大肠杆菌铵通道 AmtB 的关键双组氨酸和芳香三联体可以被取代。
The pivotal twin histidines and aromatic triad of the Escherichia coli ammonium channel AmtB can be replaced.
机构信息
Department of Plant and Microbial Biology, University of California, Berkeley, CA 94720-3102, USA.
出版信息
Proc Natl Acad Sci U S A. 2011 Aug 9;108(32):13270-4. doi: 10.1073/pnas.1108451108. Epub 2011 Jul 20.
Abstract
In Escherichia coli, each subunit of the trimeric channel protein AmtB carries a hydrophobic pore for transport of NH(4)(+) across the cytoplasmic membrane. Positioned along this substrate conduction pathway are two conserved elements--a pair of hydrogen-bonded histidines (H168/H318) located within the pore itself and a set of aromatic residues (F107/W148/F215) at its periplasmic entrance--thought to be critical to AmtB function. Using site-directed mutagenesis and suppressor genetics, we examined the requirement for these elements in NH(4)(+) transport. This analysis shows that AmtB can accommodate, by either direct substitution or suppressor generation, acidic residues at one or both positions of the H168/H318 twin-histidine site while retaining near wild-type activity. Similarly, study of the F107/W148/F215 triad indicates that good-to-excellent AmtB function is preserved upon individual and simultaneous replacement of these aromatic amino acids with aliphatic residues. Our findings lead us to conclude that these elements and their component parts are not required for AmtB function, but instead serve to optimize its performance.
摘要
在大肠杆菌中,三聚体通道蛋白 AmtB 的每个亚基都携带一个疏水性孔,用于将 NH(4)(+) 跨细胞质膜运输。沿着这个底物传导途径排列着两个保守元件 - 一对位于孔内的氢键结合的组氨酸(H168/H318)和一组位于其周质入口的芳香族残基(F107/W148/F215) - 被认为对 AmtB 功能至关重要。使用定点突变和抑制遗传,我们检查了这些元件在 NH(4)(+) 运输中的要求。该分析表明,AmtB 可以通过直接取代或抑制生成来适应 H168/H318 双组氨酸位点的一个或两个位置的酸性残基,同时保持近野生型活性。同样,对 F107/W148/F215 三联体的研究表明,在单独和同时用脂肪族残基取代这些芳香族氨基酸时,良好到极好的 AmtB 功能得以保留。我们的发现使我们得出结论,这些元件及其组成部分不是 AmtB 功能所必需的,而是有助于优化其性能。
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