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Main Authors: Wu, Qiaoling, Li, Feng, Peng, Ming, Chen, Yingying, Weng, Xiang, Xiao, Zhexiong, Tian, Xinpeng, Zhu, Hongjie, Ju, Jianhua
Format: Artículo científico
Language:en
Published: Organic letters 2025
Subjects:
Online Access:https://pubmed.ncbi.nlm.nih.gov/41347944/
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author Wu, Qiaoling
Li, Feng
Peng, Ming
Chen, Yingying
Weng, Xiang
Xiao, Zhexiong
Tian, Xinpeng
Zhu, Hongjie
Ju, Jianhua
author_facet Wu, Qiaoling
Li, Feng
Peng, Ming
Chen, Yingying
Weng, Xiang
Xiao, Zhexiong
Tian, Xinpeng
Zhu, Hongjie
Ju, Jianhua
Wu, Qiaoling
Li, Feng
Peng, Ming
Chen, Yingying
Weng, Xiang
Xiao, Zhexiong
Tian, Xinpeng
Zhu, Hongjie
Ju, Jianhua
collection PubMed - marine biology
contents Gene Cluster Directs Diversified Carbazole Biosynthesis via Cooperative Halogenation, Hydroxylation, and Methylation. Wu, Qiaoling Li, Feng Peng, Ming Chen, Yingying Weng, Xiang Xiao, Zhexiong Tian, Xinpeng Zhu, Hongjie Ju, Jianhua Carbazoles Multigene Family Methylation Molecular Structure Hydroxylation Halogenation Methyltransferases Chlocarbazomycins are bioactive carbazoles with therapeutic potential. Here, we report a conserved gene cluster () that directs its biosynthesis via a novel pathway. This cluster encodes a versatile tailoring system, including a regioselective halogenase (CczH), dedicated hydroxylases (CczA/J/D), and a bifunctional methyltransferase (CczI) that iteratively methylates and accelerates N-OH dehydroxylation. Our findings provide new enzymes for carbazole pathway engineering and structural diversification.
format Artículo científico
id pubmed_41347944
institution PubMed
language en
publishDate 2025
publisher Organic letters
record_format pubmed
spellingShingle Gene Cluster Directs Diversified Carbazole Biosynthesis via Cooperative Halogenation, Hydroxylation, and Methylation.
Wu, Qiaoling
Li, Feng
Peng, Ming
Chen, Yingying
Weng, Xiang
Xiao, Zhexiong
Tian, Xinpeng
Zhu, Hongjie
Ju, Jianhua
Carbazoles
Multigene Family
Methylation
Molecular Structure
Hydroxylation
Halogenation
Methyltransferases
Gene Cluster Directs Diversified Carbazole Biosynthesis via Cooperative Halogenation, Hydroxylation, and Methylation. Wu, Qiaoling Li, Feng Peng, Ming Chen, Yingying Weng, Xiang Xiao, Zhexiong Tian, Xinpeng Zhu, Hongjie Ju, Jianhua Carbazoles Multigene Family Methylation Molecular Structure Hydroxylation Halogenation Methyltransferases Chlocarbazomycins are bioactive carbazoles with therapeutic potential. Here, we report a conserved gene cluster () that directs its biosynthesis via a novel pathway. This cluster encodes a versatile tailoring system, including a regioselective halogenase (CczH), dedicated hydroxylases (CczA/J/D), and a bifunctional methyltransferase (CczI) that iteratively methylates and accelerates N-OH dehydroxylation. Our findings provide new enzymes for carbazole pathway engineering and structural diversification.
title Gene Cluster Directs Diversified Carbazole Biosynthesis via Cooperative Halogenation, Hydroxylation, and Methylation.
topic Carbazoles
Multigene Family
Methylation
Molecular Structure
Hydroxylation
Halogenation
Methyltransferases
url https://pubmed.ncbi.nlm.nih.gov/41347944/