Laboratoire de Microbiologie et Génétique Moléculaire, INRA-CNRS-AgroParisTech UMR2585, 78850 Thiverval-Grignon, France.
Mol Microbiol. 2010 Jun 1;76(5):1279-94. doi: 10.1111/j.1365-2958.2010.07175.x. Epub 2010 May 4.
Many bacteria transport mannitol via the mtlAF-encoded phosphoenolpyruvate (PEP):carbohydrate phosphotransferase system (PTS). In most firmicutes the transcriptional activator MtlR controls expression of the mtl operon. MtlR possesses an N-terminal DNA binding domain, two PTS regulation domains (PRDs), an EIIB(Gat)- and EIIA(Mtl)-like domain. These four regulatory domains contain one or two potential PTS phosphorylation sites. Replacement of His-342 or His-399 in PRD2 with Ala prevented the phosphorylation of Bacillus subtilis MtlR by PEP, EI and HPr. These mutations as well as EI inactivation caused a loss of MtlR function in vivo. In contrast, phosphomimetic replacement of His-342 with Asp rendered MtlR constitutively active. The absence of phosphorylation in PRD2 serves as catabolite repression mechanism. When EIIA(Mtl) and the soluble EIIB(Mtl) domain of the EIICB(Mtl) permease were included in the phosphorylation mixture, His-599 in the EIIA-like domain of MtlR also became phosphorylated. Replacement of His-599 with Asp rendered MtlR inactive, while His599Ala replacement caused slightly constitutive, glucose-repressible MtlR activity. Doubly mutated His342Ala/His599Ala MtlR was still phosphorylated by EI, HPr and EIIA(Mtl) at Cys-419 in the EIIB(Gat)-like domain. Cys419Ala replacement and deletion of EIIA(Mtl) caused strong constitutive glucose-repressible MtlR activity. This is the first report that Cys phosphorylation controls PRD-containing transcriptional activators.
许多细菌通过 mtlAF 编码的磷酸烯醇丙酮酸(PEP):碳水化合物磷酸转移酶系统(PTS)运输甘露醇。在大多数 Firmicutes 中,转录激活因子 MtlR 控制 mtl 操纵子的表达。MtlR 具有一个 N 端 DNA 结合域、两个 PTS 调节域(PRD)、一个 EIIB(Gat)-和 EIIA(Mtl)-样结构域。这四个调节结构域包含一个或两个潜在的 PTS 磷酸化位点。用丙氨酸替换 PRD2 中的 His-342 或 His-399 可阻止枯草芽孢杆菌 MtlR 被 PEP、EI 和 HPr 磷酸化。这些突变以及 EI 失活导致 MtlR 在体内失去功能。相比之下,用天冬氨酸替换 His-342 可使 MtlR 组成型激活。PRD2 中缺乏磷酸化作为分解代谢物阻遏机制。当 EIIA(Mtl)和 EIICB(Mtl)通透酶的可溶性 EIIB(Mtl)结构域被包含在磷酸化混合物中时,MtlR 的 EIIA 样结构域中的 His-599 也被磷酸化。用天冬氨酸替换 His-599 使 MtlR 失活,而 His599Ala 替换导致略微组成型、葡萄糖可诱导的 MtlR 活性。双重突变 His342Ala/His599Ala MtlR 仍然可被 EI、HPr 和 EIIA(Mtl)在 EIIB(Gat)-样结构域中的 Cys-419 磷酸化。Cys419Ala 替换和 EIIA(Mtl)缺失导致强烈的组成型葡萄糖可诱导的 MtlR 活性。这是第一个报道 Cys 磷酸化控制包含 PRD 的转录激活因子的报告。
