Functional Characterization of a Diazo-Forming Enzyme in Meroterpenoid Biosynthesis.

IF 2.6 4区生物学 Q3 BIOCHEMISTRY & MOLECULAR BIOLOGY

ChemBioChem Pub Date : 2025-06-16 DOI:10.1002/cbic.202500377

Hartono Candra, Wan-Qiu Liu, Xuejiao Wang, Sihui Bian, Qing Wei Cheang, Jian Li, Guang-Lei Ma, Zhao-Xun Liang

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Abstract

Meroterpenoids are known for their distinct structure and hybrid biosynthetic origin. The biosynthetic gene clusters of several well-characterized meroterpenoids contain three genes whose functions have remained elusive. Recent studies on nonmeroterpenoid pathways suggest that these genes may be involved in nitrite-dependent NN bond formation. In this study, it is shown that one of these genes, stfur5, is essential for the biosynthesis of the representative meroterpenoid furaquinocin M. By leveraging a cell-free protein synthesis platform, it is found that stFur5 catalyzes the transformation of 8-amino-flaviolin (8-AF) into diazo-flaviolin, which subsequently undergoes nonenzymatic deamination to yield the downstream intermediate flaviolin. The findings suggest that stFur5, together with the nitrite-generating enzymes stFur15 and stFur16, facilitates the deamination of 8-AF via diazotization in furaquinocin biosynthesis. We further identified the nitrite-binding pocket within stFur5 and proposed a catalytic mechanism in which nitrite is activated through adenylation. The findings enrich the understanding of the role of diazo-forming enzymes in natural product biosynthesis.

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一种重氮形成酶在萜类生物合成中的功能表征。

巯基萜类化合物以其独特的结构和杂化生物合成来源而闻名。生物合成基因簇（BGCs）包含三个功能不明的基因。最近对非亚甲基萜类途径的研究表明，这些基因可能参与亚硝酸盐依赖的N-N键形成。在这项研究中，我们发现其中一个基因fur5对代表性的美萜类呋喃醌素m的生物合成至关重要。通过利用无细胞蛋白合成（CFPS）平台，我们发现fur5催化8-氨基黄拉酮（8-AF）转化为重氮黄拉酮，重氮黄拉酮随后经过非酶脱胺反应产生下游中间体黄拉酮。我们的研究结果表明，Fur5与亚硝酸盐生成酶Fur15和Fur16一起，在呋喃醌生物合成中通过重氮化促进8-AF的脱氨。我们进一步确定了Fur5中的亚硝酸盐结合袋，并提出了一种通过腺苷化激活亚硝酸盐的催化机制。这一发现揭示了一种重氮形成酶，它促进了萜类生物合成中的脱胺作用。

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来源期刊

ChemBioChem 生物-生化与分子生物学

CiteScore

6.10

自引率

3.10%

发文量

407

审稿时长

1 months

期刊介绍： ChemBioChem (Impact Factor 2018: 2.641) publishes important breakthroughs across all areas at the interface of chemistry and biology, including the fields of chemical biology, bioorganic chemistry, bioinorganic chemistry, synthetic biology, biocatalysis, bionanotechnology, and biomaterials. It is published on behalf of Chemistry Europe, an association of 16 European chemical societies, and supported by the Asian Chemical Editorial Society (ACES).