, Zhejiang Province 310036, China.

出版信息

Structure. 2013 Nov 5;21(11):2078-86. doi: 10.1016/j.str.2013.08.021. Epub 2013 Oct 3.

DOI:10.1016/j.str.2013.08.021
PMID:24095058
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3825832/
Abstract

Seryl-tRNA synthetase (SerRS), an essential enzyme for translation, also regulates vascular development. This "gain-of-function" has been linked to the UNE-S domain added to vertebrate SerRS during evolution. However, the significance of two insertions also specific to higher eukaryotic SerRS remains elusive. Here, we determined the crystal structure of human SerRS in complex with Ser-SA, an aminoacylation reaction intermediate analog, at 2.9 Å resolution. Despite a 70 Å distance, binding of Ser-SA in the catalytic domain dramatically leverages the position of Insertion I in the tRNA binding domain. Importantly, this leverage is specific to higher eukaryotes and not seen in bacterial, archaeal, and lower eukaryotic SerRSs. Deletion of Insertion I does not affect tRNA binding but instead reduce the catalytic efficiency of the synthetase. Thus, a long-range conformational and functional communication specific to higher eukaryotes is found in human SerRS, possibly to coordinate translation with vasculogenesis.

摘要

丝氨酰-tRNA 合成酶(SerRS)是翻译过程中的一种必需酶,也能调节血管发育。这种“功能获得”与脊椎动物 SerRS 在进化过程中添加的 UNE-S 结构域有关。然而,两个仅在高等真核生物 SerRS 中存在的插入片段的意义仍然难以捉摸。在这里,我们在 2.9Å分辨率下确定了人 SerRS 与 Ser-SA(氨酰化反应中间体类似物)的复合物的晶体结构。尽管距离为 70Å,但 Ser-SA 在催化结构域中的结合极大地利用了 tRNA 结合结构域中插入片段 I 的位置。重要的是,这种杠杆作用是高等真核生物特有的,而在细菌、古菌和低等真核生物的 SerRS 中没有出现。删除插入片段 I 不会影响 tRNA 结合,但会降低合成酶的催化效率。因此,在人类 SerRS 中发现了一种仅存在于高等真核生物中的长程构象和功能通讯,可能用于协调翻译与血管生成。

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