Identification of two distinct NADH oxidases corresponding to H2O2-forming oxidase and H2O-forming oxidase induced in Streptococcus mutans.

M Higuchi, M Shimada, Y Yamamoto, T Hayashi, T Koga, Y Kamio
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引用次数: 118

Abstract

Two distinct NADH oxidases, corresponding to H2O2-forming and H2O-forming enzymes were purified to homogeneity from Streptococcus mutans and their basic properties determined. The H2O2-forming enzyme was a tetramer with a subunit molecular mass of about 56 kDa and required flavin adenine dinucleotide (FAD) for full activity. The enzyme had an isoelectric point of 6.6 and exhibited optimal activity at pH 6.0. The H2O-forming enzyme was a monomer with a molecular mass of 50 kDa and activity independent of exogenously added flavin. The enzyme had an isoelectric point of 4.8 and exhibited optimal activity between pH 7.0 and 7.5. Both enzymes oxidized NADH (Km 0.05 and 0.025 mM for the H2O2- and H2O-forming enzyme, respectively) but not NADPH and contained 1 mol of FAD per monomer. Spectra of the oxidized enzymes exhibited maxima at 271, 383 and 449 nm for the H2O2-forming enzyme and 271, 375 and 447 nm for the H2O-forming enzyme. Antibodies raised against the H2O2-forming enzyme or the H2O-forming enzyme reacted with their corresponding antigen, but did not cross-react. The amino-terminal regions of the two enzymes had completely different amino acid sequences.

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变形链球菌诱导的两种不同的NADH氧化酶,分别对应于h2o2形成氧化酶和h2o形成氧化酶。
从变形链球菌中纯化出两种不同的NADH氧化酶,分别对应于h2o2形成酶和h2o形成酶,并测定了它们的基本性质。h2o2形成酶是一个四聚体,亚基分子质量约为56 kDa,需要黄素腺嘌呤二核苷酸(FAD)才能充分发挥活性。该酶的等电点为6.6,在pH 6.0时表现出最佳活性。形成水的酶是一个单体,分子量为50 kDa,活性不依赖于外源添加的黄素。该酶的等电点为4.8,在pH 7.0 ~ 7.5之间表现出最佳活性。这两种酶都能氧化NADH (H2O2-和h2o -形成酶分别为0.05和0.025 mM),但不能氧化NADPH,每个单体含有1 mol的FAD。形成h2o2的酶在271、383和449 nm处达到最大值,形成h2o的酶在271、375和447 nm处达到最大值。针对h2o2形成酶或h2o2形成酶的抗体与相应的抗原发生反应,但不发生交叉反应。两种酶的氨基末端区氨基酸序列完全不同。
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