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Roles of the Synergistic Reductive O-Methyltransferase GilM and of O-Methyltransferase GilMT in the Gilvocarcin Biosynthetic Pathway

机译：在Gilvocarcin生物合成途径中的协同还原O-甲基Gilm GilmT和O-甲基转移中的作用

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Two enzymes of the gilvocarcin biosynthetic pathway, GilMT and GilM, with unclear functions were investigated by in vitro studies using purified, recombinant enzymes along with synthetically prepared intermediates. The studies revealed GilMT as a typical S-adenosylmethionine (SAM) dependent O-methyltransferase, but GilM was identified as a pivotal enzyme in the pathway that exhibits dual functionality in that it catalyzes a reduction of a quinone intermediate to a hydroquinone, which goes hand-in-hand with a stabilizing O-methylation and a hemiacetal formation. GilM mediates its reductive catalysis through the aid of GilR that provides FADH2 for the GilM reaction, through which FAD is regenerated for the next catalytic cycle. This unusual synergy eventually completes the biosynthesis of the polyketide derived defuco-gilvocarcin chromphore.

机译：使用纯化的重组酶与合成制备的中间体进行了体外研究，研究了吉尔霉素生物合成途径中的两种酶，GilMT和GilM，其功能尚不清楚。研究表明，GilMT是典型的S-腺苷甲硫氨酸（SAM）依赖性O-甲基转移酶，但GilM被认为是该途径中的关键酶，具有双重功能，因为它催化醌中间体还原为氢醌，因此具有稳定的O-甲基化和半缩醛形成。 GilM借助于GilR介导其还原催化作用，GilR为GilM反应提供了FADH2，通过该反应，FAD被再生用于下一个催化循环。这种不寻常的协同作用最终完成了聚酮化合物衍生的双反吉夫卡洛因色谱的生物合成。

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Nidhi Tibrewal; Theresa E. Downey; Steven G. Van Lanen; Ehesan Ul Sharif; George A. O’Doherty; Jürgen Rohr;
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年(卷),期 -1(134),30
年度 -1
页码 12402–12405
总页数 10
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1. Roles of the Synergistic Reductive O-Methyltransferase GilM and of O-Methyltransferase GilMT in the Gilvocarcin Biosynthetic Pathway [J] . Nidhi Tibrewal, Theresa E. Downey, Steven G. Van Lanen, Journal of the American Chemical Society . 2012,第30期

机译：协同还原性O-甲基转移酶GilM和O-甲基转移酶GilMT在Gilvocarcin生物合成途径中的作用
2. Crystal structure of O-methyltransferase CalO6 from the calicheamicin biosynthetic pathway: a case of challenging structure determination at low resolution [J] . Oleg V Tsodikov, Caixia Hou, Christopher T Walsh, BMC Structural Biology . 2015,第1期

机译：来自加利车霉素生物合成途径的O-甲基转移酶CalO6的晶体结构：以低分辨率进行具有挑战性的结构确定的案例
3. Pederin-Type Pathways of Uncultivated Bacterial Symbionts: Analysis of O-Methyltransferases and Generation of a Biosynthetic Hybrid [J] . Katrin Zimmermann, Marianne Engeser, John W. Blunt, Journal of the American Chemical Society . 2009,第8期

机译：Pederin型途径的未培养细菌共生体：O-甲基转移酶的分析和生物合成杂种的生成。
4. FRAMELESS HEXAHEDRON AG-PT BITMETALLIC NANOSTRUCURE FOR ELECTROCHEMICALLY CATALYZING OXYGEN REDUCTION: SYNERGISTIC PLASMONIC EFFECTS TO ALTER REACTION TOWARD 4- ELECTRON PATHWAY [C] . Shengzhi Lin, Hao-Ming Chem Joint Conference on Chemisty . 2016

机译：无束缚六面体AG-PT烧架纳米纳秒用于电化学催化氧气减少：协同等离子体效应改变对4-电子通路的反应
5. Two O-methyltransferases in lignin monomer biosynthetic pathway: Caffeic acid O-methyltransferase and caffeoyl-CoA O-methyltransferase. [D] . Meng, Huabin. 1996

机译：木质素单体生物合成途径中的两种O-甲基转移酶：咖啡酸O-甲基转移酶和咖啡酰-CoA O-甲基转移酶。
6. Crystal structure of O-methyltransferase CalO6 from the calicheamicin biosynthetic pathway: a case of challenging structure determination at low resolution [O] . Oleg V. Tsodikov, Caixia Hou, Christopher T. Walsh, 2015

机译：来自加利车霉素生物合成途径的O-甲基转移酶CalO6的晶体结构：以低分辨率进行具有挑战性的结构确定的案例
7. The crystal structure of the novobiocin biosynthetic enzyme NovP: the first representative structure for the TylF O-methyltransferase superfamily [O] . Gómez García, Inmaculada, Stevenson, Clare E. M., Usón, Isabel, 2010

机译：新霉素生物合成酶NovP的晶体结构：TylF O-甲基转移酶超家族的第一个代表性结构

Roles of the Synergistic Reductive O-Methyltransferase GilM and of O-Methyltransferase GilMT in the Gilvocarcin Biosynthetic Pathway

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