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The Radical S-Adenosylmethionine Methylase NosN Catalyzes both C1 Transfer and Formation of the Ester Linkage of the Side-Ring System during the Biosynthesis of Nosiheptide

机译：自由基S-腺苷甲硫氨酸甲基化酶NosN催化诺西庚肽的生物合成过程中C1的转移和侧环酯键的形成

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摘要

Nosiheptide, a member of the e series of macrocyclic thiopeptide natural products, contains a side-ring system composed of a 3,4-dimethylindolic acid (DMIA) moiety connected to Glu6 and Cys8 of the thiopeptide back-bone via ester and thioester linkages, respectively. Herein, we show that NosN, a predicted class C radical S-adenosylmethionine (SAM) methylase, catalyzes both the transfer of a C1 unit from SAM to 3-methylindolic acid linked to Cys8 of a synthetic substrate surrogate as well as the formation of the ester linkage between Glu6 and the nascent C4 methylene moiety of DMIA. In contrast to previous studies that indicated that 5′-methylthioadenosine is the immediate methyl donor in the reaction, in our studies SAM itself plays this role, giving rise to S-adenosylhomocysteine as a co-product of the reaction.

机译：Nosiheptide是e系列大环硫肽天然产物的成员，其侧环系统由3,4-二甲基吲哚酸（DMIA）部分组成，该3,4-二甲基吲哚酸（DMIA）部分通过酯和硫酯键与硫肽主链的Glu6和Cys8连接，分别。在这里，我们显示NosN，一种预测的C类自由基S-腺苷甲硫氨酸（SAM）甲基化酶，催化C1单元从SAM转移到与合成底物Cys8连接的3-甲基吲哚酸，以及它们的形成。 Glu6与DMIA新生的C4亚甲基之间的酯键。与先前的研究表明5'-甲基硫代腺苷是反应中的直接甲基供体相反，在我们的研究中SAM本身起着这一作用，导致S-腺苷同型半胱氨酸成为反应的副产物。

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Joseph W. LaMattina; Bo Wang; Edward D. Badding; Lauren K. Gadsby; Tyler L. Grove; Squire J. Booker;
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年(卷),期 -1(139),48
年度 -1
页码 17438–17445
总页数 21
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1. NosN, a Radical 5-Adenosylmethionine Methylase, Catalyzes Both C1 Transfer and Formation of the Ester Linkage of the Side-Ring System during the Biosynthesis of Nosiheptide [J] . Joseph W. LaMattina, Bo Wang, Edward D. Badding, Journal of the American Chemical Society . 2017,第48期

机译：自由基5-腺苷甲硫氨酸甲基化酶NosN催化诺西庚肽的生物合成过程中C1转移和侧环系统酯键的形成。
2. Capturing Intermediates in the Reaction Catalyzed by NosN, a Class C Radical 5-Adenosylmethionine Methylase Involved in the Biosynthesis of the Nosiheptide Side-Ring System [J] . Wang Bo, LaMattina Joseph W., Marshall Savannah L., Journal of the American Chemical Society . 2019,第14期

机译：捕获由NosN催化的涉及中间体Nosiheptide侧环系统生物合成的C类自由基5-腺苷甲硫氨酸甲基化酶的中间体
3. Capturing Intermediates in the Reaction Catalyzed by NosN, a Class C Radical 5-Adenosylmethionine Methylase Involved in the Biosynthesis of the Nosiheptide Side-Ring System [J] . Wang Bo, LaMattina Joseph W., Marshall Savannah L., Journal of the American Chemical Society . 2019,第14期

机译：捕获由NOSN催化的反应中的中间体，涉及NoSihepide侧环系统的生物合成的C类基团5-腺苷甲基甲基甲基酶
4. Two-electron-transfer redox systems. Part 74 electrochemical oxidation of hexakis(benzylthio)benzene - formation and reaction of a radical cation [C] . Bernd Speiser, Kai Ludwig, Andreas StauB, International Symposium on Reactive Intermediates in Organic and Biological Electrochemistry . 2001

机译：双电子传输氧化还原系统。第74部分六烷基（苄硫基）电化学氧化苯 - 形成和自由基阳离子的反应
5. The Formation of 1,2-Dioxolanes: I. By the Acid-Catalyzed Addition of H2O2 to ss,gamma-Epoxy Ketones II. By the Chromium-Catalyzed Allylic Peroxidation of a Triterpene Using O2 III. By the Metal-Catalyzed Addition of O2 to Substituted ss-Keto Esters Via an alpha-Acyl Radical. [D] . Richert, Kathleen J. 2015

机译：1,2-二氧戊环的形成：I. H2O2酸催化加成至ss，γ-环氧酮II。通过使用O2 III对三萜进行铬催化的烯丙基过氧化。通过α-酰基自由基通过金属催化将O2取代为取代的ss-Keto酯。
6. Using Peptide Mimics to Study the Biosynthesis of the Side-Ring System of Nosiheptide [O] . Bo Wang, Joseph W. LaMattina, Edward D. Badding, -1

机译：使用肽模拟物研究Nosiheptide侧环系统的生物合成
7. NosN, a Radical S-Adenosylmethionine Methylase, Catalyzes Both C1 Transfer and Formation of the Ester Linkage of the Side-Ring System during the Biosynthesis of Nosiheptide [O] . Joseph W. LaMattina, Bo Wang, Edward D. Badding, 2017

机译：NOSN，一种基团S-腺苷甲硫氨酸甲基酶，催化在硝基肽生物合成期间侧环系统的C1转移和酯键的形成

The Radical S-Adenosylmethionine Methylase NosN Catalyzes both C1 Transfer and Formation of the Ester Linkage of the Side-Ring System during the Biosynthesis of Nosiheptide

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