Self-Resistance in the Biosynthesis of Fungal Macrolides Involving Cycles of Extracellular Oxidative Activation and Intracellular Reductive Inactivation

Zhang Yalong; Bai Jian; Zhang Le; Zhang Chen; Liu Bingyu; Hu Youcai

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Self-Resistance in the Biosynthesis of Fungal Macrolides Involving Cycles of Extracellular Oxidative Activation and Intracellular Reductive Inactivation

机译：真菌大环化生物合成中的自体抗性，涉及细胞外氧化活化和细胞内还原灭活的循环

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摘要

Self-resistance genes are employed by many microbial producers of bioactive natural products to avoid self-harm. Herein, we describe a unique strategy for self-resistance toward a macrolide antibiotic, A26771B (1), identified by elucidating its biosynthetic pathway in the fungus Penicillium egyptiacum. A highly reducing polyketide synthase and a trans-acting thioesterase generate the macrolide backbone, and a cytochrome P450 and an acyltransferase, respectively catalyze hydroxylation and succinylation to form the prodrug berkeleylactone E (2). Then, extracellular oxidative activation by a secreted flavin-dependent oxidase forms 1, while intracellular reductive inactivation by a short-chain reductase reforms 2, forming a redox cycle. Our work illustrates a unique redox-mediated resistance mechanism for fungal antibiotics and contributes to the understanding of antibiotic biosynthesis and resistance.

机译：许多生物活性天然产物的微生物生产商利用自我抗性基因来避免自我伤害。在此，我们描述了一种对大环内酯类抗生素A26771B（1）自我耐药的独特策略，通过阐明其在真菌埃及青霉中的生物合成途径来确定。一种高度还原的聚酮合酶和一种反式作用的硫酯酶生成大环内酯主链，一种细胞色素P450和一种酰基转移酶分别催化羟化和琥珀酰化形成前药伯克利内酯E（2）。然后，分泌的黄素依赖性氧化酶的细胞外氧化激活形成1，而短链还原酶的细胞内还原失活形成2，形成氧化还原循环。我们的工作阐明了真菌抗生素独特的氧化还原介导的耐药机制，有助于理解抗生素生物合成和耐药性。

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来源
《Angewandte Chemie》 |2021年第12期|共7页
作者
Zhang Yalong; Bai Jian; Zhang Le; Zhang Chen; Liu Bingyu; Hu Youcai;
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作者单位

Chinese Acad Med Sci &

Peking Union Med Coll State Key Lab Bioact Subst &

Funct Nat Med NHC Key Lab Biosynth Nat Prod CAMS Key Lab Enzyme &

Catalysis Nat Drugs Inst Ma Beijing 100050 Peoples R China;

Chinese Acad Med Sci &

Peking Union Med Coll State Key Lab Bioact Subst &

Funct Nat Med NHC Key Lab Biosynth Nat Prod CAMS Key Lab Enzyme &

Catalysis Nat Drugs Inst Ma Beijing 100050 Peoples R China;

Chinese Acad Med Sci &

Peking Union Med Coll State Key Lab Bioact Subst &

Funct Nat Med NHC Key Lab Biosynth Nat Prod CAMS Key Lab Enzyme &

Catalysis Nat Drugs Inst Ma Beijing 100050 Peoples R China;

Chinese Acad Med Sci &

Peking Union Med Coll State Key Lab Bioact Subst &

Funct Nat Med NHC Key Lab Biosynth Nat Prod CAMS Key Lab Enzyme &

Catalysis Nat Drugs Inst Ma Beijing 100050 Peoples R China;

Chinese Acad Med Sci &

Peking Union Med Coll State Key Lab Bioact Subst &

Funct Nat Med NHC Key Lab Biosynth Nat Prod CAMS Key Lab Enzyme &

Catalysis Nat Drugs Inst Ma Beijing 100050 Peoples R China;

Chinese Acad Med Sci &

Peking Union Med Coll State Key Lab Bioact Subst &

Funct Nat Med NHC Key Lab Biosynth Nat Prod CAMS Key Lab Enzyme &

Catalysis Nat Drugs Inst Ma Beijing 100050 Peoples R China;

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原文格式 PDF
正文语种 eng
中图分类应用化学;
关键词
antibiotics; biosynthesis; fungus; macrolides; self-resistance;

机译：抗生素;生物合成;真菌大环内酯类;自我抵抗;

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Self-Resistance in the Biosynthesis of Fungal Macrolides Involving Cycles of Extracellular Oxidative Activation and Intracellular Reductive Inactivation

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