嗜热古菌MCM的解旋酶活性在高温下通过赖氨酸甲基化得到增强。

The Helicase Activity of Hyperthermophilic Archaeal MCM is Enhanced at High Temperatures by Lysine Methylation.

作者信息

Xia Yisui, Niu Yanling, Cui Jiamin, Fu Yang, Chen Xiaojiang S, Lou Huiqiang, Cao Qinhong

机构信息

State Key Laboratory of Agro-Biotechnology and Ministry of Agriculture Key Laboratory of Soil Microbiology, College of Biological Sciences, China Agricultural University Beijing, China.

Molecular and Computational Biology, Department of Biological Sciences, University of Southern California, Los Angeles CA, USA ; USC Norris Comprehensive Cancer Center, University of Southern California, Los Angeles CA, USA ; Department of Chemistry, University of Southern California, Los Angeles CA, USA.

出版信息

Front Microbiol. 2015 Nov 9;6:1247. doi: 10.3389/fmicb.2015.01247. eCollection 2015.

DOI:10.3389/fmicb.2015.01247

PMID:26617586

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4639711/

Abstract

Lysine methylation and methyltransferases are widespread in the third domain of life, archaea. Nevertheless, the effects of methylation on archaeal proteins wait to be defined. Here, we report that recombinant sisMCM, an archaeal homolog of Mcm2-7 eukaryotic replicative helicase, is methylated by aKMT4 in vitro. Mono-methylation of these lysine residues occurs coincidently in the endogenous sisMCM protein purified from the hyperthermophilic Sulfolobus islandicus cells as indicated by mass spectra. The helicase activity of mini-chromosome maintenance (MCM) is stimulated by methylation, particularly at temperatures over 70°C. The methylated MCM shows optimal DNA unwinding activity after heat-treatment between 76 and 82°C, which correlates well with the typical growth temperatures of hyperthermophilic Sulfolobus. After methylation, the half life of MCM helicase is dramatically extended at 80°C. The methylated sites are located on the accessible protein surface, which might modulate the intra- and inter- molecular interactions through changing the hydrophobicity and surface charge. Furthermore, the methylation-mimic mutants of MCM show heat resistance helicase activity comparable to the methylated MCM. These data provide the biochemical evidence that posttranslational modifications such as methylation may enhance kinetic stability of proteins under the elevated growth temperatures of hyperthermophilic archaea.

摘要

赖氨酸甲基化和甲基转移酶在生命的第三域——古菌中广泛存在。然而，甲基化对古菌蛋白质的影响尚待确定。在此，我们报道重组sisMCM（一种与真核生物复制解旋酶Mcm2-7同源的古菌蛋白）在体外被aKMT4甲基化。质谱分析表明，从嗜热栖热菌细胞中纯化的内源性sisMCM蛋白中，这些赖氨酸残基同时发生单甲基化。微小染色体维持蛋白（MCM）的解旋酶活性受到甲基化的刺激，尤其是在温度超过70°C时。甲基化的MCM在76至82°C之间热处理后表现出最佳的DNA解旋活性，这与嗜热栖热菌的典型生长温度密切相关。甲基化后，MCM解旋酶在80°C时的半衰期显著延长。甲基化位点位于可及的蛋白质表面，这可能通过改变疏水性和表面电荷来调节分子内和分子间的相互作用。此外，MCM的甲基化模拟突变体表现出与甲基化MCM相当的耐热解旋酶活性。这些数据提供了生化证据，表明诸如甲基化等翻译后修饰可能在嗜热古菌生长温度升高的情况下增强蛋白质的动力学稳定性。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/9a0d/4639711/b15cbe0bd873/fmicb-06-01247-g001.jpg

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嗜热古菌MCM的解旋酶活性在高温下通过赖氨酸甲基化得到增强。

The Helicase Activity of Hyperthermophilic Archaeal MCM is Enhanced at High Temperatures by Lysine Methylation.

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