生物氧传感器的结构:血红素驱动信号转导的新机制
Structure of a biological oxygen sensor: a new mechanism for heme-driven signal transduction.
作者信息
Gong W, Hao B, Mansy S S, Gonzalez G, Gilles-Gonzalez M A, Chan M K
机构信息
Department of Biochemistry, The Ohio State University, 484 West 12th Avenue, Columbus, OH 43210, USA.
出版信息
Proc Natl Acad Sci U S A. 1998 Dec 22;95(26):15177-82. doi: 10.1073/pnas.95.26.15177.
Abstract
The FixL proteins are biological oxygen sensors that restrict the expression of specific genes to hypoxic conditions. FixL's oxygen-detecting domain is a heme binding region that controls the activity of an attached histidine kinase. The FixL switch is regulated by binding of oxygen and other strong-field ligands. In the absence of bound ligand, the heme domain permits kinase activity. In the presence of bound ligand, this domain turns off kinase activity. Comparison of the structures of two forms of the Bradyrhizobium japonicum FixL heme domain, one in the "on" state without bound ligand and one in the "off" state with bound cyanide, reveals a mechanism of regulation by a heme that is distinct from the classical hemoglobin models. The close structural resemblance of the FixL heme domain to the photoactive yellow protein confirms the existence of a PAS structural motif but reveals the presence of an alternative regulatory gateway.
摘要
FixL蛋白是生物氧传感器,可将特定基因的表达限制在缺氧条件下。FixL的氧检测结构域是一个血红素结合区域,可控制附着的组氨酸激酶的活性。FixL开关受氧气和其他强场配体结合的调节。在没有结合配体的情况下,血红素结构域允许激酶活性。在有结合配体的情况下,该结构域会关闭激酶活性。对日本慢生根瘤菌FixL血红素结构域的两种形式的结构进行比较,一种处于无结合配体的“开启”状态,另一种处于结合氰化物的“关闭”状态,揭示了一种与经典血红蛋白模型不同的血红素调节机制。FixL血红素结构域与光活性黄色蛋白在结构上的密切相似性证实了PAS结构基序的存在,但也揭示了存在另一种调节途径。
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