双酶途径将 l-精氨酸与 N-亚硝基生物合成中的一氧化氮联系起来。

Two-Enzyme Pathway Links l-Arginine to Nitric Oxide in N-Nitroso Biosynthesis.

机构信息

Department of Chemistry , University of British Columbia , Vancouver , Canada.

Institute of Pharmaceutical Biotechnology , Zhejiang University School of Medicine , Hangzhou , China.

出版信息

J Am Chem Soc. 2019 Mar 6;141(9):4026-4033. doi: 10.1021/jacs.8b13049. Epub 2019 Feb 21.

DOI:10.1021/jacs.8b13049

PMID:30763082

Abstract

Nitric oxide (NO) has wide-ranging roles in biology, but less is known about its role in building chemical diversity. Here we report a new route to NO from the biosynthetic pathway to the N-nitroso compound streptozocin. We show that the N-nitroso group of streptozocin comes from the biosynthetic reassembly of l-arginine, with the guanidino nitrogens forming a nitrogen-nitrogen bond. To understand this biosynthetic process, we identify the biosynthetic gene cluster of streptozocin and demonstrate that free l-arginine is N-methylated by StzE to give N-monomethyl-l-arginine. We show that this product is then oxidized by StzF, a nonheme iron-dependent enzyme unrelated to known nitric oxide synthases, generating a urea compound and NO. Our work implies that formation and capture of NO is the likely route to N-nitroso formation in vivo. Altogether, our work unveils a new enzyme pair for the production of NO from l-arginine and sets the stage for understanding biosynthetic routes to N-nitroso natural products.

摘要

一氧化氮（NO）在生物学中具有广泛的作用，但人们对其在构建化学多样性方面的作用知之甚少。在这里，我们报告了一种从合成 N-亚硝基化合物链脲佐菌素的生物合成途径中产生 NO 的新途径。我们表明，链脲佐菌素的 N-亚硝基基团来自 l-精氨酸的生物合成重排，胍基氮形成氮-氮键。为了理解这个生物合成过程，我们鉴定了链脲佐菌素的生物合成基因簇，并证明游离的 l-精氨酸被 StzE 甲基化生成 N-单甲基-l-精氨酸。我们表明，然后 StzF 将此产物氧化，StzF 是一种与已知的一氧化氮合酶无关的非血红素铁依赖性酶，生成脲化合物和 NO。我们的工作意味着形成和捕获 NO 可能是体内 N-亚硝基形成的途径。总之，我们的工作揭示了一对新的酶，用于从 l-精氨酸产生 NO，并为理解 N-亚硝基天然产物的生物合成途径奠定了基础。

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Two-Enzyme Pathway Links l-Arginine to Nitric Oxide in N-Nitroso Biosynthesis.双酶途径将 l-精氨酸与 N-亚硝基生物合成中的一氧化氮联系起来。

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双酶途径将 l-精氨酸与 N-亚硝基生物合成中的一氧化氮联系起来。

Two-Enzyme Pathway Links l-Arginine to Nitric Oxide in N-Nitroso Biosynthesis.

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