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来自热带气候植物棉花(陆地棉)的一种新型耐热型NAD依赖型甲酸脱氢酶的特性分析

Characterization of a novel thermotolerant NAD-dependent formate dehydrogenase from hot climate plant cotton ( L.).

作者信息

Kurt-Gür Günseli, Ordu Emel

机构信息

Yildiz Technical University, Faculty of Art and Science, Department of Molecular Biology and Genetics, Davutpasa Campus Esenler, 34220 Istanbul, Turkey.

出版信息

3 Biotech. 2018 Mar;8(3):175. doi: 10.1007/s13205-018-1200-8. Epub 2018 Mar 10.

DOI:10.1007/s13205-018-1200-8
PMID:29556429
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5845482/
Abstract

NAD-dependent formate dehydrogenases (FDH, EC 1.2.1.2), providing energy to the cell in methylotrophic microorganisms, are stress proteins in higher plants and the level of FDH expression increases under several abiotic and biotic stress conditions. They are biotechnologically important enzymes in NAD(P)H regeneration as well as CO reduction. Here, the truncated form of the cDNA was cloned into pQE-2 vector, and overexpressed in DH5α-T1 cells. Recombinant GhFDH1 was purified 26.3-fold with a yield of 87.3%. Optimum activity was observed at pH 7.0, when substrate is formate. Kinetic analyses suggest that GhFDH1 has considerably high affinity to formate (0.76 ± 0.07 mM) and NAD (0.06 ± 0.01 mM). At the same time, the affinity (1.98 ± 0.4 mM) and catalytic efficiency (0.0041) values of the enzyme for NADP show that GhFDH1 is a valuable enzyme for protein engineering studies that is trying to change the coenzyme preference from NAD to NADP which has a much higher cost than that of NAD. Improving the NADP specificity is important for NADPH regeneration which is an important coenzyme used in many biotechnological production processes. The value of GhFDH1 is 53.3 °C and the highest enzyme activity is measured at 30 °C with a half-life of 61 h. Whilst further improvements are still required, the obtained results show that GhFDH1 is a promising enzyme for NAD(P)H regeneration for its prominent thermostability and NADP specificity.

摘要

依赖烟酰胺腺嘌呤二核苷酸(NAD)的甲酸脱氢酶(FDH,EC 1.2.1.2)为甲基营养型微生物的细胞提供能量,是高等植物中的应激蛋白,在多种非生物和生物胁迫条件下,FDH的表达水平会升高。它们是NAD(P)H再生以及一氧化碳还原过程中具有重要生物技术意义的酶。在此,将截短形式的cDNA克隆到pQE - 2载体中,并在DH5α - T1细胞中过表达。重组GhFDH1的纯化倍数为26.3倍,产率为87.3%。当底物为甲酸时,在pH 7.0条件下观察到最佳活性。动力学分析表明,GhFDH1对甲酸(0.76±0.07 mM)和NAD(0.06±0.01 mM)具有相当高的亲和力。同时,该酶对NADP的亲和力(1.98±0.4 mM)和催化效率(0.0041)值表明,GhFDH1对于试图将辅酶偏好从NAD改变为NADP(其成本远高于NAD)的蛋白质工程研究而言是一种有价值的酶。提高对NADP的特异性对于NADPH再生很重要,NADPH是许多生物技术生产过程中使用的一种重要辅酶。GhFDH1的最适温度为53.3 °C,在30 °C时测得最高酶活性,半衰期为61小时。虽然仍需要进一步改进,但所得结果表明,GhFDH1因其突出的热稳定性和对NADP的特异性,是用于NAD(P)H再生的一种有前景的酶。

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