丁香霉素E生物合成中的SyrB2是一种非血红素铁II α-酮戊二酸和氧气依赖性卤化酶。
SyrB2 in syringomycin E biosynthesis is a nonheme FeII alpha-ketoglutarate- and O2-dependent halogenase.
作者信息
Vaillancourt Frédéric H, Yin Jun, Walsh Christopher T
机构信息
Department of Biological Chemistry and Molecular Pharmacology, Harvard Medical School, Boston, MA 02115, USA.
出版信息
Proc Natl Acad Sci U S A. 2005 Jul 19;102(29):10111-6. doi: 10.1073/pnas.0504412102. Epub 2005 Jul 7.
Abstract
The nine-residue lipodepsipeptide syringomycin E, elaborated as a phytotoxin by Pseudomonas syringae pv. syringae B301D contains a 4-Cl-L-Thr-9 moiety where failure to chlorinate results in a 3-fold drop in biological activity. The proteins SyrB1 and SyrB2 encoded by the biosynthetic cluster are shown to act as a substrate and enzyme pair for SyrB2-mediated chlorination of the aminoacyl-S-enzyme L-Thr-S-SyrB1. SyrB2 is a member of the nonheme Fe(II) alpha-ketoglutarate-dependent enzyme superfamily, and requires O2 and alpha-ketoglutarate as well as chloride ion to carry out monochlorination of the -CH3 group of L-Thr-S-SyrB1. Chlorination of L-Thr-S-SyrB1 was validated by thioesterase-mediated release of L-Thr and 4-Cl-L-Thr, N-derivatization as fluorescent isoindoles, and HPLC separation compared with authentic standards. Incubations with L-[14C]Thr and [36Cl-] as well as MS of the released products further validated identification. Enzymatic oxidative halogenation is a previously uncharacterized reaction type for nonheme Fe(II) enzymes and may be the general mode for biosynthetic halogenation of aliphatic carbons of natural products.
摘要
由丁香假单胞菌丁香致病变种B301D产生的作为植物毒素的九残基脂环缩肽丁香霉素E含有一个4-氯-L-苏氨酸-9部分,其中未进行氯化会导致生物活性下降3倍。生物合成簇编码的蛋白质SyrB1和SyrB2显示为SyrB2介导的氨基酰基-S-酶L-苏氨酸-S-SyrB1氯化反应的底物和酶对。SyrB2是非血红素Fe(II)α-酮戊二酸依赖性酶超家族的成员,需要氧气、α-酮戊二酸以及氯离子来对L-苏氨酸-S-SyrB1的-CH3基团进行单氯化。通过硫酯酶介导释放L-苏氨酸和4-氯-L-苏氨酸、作为荧光异吲哚的N-衍生化以及与标准品比较的HPLC分离,验证了L-苏氨酸-S-SyrB1的氯化。用L-[14C]苏氨酸和[36Cl-]进行孵育以及对释放产物进行质谱分析进一步验证了鉴定结果。酶促氧化卤化是一种以前未被表征的非血红素Fe(II)酶反应类型,可能是天然产物脂肪族碳生物合成卤化的一般模式。
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