Yoneda Kazunari, Sakuraba Haruhiko, Araki Tomohiro, Ohshima Toshihisa
Department of Bioscience, School of Agriculture, Tokai University, 9-1-1 Toroku, Higashi-ku, Kumamoto, Kumamoto, 862-8652, Japan.
Department of Applied Biological Science, Faculty of Agriculture, Kagawa University, Ikenobe 2393, Miki-cho, Kita-gun, Kagawa, 761-0795, Japan.
Extremophiles. 2018 May;22(3):395-405. doi: 10.1007/s00792-018-1004-0. Epub 2018 Jan 20.
A gene encoding L-serine dehydrogenase (L-SerDH) that exhibits extremely low sequence identity to the Agrobacterium tumefaciens L-SerDH was identified in the hyperthermophilic archaeon Pyrobaculum calidifontis. The predicted amino acid sequence showed 36% identity with that of Pseudomonas aeruginosa L-SerDH, suggesting that P. calidifontis L-SerDH is a novel type of L-SerDH, like Ps. aeruginosa L-SerDH. The overexpressed enzyme appears to be the most thermostable L-SerDH described to date, and no loss of activity was observed by incubation for 30 min at temperatures up to 100 °C. The enzyme showed substantial reactivity towards D-serine, in addition to L-serine. Two different crystal structures of P. calidifontis L-SerDH were determined using the Se-MAD and MR method: the structure in complex with NADP/sulfate ion at 1.18 Å and the structure in complex with NADP/L-tartrate (substrate analog) at 1.57 Å. The fold of the catalytic domain showed similarity with that of Ps. aeruginosa L-SerDH. However, the active site structure significantly differed between the two enzymes. Based on the structure of the tartrate, L- and D-serine and 3-hydroxypropionate molecules were modeled into the active site and the substrate binding modes were estimated. A structural comparison suggests that the wide cavity at the substrate binding site is likely responsible for the high reactivity of the enzyme toward both L- and D-serine enantiomers. This is the first description of the structure of the novel type of L-SerDH with bound NADP and substrate analog, and it provides new insight into the substrate binding mechanism of L-SerDH. The results obtained here may be very informative for the creation of L- or D-serine-specific SerDH by protein engineering.
在嗜热古菌嗜热栖热袍菌(Pyrobaculum calidifontis)中鉴定出一种编码L-丝氨酸脱氢酶(L-SerDH)的基因,该基因与根癌土壤杆菌(Agrobacterium tumefaciens)的L-SerDH序列同一性极低。预测的氨基酸序列与铜绿假单胞菌(Pseudomonas aeruginosa)的L-SerDH有36%的同一性,这表明嗜热栖热袍菌L-SerDH是一种新型的L-SerDH,类似于铜绿假单胞菌的L-SerDH。过表达的这种酶似乎是迄今为止所描述的最耐热的L-SerDH,在高达100℃的温度下孵育30分钟未观察到活性丧失。除了L-丝氨酸外,该酶对D-丝氨酸也表现出显著的反应活性。利用硒单波长反常散射(Se-MAD)和分子置换(MR)方法确定了嗜热栖热袍菌L-SerDH的两种不同晶体结构:与NADP/硫酸根离子复合物的结构(分辨率为1.18 Å)以及与NADP/L-酒石酸盐(底物类似物)复合物的结构(分辨率为1.57 Å)。催化结构域的折叠与铜绿假单胞菌L-SerDH的相似。然而,两种酶的活性位点结构有显著差异。基于酒石酸盐的结构,将L-和D-丝氨酸以及3-羟基丙酸分子模拟到活性位点并估计了底物结合模式。结构比较表明,底物结合位点处的宽腔可能是该酶对L-和D-丝氨酸对映体均具有高反应活性的原因。这是首次对结合NADP和底物类似物的新型L-SerDH结构进行描述,为L-SerDH的底物结合机制提供了新的见解。此处获得的结果对于通过蛋白质工程创建L-或D-丝氨酸特异性丝氨酸脱氢酶可能非常有参考价值。
