A. G. Andrianova, A. M. Kudzhaev, I. V. Smirnov, T. V. Rotanova
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引用次数: 0
摘要
目的:依赖 ATP 的 Lon 蛋白酶是细胞蛋白质质量控制系统中的关键角色。Lon 家族包括三个主要亚家族(A、B 和 C),其代表常见于细菌、真核生物和古细菌。最近,在芽孢杆菌和梭状芽孢杆菌中发现了可能形成新的 "混合 "亚家族 LonBA 的酶。本研究旨在描述 LonBA 蛋白酶的结构特征,并通过与经典的 LonA 和 LonB 蛋白酶进行比较来阐明其特征。研究方法采用生物信息学分析方法和手段对不同亚家族的 Lon 蛋白酶进行比较。结果与讨论:对Firmiqutes'Lons共同基因库序列的分析表明,它们既包含经典的LonA蛋白酶,也包含 "混合 "的LonBA蛋白酶。后者的 ATPase 成分与 LonB 蛋白酶的 ATPase 片段相似,而催化 P 结构域与 LonA 蛋白酶的 P 结构域相似。对 LonBA 不同结构片段的相似度进行了估计。确定了长短LonBA蛋白酶群。短长LonBAs的来源既有芽孢杆菌也有梭状芽孢杆菌,但长LonBAs只有梭状芽孢杆菌。结论研究表明,新的 LonBA 蛋白酶亚家族由两个酶群组成,它们的 N 端片段和蛋白酶结构域结构不同。
ATP-Dependent LonBA Proteases of Bacilli and Clostridia
Objective: ATP-dependent Lon proteases are key players in the quality control system of cellular proteins. The Lon family includes three main subfamilies (A, B, and C), whose representatives are common in bacteria, eukaryotes, and archaea. Recently, enzymes that potentially form a new “hybrid” subfamily LonBA have been discovered in bacteria of the Bacilli and Clostridia classes. This study aims to characterize the structure of LonBA proteases and elucidate their features by comparison with classical LonA and LonB proteases. Methods: Bioinformatics analysis methods and approaches were used to comparatively characterize Lon proteases of different subfamilies. Results and Discussion: Analysis of sequences of the common pool of Firmiqutes’ Lons showed that they contain both classical LonA and “hybrid” LonBA proteases. The ATPase component of the latters is similar to the ATPase fragment of LonB proteases, while the catalytic P domain is similar to the P domain of LonA proteases. Degrees of similarity of different structural fragments of LonBAs were estimated. Groups of short and long LonBA proteases were identified. Sources of short-LonBAs are both bacilli and clostridia, but long ones—only clostridia. Conclusions: The new subfamily of LonBA proteases was shown to consist of two communities of enzymes that differ in the structure of their N-terminal fragments and protease domains.
期刊介绍:
Russian Journal of Bioorganic Chemistry publishes reviews and original experimental and theoretical studies on the structure, function, structure–activity relationships, and synthesis of biopolymers, such as proteins, nucleic acids, polysaccharides, mixed biopolymers, and their complexes, and low-molecular-weight biologically active compounds (peptides, sugars, lipids, antibiotics, etc.). The journal also covers selected aspects of neuro- and immunochemistry, biotechnology, and ecology.
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