Chadsey M S, Hughes K T
Hughes Laboratory Department of Microbiology, University of Washington, Seattle, WA 98195, USA.
J Mol Biol. 2001 Mar 9;306(5):915-29. doi: 10.1006/jmbi.2001.4438.
Transcription of the late (Class 3) flagellar promoters in Salmonella typhimurium is dependent upon the flagellar specific sigma factor, sigma28, encoded by the fliA gene. sigma28-dependent transcription is inhibited by an anti-sigma factor, FlgM, through a direct interaction. FlgM can bind both to free sigma28 to prevent it from forming a complex with core RNA polymerase, and to sigma28 holoenzyme to destabilize the complex. A collection of fliA mutants defective for negative regulation by FlgM (fliA* mutants) were isolated. This collection included 27 substitution mutations that conferred insensitivity to FlgM in vivo. The distribution of mutations defined three potential FlgM binding domains in conserved sigma factor regions 2.1, 3.1 and 4 of sigma28. A subset of mutants from each region was assayed for FlgM binding and transcriptional activity in vitro. The results strongly support a multipartite interaction between sigma28 and FlgM. Region 4 mutations, but not region 2.1 or 3.1 mutations, interfered with the ability of FlgM to destabilize sigma28 from core RNA polymerase. We present refined models for FlgM inhibition of sigma28, and for FlgM destabilization of sigma28 holoenzyme.
鼠伤寒沙门氏菌中晚期(3类)鞭毛启动子的转录依赖于由fliA基因编码的鞭毛特异性σ因子σ28。σ28依赖性转录受到一种抗σ因子FlgM的抑制,二者通过直接相互作用发挥作用。FlgM既能与游离的σ28结合,以阻止其与核心RNA聚合酶形成复合物,又能与σ28全酶结合,使该复合物不稳定。我们分离出了一组因FlgM负调控缺陷而产生的fliA突变体(fliA*突变体)。这一组突变体包括27个在体内对FlgM不敏感的替代突变。突变的分布确定了σ28保守σ因子区域2.1、3.1和4中三个潜在的FlgM结合结构域。对每个区域的一部分突变体进行了体外FlgM结合和转录活性检测。结果有力地支持了σ28和FlgM之间的多部分相互作用。区域4的突变,而非区域2.1或3.1的突变,干扰了FlgM使σ28从核心RNA聚合酶上脱离的能力。我们提出了FlgM抑制σ28以及FlgM使σ28全酶不稳定的优化模型。
