谷氨酸棒杆菌丙酮酸:醌氧化还原酶:一种具有不寻常结构特征的神秘代谢酶。

Cristiano da Silva Lameira, Sini Münßinger, Lu Yang, Bernhard J. Eikmanns, Marco Bellinzoni
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摘要

丙酮酸:醌氧化还原酶(PQO)是一种含黄素的外周膜酶,以醌为电子受体,催化丙酮酸脱羧为乙酸和二氧化碳。在此,我们研究了谷氨酸棒杆菌中的 PQO 活性,检测了纯化的 PQO,并描述了原生酶和截短酶的晶体结构。在复合培养基中生长的静止期细胞中,特异性 PQO 活性最高;在含葡萄糖或醋酸盐的复合培养基中生长的细胞中,特异性 PQO 活性较低;而在最小醋酸盐培养基中生长的细胞中,特异性 PQO 活性最低。在 tac 启动子控制下结合质粒表达 pqo 的谷氨酸棒状杆菌中也观察到类似的模式,特异性 PQO 活性高出约 30 倍,这表明 PQO 活性的差异可能是转录后控制造成的。以 0.05 至 0.4 h-1 的稀释速率连续培养谷氨酸棒状杆菌,发现 PQO 活性与生长速率呈负相关。对从复合培养基或最小醋酸培养基中生长的细胞中纯化的 PQO 酶进行动力学分析,发现其特异性活性(72.3 U-mg 蛋白-1 与 11.9 U-mg 蛋白-1)和周转次数(kcat:440 s-1 与 78 s-1)存在很大差异,表明翻译后修饰影响了 PQO 的活性。对 PQO 的结构分析表明,除了 C 端膜结合域与 PoxB 有明显不同的构象外,其同四聚体排列与大肠杆菌丙酮酸氧化酶 PoxB 非常相似。缺少 17 个 C 端氨基酸的截短 PQO 变体对丙酮酸的亲和力更高,而且不受去垢剂活化的影响,这突出表明了 C 端对酶活化和脂质结合的重要性。
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Corynebacterium glutamicum pyruvate:quinone oxidoreductase: an enigmatic metabolic enzyme with unusual structural features

Pyruvate:quinone oxidoreductase (PQO) is a flavin-containing peripheral membrane enzyme catalyzing the decarboxylation of pyruvate to acetate and CO2 with quinone as an electron acceptor. Here, we investigate PQO activity in Corynebacterium glutamicum, examine purified PQO, and describe the crystal structure of the native enzyme and a truncated version. The specific PQO activity was highest in stationary phase cells grown in complex medium, lower in cells grown in complex medium containing glucose or acetate, and lowest in cells grown in minimal acetate-medium. A similar pattern with about 30-fold higher specific PQO activities was observed in C. glutamicum with plasmid-bound pqo expression under the control of the tac promoter, indicating that the differences in PQO activity are likely due to post-transcriptional control. Continuous cultivation of C. glutamicum at dilution rates between 0.05 and 0.4 h−1 revealed a negative correlation between PQO activity and growth rate. Kinetic analysis of PQO enzymes purified from cells grown in complex or in minimal acetate-medium revealed substantial differences in specific activity (72.3 vs. 11.9 U·mg protein−1) and turnover number (kcat: 440 vs. 78 s−1, respectively), suggesting post-translational modifications affecting PQO activity. Structural analysis of PQO revealed a homotetrameric arrangement very similar to the Escherichia coli pyruvate oxidase PoxB except for the C-terminal membrane binding domain, which exhibited a conformation markedly different from its PoxB counterpart. A truncated PQO variant lacking 17 C-terminal amino acids showed higher affinity to pyruvate and was independent of detergent activation, highlighting the importance of the C-terminus for enzyme activation and lipid binding.

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