Kitanishi Kenichi
Department of Chemistry, Faculty of Science, Tokyo University of Science, Tokyo, Japan.
Front Mol Biosci. 2022 Aug 5;9:967059. doi: 10.3389/fmolb.2022.967059. eCollection 2022.
Hemerythrin is an oxygen-binding protein originally found in certain marine invertebrates. Oxygen reversibly binds at its non-heme diiron center, which consists of two oxo-bridged iron atoms bound to a characteristic conserved set of five His residues, one Glu residue, and one Asp residue. It was recently discovered that several bacteria utilize hemerythrin as an oxygen- and redox-sensing domain in responding to changes in cellular oxygen concentration or redox status, and immediately adapt to these environmental changes in order to maintain important physiological processes, including chemotaxis and c-di-GMP synthesis and degradation. This Mini Review focuses on the recent progress made on structural and functional aspects of these emerging bacterial hemerythrin domain-containing oxygen and redox sensors, revealing characteristic features of this family of proteins.
蚯蚓血红蛋白是一种最初在某些海洋无脊椎动物中发现的氧结合蛋白。氧气在其非血红素双铁中心可逆结合,该中心由两个通过氧桥连接的铁原子组成,这两个铁原子与一组由五个组氨酸残基、一个谷氨酸残基和一个天冬氨酸残基构成的特征性保守序列相连。最近发现,几种细菌利用蚯蚓血红蛋白作为氧和氧化还原感应结构域,以响应细胞内氧气浓度或氧化还原状态的变化,并立即适应这些环境变化,从而维持包括趋化作用以及环二鸟苷酸合成与降解在内的重要生理过程。本综述聚焦于这些新出现的含蚯蚓血红蛋白结构域的细菌氧和氧化还原传感器在结构和功能方面的最新进展,揭示了这类蛋白质家族的特征。