Department of Biology, Faculty of Arts & Sciences, Rize University, 53100, Rize, Turkey.
J Microbiol. 2011 Aug;49(4):641-50. doi: 10.1007/s12275-011-0522-6. Epub 2011 Sep 2.
The G2ALT gene was cloned and sequenced from the thermophilic bacterium Anoxybacillus gonensis G2. The gene is 666 bp long and encodes a protein 221 amino acids in length. The gene was overexpressed in E. coli and purified to homogeneity and biochemically characterized. The enzyme has a molecular mass of 24.5 kDa and it could be classified as a member of the family of bacterial aluminium resistance proteins based on homology searches. When this fragment was expressed in E. coli, it endowed E. coli with Al tolerance to 500 μM. The purified G2ALT protein is active at a broad pH range (pH 4.0-10.0) and temperature range (25°C-80°C) with optima of 6.0 and the apparent optimal temperature of 73°C respectively. Under optimal conditions, G2ALT exhibited a low ATPase activity with K (m) (-) and V (max) (-) values of 10±0.55 μM and 26.81±0.13 mg Pi released/min/mg enzyme, respectively. The ATPase activity of G2ALT requires Mg(2+) and Na(+) ions, while Zn(2+) and Al(3+) stimulate the activity. Cd(2+) and Ag(+) reduced the activity and Li(+), Cu(2+), and Co(2+) inhibited the activity. Known inhibitors of most ATPases, like such as β-mercaptoethanol and ouabain, also inhibited the activity of the G2ALT. These biochemical characterizations suggested that G2ALT belongs to the PP-loop ATPase superfamily and it can be responsible for aluminium tolerance in A. gonensis G2.
从嗜热细菌 Anoxybacillus gonensis G2 中克隆并测序了 G2ALT 基因。该基因长 666bp,编码一个 221 个氨基酸的蛋白质。该基因在大肠杆菌中过表达并纯化至均一性,并进行了生化特性分析。该酶的分子量为 24.5kDa,根据同源性搜索,可将其归类为细菌铝抗性蛋白家族的成员。当该片段在大肠杆菌中表达时,使大肠杆菌对 500μM 的 Al 具有耐受性。纯化的 G2ALT 蛋白在广泛的 pH 范围(pH4.0-10.0)和温度范围(25°C-80°C)下具有活性,最适 pH 为 6.0,表观最适温度为 73°C。在最佳条件下,G2ALT 表现出低的 ATPase 活性,K(m)(-)和 V(max)(-)值分别为 10±0.55μM 和 26.81±0.13mg Pi 释放/min/mg 酶。G2ALT 的 ATPase 活性需要 Mg(2+)和 Na(+)离子,而 Zn(2+)和 Al(3+)则刺激其活性。Cd(2+)和 Ag(+)降低了其活性,Li(+)、Cu(2+)和 Co(2+)则抑制了其活性。大多数 ATPase 的已知抑制剂,如β-巯基乙醇和哇巴因,也抑制了 G2ALT 的活性。这些生化特性表明,G2ALT 属于 PP 环 ATPase 超家族,可能负责 A. gonensis G2 对铝的耐受性。
