嗜热古菌柯达卡伦氏菌 GTP 依赖性去磷酸辅酶 A 激酶的晶体结构。

IF 3.2 4区生物学 Q2 BIOCHEMISTRY & MOLECULAR BIOLOGY

Proteins-Structure Function and Bioinformatics Pub Date : 2024-06-01 Epub Date: 2024-01-18 DOI:10.1002/prot.26666

Akiko Kita, Yuna Ishida, Takahiro Shimosaka, Yuta Michimori, Kira Makarova, Eugene Koonin, Haruyuki Atomi, Kunio Miki

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引用次数: 0

摘要

大多数古细菌的辅酶 A（CoA）生物合成途径涉及几种独特的酶，其中包括去磷酸-CoA 激酶（DPCK），它在所有生命领域 CoA 生物合成的最后一步将去磷酸-CoA 转化为 CoA。古生物的 DPCK 与细菌和真核生物的类似酶无关，与任何已知结构的蛋白质也没有明显的序列相似性。与众不同的是，尽管类似的细菌和真核生物酶是依赖 ATP 的激酶，但古生菌 DPCK 利用 GTP 作为磷酸供体。在这里，我们报告了来自古嗜热菌 Thermococcus kodakarensis 的 DPCK 及其与 GTP 和镁离子复合物的晶体结构。晶体结构证明了为什么 GTP 是这种激酶的首选底物。我们还报告了根据序列保守性和晶体结构确定的关键残基定点突变体的活性分析。从这些结果中，我们推断出了参与磷酸转移反应的关键残基以及可能的去磷酸-CoA 结合位点。

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Crystal structure of GTP-dependent dephospho-coenzyme A kinase from the hyperthermophilic archaeon, Thermococcus kodakarensis.

The biosynthesis pathways of coenzyme A (CoA) in most archaea involve several unique enzymes including dephospho-CoA kinase (DPCK) that converts dephospho-CoA to CoA in the final step of CoA biosynthesis in all domains of life. The archaeal DPCK is unrelated to the analogous bacterial and eukaryotic enzymes and shows no significant sequence similarity to any proteins with known structures. Unusually, the archaeal DPCK utilizes GTP as the phosphate donor although the analogous bacterial and eukaryotic enzymes are ATP-dependent kinases. Here, we report the crystal structure of DPCK and its complex with GTP and a magnesium ion from the archaeal hyperthermophile Thermococcus kodakarensis. The crystal structure demonstrates why GTP is the preferred substrate of this kinase. We also report the activity analyses of site-directed mutants of crucial residues determined based on sequence conservation and the crystal structure. From these results, the key residues involved in the reaction of phosphoryl transfer and the possible dephospho-CoA binding site are inferred.

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来源期刊

Proteins-Structure Function and Bioinformatics 生物-生化与分子生物学

CiteScore

5.90

自引率

3.40%

发文量

172

审稿时长

3 months

期刊介绍： PROTEINS : Structure, Function, and Bioinformatics publishes original reports of significant experimental and analytic research in all areas of protein research: structure, function, computation, genetics, and design. The journal encourages reports that present new experimental or computational approaches for interpreting and understanding data from biophysical chemistry, structural studies of proteins and macromolecular assemblies, alterations of protein structure and function engineered through techniques of molecular biology and genetics, functional analyses under physiologic conditions, as well as the interactions of proteins with receptors, nucleic acids, or other specific ligands or substrates. Research in protein and peptide biochemistry directed toward synthesizing or characterizing molecules that simulate aspects of the activity of proteins, or that act as inhibitors of protein function, is also within the scope of PROTEINS. In addition to full-length reports, short communications (usually not more than 4 printed pages) and prediction reports are welcome. Reviews are typically by invitation; authors are encouraged to submit proposed topics for consideration.