An Expanded Substrate Spectrum of Sulfide:Quinone Oxidoreductase Found in Pollutant Degrading Bacteria.

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS
Shiqi Fang, Jinfeng Lu, Wenwen Zhou, Chao Sun, Guoqing Chen, Yuhang Tang, Dongzhi Chen, Jun Li
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引用次数: 0

Abstract

Sulfide:Quinone Oxidoreductase (Sqr) Catalyzes The Initial Procedure On Sulfide Transformation, Alongside Sulfide (H2S, S2-) Oxidization Coupled With Coenzyme Q (Coq) Reducing And Reactive Sulfur Species (RSS) Production. Here, We Assessed The Reactivity Of Propanethiol (PT) As An Alternative Substrate For Sqr To Maintain Intracellular Homeostasis In Strain S-1 Capable Of Degrading Emerging Sulfur-Containing Pollutants. We Deleted A Gene Encoding Sqr, And Serial Transcriptional Difference Induced By RSS Dynamics Was Therefore Revealed. Next, The Reaction Properties Of Two Sqr Homologs From Strains JMP134 And S-1 Were Comparatively Characterized, Respectively. As A Result, An Additional Role Of Sqr In Yielding RSS From PT Was Found In Reaction Mixture Prepared By Cell-Free Extracts Or Purified Enzymes. Interestingly, The Transformation Velocity Of PT By Sqr Was Slower Than That Of Sulfides. From This Scenario, It Was A Rate-Determining Step That PT As A Nucleophilic Compound Can Be Added Into Sqr Cysteine To Form Disulfide Bond And Likely Serve Nonoptimal Sulfur Recipient. In Addition, The Role Of Persulfidation Driven By RSS In Combating Oxidative And Sulfur Stresses Required To Be Further Clarified. Nevertheless, This Promiscuity Of Sqr-Binding Organosulfur Compounds And Its Catalytic Modulation Underscored That Expanded Substrates Might Benefit Sulfide Homeostasis In Thiol-Degrading Bacteria.

污染物分解细菌中发现的硫化物:醌氧化还原酶的底物谱扩大了。
硫化物:醌氧化还原酶(Sqr)催化硫化物转化的初始过程,与硫化物(H2S, S2-)氧化、辅酶Q(CoQ)还原和活性硫物种(RSS)生成同时进行。在这里,我们评估了丙硫醇(PT)作为 Sqr 替代底物的反应性,以维持菌株 S-1 的细胞内平衡,使其能够降解新出现的含硫污染物。我们删除了一个编码 Sqr 的基因,从而揭示了 RSS 动态诱导的序列转录差异。接下来,我们分别比较了 JMP134 菌株和 S-1 菌株中两个 Sqr 同源物的反应特性。结果发现,在无细胞提取物或纯化酶制备的反应混合物中,Sqr在从PT产生RSS方面发挥了额外的作用。有趣的是,Sqr 转化 PT 的速度比转化硫化物的速度慢。从这种情况来看,PT 作为一种亲核化合物可以加入到 Sqr 半胱氨酸中形成二硫键,并可能作为非最佳的受硫体,这是一个决定速度的步骤。此外,RSS 驱动的过硫化作用在对抗氧化和硫胁迫方面的作用也有待进一步阐明。尽管如此,Sqr 结合有机硫化合物的这种杂交性及其催化调节强调了扩大底物可能有利于硫醇降解细菌的硫化物平衡。
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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