Issue 38, 2021
From the journal:

Organic & Biomolecular Chemistry

NocU is a cytochrome P450 oxygenase catalyzing N-hydroxylation of the indolic moiety during the maturation of the thiopeptide antibiotics nocathiacins

Heng Guo,a   Xuebing Bai,b   Qian Yang, ORCID logo a   Yufeng Xue,a   Dandan Chen, ORCID logo *ac   Jiang Tao*b  and  Wen Liu ORCID logo *ac  

* Corresponding authors

a State Key Laboratory of Bioorganic and Natural Products Chemistry, Center for Excellence on Molecular Synthesis, Shanghai Institute of Organic Chemistry, University of Chinese Academy of Sciences, 345 Lingling Road, Shanghai 200032, China
E-mail: wliu@mail.sioc.ac.cn
Fax: +86-21-64166128
Tel: +86-21-54925111

b Department of General Dentistry, Shanghai Ninth People's Hospital, College of Stomatology, Shanghai Jiao Tong University School of Medicine; National Clinical Research Center for Oral Diseases; Shanghai Key Laboratory of Stomatology & Shanghai Research Institute of Stomatology, 639 Zhizaoju Road, Shanghai 200011, China
E-mail: taojiang_doctor@hotmail.com
Tel: +86-21-53515202

c Huzhou Center of Bio-Synthetic Innovation, 1366 Hongfeng Road, Huzhou 313000, China
E-mail: ddchen@sioc.ac.cn
Tel: +86-21-54925539

Abstract

The ribosomally synthesized and post-translationally modified peptide (RiPP) natural products include the family of thiopeptide antibiotics, where nocathiacins (NOCs) and nosiheptide (NOS) are structurally related bicyclic members featuring an indolic moiety within the side ring system. Compared with NOS, NOCs bear additional functionalities that lead to the improvement of water solubility and bioavailability, a problem inherent to most of the thiopeptide antibiotics, and thus hold potential for clinical use in anti-infective agent development. The process through which post-translational modifications (PTMs) occur to afford these functionalities remains unclear. In this study, an engineered NOS-producing strain is applied to study the function of NocU, a cytochrome P450 oxygenase unique during the PTMs in NOC biosynthesis. Benefiting from the isolation and structure characterization of nosiheptide U (NOS-U), a new NOS-type compound with an extra hydroxyl group at the indole nitrogen, we report that NocU is responsible for the N-hydroxylation of the indolic moiety during the maturation of NOCs. This finding reveals the cause of structural differences at the indole nitrogen of NOCs, which will not only accelerate the biosynthetic studies of NOCs, but also promote new analog development by utilizing the compatibility of the biosynthetic machinery of thiopeptide antibiotics.

Graphical abstract: NocU is a cytochrome P450 oxygenase catalyzing N-hydroxylation of the indolic moiety during the maturation of the thiopeptide antibiotics nocathiacins

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Article information

DOI
https://doi.org/10.1039/D1OB01284C
Article type
Paper
Submitted
02 Jul 2021
Accepted
01 Sep 2021
First published
02 Sep 2021

Org. Biomol. Chem., 2021,19, 8338-8342

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NocU is a cytochrome P450 oxygenase catalyzing N-hydroxylation of the indolic moiety during the maturation of the thiopeptide antibiotics nocathiacins

H. Guo, X. Bai, Q. Yang, Y. Xue, D. Chen, J. Tao and W. Liu, Org. Biomol. Chem., 2021, 19, 8338 DOI: 10.1039/D1OB01284C

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