The critical role of residues Phe120 and Val161 of (2 R,3 R)‑2,3‑butanediol dehydrogenase from Neisseria gonorrhoeae as probed by molecular docking and site-directed mutagenesis

IF 3.5 4区 生物学 Q2 MICROBIOLOGY
Xue Dong, Tingting Zhang, Chuanyue Gui, Shuping Fei, Haonan Xu, Jianrong Chang, Chaoqun Lian, Wanggang Tang
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引用次数: 0

Abstract

NAD+-dependent (2 R,3 R)‑2,3‑butanediol dehydrogenase (BDH) from Neisseria gonorrhoeae (NgBDH) is a representative member of the medium-chain dehydrogenase/reductase (MDR) superfamily. To date, little information is available on the substrate binding sites and catalytic residues of BDHs from this superfamily. In this work, according to molecular docking studies, we found that conserved residues Phe120 and Val161 form strong hydrophobic interactions with both (2 R,3 R)‑2,3‑butanediol (RR-BD) and meso-2,3‑butanediol (meso-BD) and that mutations of these residues to alanine or threonine impair substrate binding. To further evaluate the roles of these two residues, Phe120 and Val161 were mutated to alanine or threonine. Kinetic analysis revealed that, relative to those of wild type, the apparent KM values of the Phe120Ala mutant for RR-BD and meso-BD increased 36- and 369-fold, respectively; the catalytic efficiencies of this mutant with RR-BD and meso-BD decreased approximately 586- and 3528-fold, respectively; and the apparent KM values of the Val161Ala mutant for RR-BD and meso-BD increased 4- and 37-fold, respectively, the catalytic efficiencies of this mutant with RR-BD and meso-BD decreased approximately 3- and 28-fold, respectively. Additionally, the Val161Thr mutant slightly decreased catalytic efficiencies (twofold with RR-BD; 7.3-fold with meso-BD) due to an increase in KM (sixfold for RR-BD; 24-fold for meso-BD) and a slight increase (2.8-fold with RR-BD; 3.3-fold with meso-BD) in kcat. These findings validate the critical roles of Phe120 and Val161 of NgBDH in substrate binding and catalysis. Overall, the current study provides a better understanding of the substrate binding and catalysis of BDHs within the MDR superfamily.

分子对接和定点突变探测淋病奈瑟菌 (2 R,3 R)-2,3 丁二醇脱氢酶残基 Phe120 和 Val161 的关键作用
来自淋病奈瑟菌(NgBDH)的依赖 NAD+ 的 (2 R,3 R)-2,3 丁二醇脱氢酶(BDH)是中链脱氢酶/还原酶(MDR)超家族的代表成员。迄今为止,关于该超家族 BDH 的底物结合位点和催化残基的信息还很少。在这项工作中,根据分子对接研究,我们发现保守残基 Phe120 和 Val161 与(2 R,3 R)-2,3-丁二醇(RR-BD)和介-2,3-丁二醇(meso-BD)形成强烈的疏水相互作用,并且将这些残基突变为丙氨酸或苏氨酸会损害底物结合。为了进一步评估这两个残基的作用,将 Phe120 和 Val161 突变为丙氨酸或苏氨酸。动力学分析表明,与野生型相比,Phe120Ala 突变体对 RR-BD 和 meso-BD 的表观 KM 值分别增加了 36 倍和 369 倍;该突变体对 RR-BD 和 meso-BD 的催化效率分别降低了约 586 倍和 3528 倍;而 Val161Ala 突变体对 RR-BD 和 meso-BD 的表观 KM 值分别增加了 4 倍和 37 倍,该突变体对 RR-BD 和 meso-BD 的催化效率分别降低了约 3 倍和 28 倍。此外,Val161Thr 突变体略微降低了催化效率(RR-BD 为 2 倍;meso-BD 为 7.3 倍),原因是 KM 增加(RR-BD 为 6 倍;meso-BD 为 24 倍),kcat 略微增加(RR-BD 为 2.8 倍;meso-BD 为 3.3 倍)。这些发现验证了 NgBDH 的 Phe120 和 Val161 在底物结合和催化中的关键作用。总之,目前的研究使人们对 MDR 超家族中 BDH 的底物结合和催化作用有了更好的了解。
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
Journal of Basic Microbiology
Journal of Basic Microbiology 生物-微生物学
CiteScore
6.10
自引率
0.00%
发文量
134
审稿时长
1.8 months
期刊介绍: The Journal of Basic Microbiology (JBM) publishes primary research papers on both procaryotic and eucaryotic microorganisms, including bacteria, archaea, fungi, algae, protozoans, phages, viruses, viroids and prions. Papers published deal with: microbial interactions (pathogenic, mutualistic, environmental), ecology, physiology, genetics and cell biology/development, new methodologies, i.e., new imaging technologies (e.g. video-fluorescence microscopy, modern TEM applications) novel molecular biology methods (e.g. PCR-based gene targeting or cassettes for cloning of GFP constructs).
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