Structural and Kinetic Characterization of Hyperthermophilic NADH-Dependent Persulfide Reductase from Archaeoglobus fulgidus.

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS
ACS Applied Bio Materials Pub Date : 2021-03-09 eCollection Date: 2021-01-01 DOI:10.1155/2021/8817136
Sherwin Shabdar, Bukuru Anaclet, Ana Garcia Castineiras, Neyissa Desir, Nicholas Choe, Edward J Crane, Matthew H Sazinsky
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引用次数: 0

Abstract

NADH-dependent persulfide reductase (Npsr) has been proposed to facilitate dissimilatory sulfur respiration by reducing persulfide or sulfane sulfur-containing substrates to H2S. The presence of this gene in the sulfate and thiosulfate-reducing Archaeoglobus fulgidus DSM 4304 and other hyperthermophilic Archaeoglobales appears anomalous, as A. fulgidus is unable to respire S0 and grow in the presence of elemental sulfur. To assess the role of Npsr in the sulfur metabolism of A. fulgidus DSM 4304, the Npsr from A. fulgidus was characterized. AfNpsr is specific for persulfide and polysulfide as substrates in the oxidative half-reaction, exhibiting k cat/K m on the order of 104 M-1 s-1, which is similar to the kinetic parameters observed for hyperthermophilic CoA persulfide reductases. In contrast to the bacterial Npsr, AfNpsr exhibits low disulfide reductase activity with DTNB; however, similar to the bacterial enzymes, it does not show detectable activity with CoA-disulfide, oxidized glutathione, or cystine. The 3.1 Å X-ray structure of AfNpsr reveals access to the tightly bound catalytic CoA, and the active site Cys 42 is restricted by a flexible loop (residues 60-66) that is not seen in the bacterial homologs from Shewanella loihica PV-4 and Bacillus anthracis. Unlike the bacterial enzymes, AfNpsr exhibits NADH oxidase activity and also shows no detectable activity with NADPH. Models suggest steric and electrostatic repulsions of the NADPH 2'-phosphate account for the strong preference for NADH. The presence of Npsr in the nonsulfur-reducing A. fulgidus suggests that the enzyme may offer some protection against S0 or serve in another metabolic role that has yet to be identified.

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嗜热型 NADH 依赖性过硫化物还原酶的结构和动力学特征
有人提出,NADH 依赖性过硫化物还原酶(Npsr)可通过将过硫化物或含硫烷底物还原为 H2S 来促进异嗜硫呼吸。在硫酸盐和硫代硫酸盐还原弓形虫(Archaeoglobus fulgidus DSM 4304)和其他嗜热弓形虫中存在该基因似乎是不正常的,因为弓形虫无法呼吸 S0,也无法在元素硫存在下生长。为了评估 Npsr 在富尔吉德氏弓形虫(A. fulgidus DSM 4304)硫代谢中的作用,研究人员对来自富尔吉德氏弓形虫的 Npsr 进行了鉴定。AfNpsr 在氧化半反应中对过硫化物和多硫化物作为底物具有特异性,表现出 104 M-1 s-1 量级的 k cat/K m,这与在嗜热 CoA 过硫化物还原酶中观察到的动力学参数相似。与细菌的 Npsr 相反,AfNpsr 对 DTNB 表现出较低的二硫化物还原酶活性;然而,与细菌酶类似,它对 CoA-二硫化物、氧化谷胱甘肽或胱氨酸没有表现出可检测到的活性。AfNpsr 的 3.1 Å X 射线结构显示,可以进入紧密结合的催化 CoA,而活性位点 Cys 42 受到一个柔性环(残基 60-66)的限制,这在来自 Shewanella loihica PV-4 和炭疽杆菌的细菌同源物中是看不到的。与细菌酶不同的是,AfNpsr 具有 NADH 氧化酶活性,但对 NADPH 没有检测到活性。模型表明,NADPH 2'-磷酸的立体和静电排斥是对 NADH 产生强烈偏好的原因。非硫还原型富尔格氏甲虫中 Npsr 的存在表明,这种酶可能对 S0 有一定的保护作用,或者具有另一种尚未确定的代谢作用。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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