亚精胺乙酰转移酶对多胺的混杂识别背后的分子机制。

Molecular mechanism underlying promiscuous polyamine recognition by spermidine acetyltransferase.

作者信息

Sugiyama Shigeru, Ishikawa Sae, Tomitori Hideyuki, Niiyama Mayumi, Hirose Mika, Miyazaki Yuma, Higashi Kyohei, Murata Michio, Adachi Hiroaki, Takano Kazufumi, Murakami Satoshi, Inoue Tsuyoshi, Mori Yusuke, Kashiwagi Keiko, Igarashi Kazuei, Matsumura Hiroyoshi

机构信息

Graduate School of Science, Osaka University, Suita, Osaka 565-0871, Japan; JST, ERATO, Lipid Active Structure Project, Osaka 565-0871, Japan.

Graduate School of Engineering, Osaka University, Suita, Osaka 565-0871, Japan.

出版信息

Int J Biochem Cell Biol. 2016 Jul;76:87-97. doi: 10.1016/j.biocel.2016.05.003. Epub 2016 May 6.

DOI:10.1016/j.biocel.2016.05.003

PMID:27163532

Abstract

Spermidine acetyltransferase (SAT) from Escherichia coli, which catalyses the transfer of acetyl groups from acetyl-CoA to spermidine, is a key enzyme in controlling polyamine levels in prokaryotic cells. In this study, we determined the crystal structure of SAT in complex with spermidine (SPD) and CoA at 2.5Å resolution. SAT is a dodecamer organized as a hexamer of dimers. The secondary structural element and folding topology of the SAT dimer resemble those of spermidine/spermine N(1)-acetyltransferase (SSAT), suggesting an evolutionary link between SAT and SSAT. However, the polyamine specificity of SAT is distinct from that of SSAT and is promiscuous. The SPD molecule is also located at the inter-dimer interface. The distance between SPD and CoA molecules is 13Å. A deep, highly acidic, water-filled cavity encompasses the SPD and CoA binding sites. Structure-based mutagenesis and in-vitro assays identified SPD-bound residues, and the acidic residues lining the walls of the cavity are mostly essential for enzymatic activities. Based on mutagenesis and structural data, we propose an acetylation mechanism underlying promiscuous polyamine recognition for SAT.

摘要

来自大肠杆菌的亚精胺乙酰转移酶（SAT）催化乙酰基从乙酰辅酶A转移至亚精胺，是控制原核细胞中多胺水平的关键酶。在本研究中，我们确定了SAT与亚精胺（SPD）和辅酶A复合物在2.5埃分辨率下的晶体结构。SAT是一个由二聚体组成的六聚体形成的十二聚体。SAT二聚体的二级结构元件和折叠拓扑结构与亚精胺/精胺N(1)-乙酰转移酶（SSAT）相似，表明SAT和SSAT之间存在进化联系。然而，SAT的多胺特异性与SSAT不同，具有混杂性。SPD分子也位于二聚体间界面处。SPD与辅酶A分子之间的距离为13埃。一个深的、高度酸性的、充满水的腔包围着SPD和辅酶A结合位点。基于结构的诱变和体外测定确定了与SPD结合的残基，腔壁内衬的酸性残基大多对酶活性至关重要。基于诱变和结构数据，我们提出了一种SAT对混杂多胺识别的乙酰化机制。

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亚精胺乙酰转移酶对多胺的混杂识别背后的分子机制。

Molecular mechanism underlying promiscuous polyamine recognition by spermidine acetyltransferase.

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