Kriek Marco, Martins Filipa, Leonardi Roberta, Fairhurst Shirley A, Lowe David J, Roach Peter L
Chemical Biology Section, School of Chemistry, University of Southampton, Highfield, Southampton, SO17 1BJ, United Kingdom.
J Biol Chem. 2007 Jun 15;282(24):17413-23. doi: 10.1074/jbc.M700782200. Epub 2007 Apr 2.
Thiamine is biosynthesized by combining two heterocyclic precursors. In Escherichia coli and other anaerobes, one of the heterocycles, 4-methyl-5-(beta-hydroxyethyl) thiazole phosphate, is biosynthesized from 1-deoxyxylulose-5-phosphate, tyrosine, and cysteine. Genetic evidence has identified thiH, thiG, thiS, and thiF as essential for thiazole biosynthesis in E. coli. In this paper, we describe the measurement of the thiazole phosphate-forming reaction using purified protein components. The activity is shown to require four proteins isolated as heterodimers: ThiGH and ThiFS. Reconstitution of the [4Fe-4S] cluster in ThiH was essential for activity, as was the use of ThiS in the thiocarboxylate form. Spectroscopic studies with ThiGH strongly suggested that S-adenosylmethionine (AdoMet) bound to the [4Fe-4S] cluster, which became more susceptible to reduction to the +1 state. Assays of thiazole phosphate formation showed that, in addition to the proteins, Dxp, tyrosine, AdoMet, and a reductant were required. The analysis showed that no more than 1 mol eq of thiazole phosphate was formed per ThiGH. Furthermore, for each mole of thiazole-P formed, 1 eq of AdoMet and 1 eq of tyrosine were utilized, and 1 eq of 5'-deoxyadenosine was produced. These results demonstrate that ThiH is a member of the "radical-AdoMet" family and support a mechanistic hypothesis in which AdoMet is reductively cleaved to yield a highly reactive 5'-deoxyadenosyl radical. This radical is proposed to abstract the phenolic hydrogen atom from tyrosine, and the resultant substrate radical cleaves to yield dehydroglycine, which is required by ThiG for the thiazole cyclization reaction.
硫胺素是通过结合两种杂环前体生物合成的。在大肠杆菌和其他厌氧菌中,其中一种杂环,4-甲基-5-(β-羟乙基)噻唑磷酸,是由1-脱氧木酮糖-5-磷酸、酪氨酸和半胱氨酸生物合成的。遗传学证据表明,thiH、thiG、thiS和thiF对大肠杆菌中噻唑的生物合成至关重要。在本文中,我们描述了使用纯化的蛋白质成分对噻唑磷酸形成反应的测量。该活性显示需要分离为异二聚体的四种蛋白质:ThiGH和ThiFS。ThiH中[4Fe-4S]簇的重建对活性至关重要,硫代羧酸盐形式的ThiS的使用也是如此。对ThiGH的光谱研究强烈表明,S-腺苷甲硫氨酸(AdoMet)与[4Fe-4S]簇结合,该簇变得更容易还原为+1价态。噻唑磷酸形成的测定表明,除了蛋白质外,还需要Dxp、酪氨酸、AdoMet和一种还原剂。分析表明,每摩尔ThiGH形成的噻唑磷酸不超过1摩尔当量。此外,每形成1摩尔噻唑-P,会利用1当量的AdoMet和1当量的酪氨酸,并产生1当量的5'-脱氧腺苷。这些结果表明,ThiH是“自由基-AdoMet”家族的一员,并支持一种机制假说,即AdoMet被还原裂解以产生高反应性的5'-脱氧腺苷自由基。该自由基被认为从酪氨酸中提取酚氢原子,所得的底物自由基裂解产生脱氢甘氨酸,这是ThiG进行噻唑环化反应所必需的。
