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Tetrahedron. 2022 Jan 1;103. doi: 10.1016/j.tet.2021.132569. Epub 2021 Nov 22.
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本文引用的文献

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The biosynthetic pathway to tetromadurin (SF2487/A80577), a polyether tetronate antibiotic.四氢嘧啶(SF2487/A80577)的生物合成途径,一种聚醚四烯抗生素。
PLoS One. 2020 Sep 14;15(9):e0239054. doi: 10.1371/journal.pone.0239054. eCollection 2020.
2
Nonspecific Heme-Binding Cyclase, AbmU, Catalyzes [4 + 2] Cycloaddition during Neoabyssomicin Biosynthesis.非特异性血红素结合环化酶AbmU在新阿比西霉素生物合成过程中催化[4+2]环加成反应。
ACS Omega. 2020 Aug 6;5(32):20548-20557. doi: 10.1021/acsomega.0c02776. eCollection 2020 Aug 18.
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FAD-dependent enzyme-catalysed intermolecular [4+2] cycloaddition in natural product biosynthesis.在天然产物生物合成中,依赖 FAD 的酶催化的分子间[4+2]环加成反应。
Nat Chem. 2020 Jul;12(7):620-628. doi: 10.1038/s41557-020-0467-7. Epub 2020 May 25.
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Diels-Alder Reactions During the Biosynthesis of Sorbicillinoids.Diels-Alder 反应在索布醇类生物合成中的作用。
Angew Chem Int Ed Engl. 2020 Mar 27;59(14):5816-5822. doi: 10.1002/anie.201915486. Epub 2020 Feb 4.
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Structural basis for stereoselective dehydration and hydrogen-bonding catalysis by the SAM-dependent pericyclase LepI.SAM 依赖型周质环化酶 LepI 立体选择性脱水和氢键催化的结构基础。
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Enzyme-Catalyzed Inverse-Electron Demand Diels-Alder Reaction in the Biosynthesis of Antifungal Ilicicolin H.酶促逆电子需求 Diels-Alder 反应在抗真菌化合物伊利西醇 H 生物合成中的应用。
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Thiopeptide Pyridine Synthase TbtD Catalyzes an Intermolecular Formal Aza-Diels-Alder Reaction.噻二唑吡啶合酶 TbtD 催化分子间的形式氮杂-Diels-Alder 反应。
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The expanding world of biosynthetic pericyclases: cooperation of experiment and theory for discovery.生物合成过氧环酶的扩展世界:实验与理论的合作发现。
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9
Influence of water and enzyme SpnF on the dynamics and energetics of the ambimodal [6+4]/[4+2] cycloaddition.水和酶 SpnF 对[6+4]/[4+2]环加成的动力学和能量学的影响。
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10
Computational Insights into an Enzyme-Catalyzed [4+2] Cycloaddition.酶催化的[4+2]环加成反应的计算洞察。
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多杀菌素A生物合成过程中的副产物形成以及防止其形成的酶促相互作用的证据。

Byproduct formation during the biosynthesis of spinosyn A and evidence for an enzymatic interplay to prevent its formation.

作者信息

Jeon Byung-Sun, Huang Teng-Yi, Ruszczycky Mark W, Choi Sei-Hyun, Kim Namho, Franklin Joseph Livy, Hung Shang-Cheng, Liu Hung-Wen

机构信息

Department of Chemistry, University of Texas at Austin, Austin, TX, 78712, USA.

Genomics Research Center, Academia Sinica, 128, Section 2, Academia Road, Taipei, 11529, Taiwan.

出版信息

Tetrahedron. 2022 Jan 1;103. doi: 10.1016/j.tet.2021.132569. Epub 2021 Nov 22.

DOI:10.1016/j.tet.2021.132569
PMID:35685987
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9175908/
Abstract

Biosynthesis of spinosyn A in involves a 1,4-dehydration followed by an intramolecular [4 + 2]-cycloaddition catalyzed by SpnM and SpnF, respectively. The cycloaddition also takes place in the absence of SpnF leading to questions regarding its mechanism of catalysis and biosynthetic role. Substrate analogs were prepared with an unactivated dienophile or an acyclic structure and found to be unreactive consistent with the importance of these features for cyclization. The SpnM-catalyzed dehydration reaction was also found to yield a byproduct corresponding to the C11 = C12 isomer of the SpnF substrate. This byproduct is stable both in the presence and absence of SpnF; however, relative production of the SpnM product and byproduct could be shifted in favor of the former by including SpnF or the dehydrogenase SpnJ in the reaction. This result suggests a potential interplay between the enzymes of spinosyn A biosynthesis that may help to improve the efficiency of the pathway.

摘要

多杀菌素A的生物合成涉及一个1,4-脱水反应,随后分别由SpnM和SpnF催化进行分子内[4 + 2]环加成反应。在没有SpnF的情况下也会发生环加成反应,这引发了关于其催化机制和生物合成作用的问题。制备了具有未活化亲双烯体或无环结构的底物类似物,发现它们没有反应活性,这与这些特征对环化的重要性一致。还发现SpnM催化的脱水反应产生一种与SpnF底物的C11 = C12异构体相对应的副产物。这种副产物在有或没有SpnF的情况下都是稳定的;然而,通过在反应中加入SpnF或脱氢酶SpnJ,可以使SpnM产物和副产物的相对产量向有利于前者的方向转变。这一结果表明多杀菌素A生物合成中的酶之间可能存在相互作用,这可能有助于提高该途径的效率。