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Main Authors: Hao, Xingkun, Wang, Zong-Jie, Shi, Xingxing, Liu, Yang, Yan, Ping, Yang, Qingsheng, Ren, Xiangmei, Li, Xiaoju, Sui, Haiyan, Li, Feng, Zhang, Youming, Bian, Xiaoying, Zhou, Haibo
Format: Artículo científico
Language:en
Published: Organic letters 2025
Subjects:
Online Access:https://pubmed.ncbi.nlm.nih.gov/40103516/
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author Hao, Xingkun
Wang, Zong-Jie
Shi, Xingxing
Liu, Yang
Yan, Ping
Yang, Qingsheng
Ren, Xiangmei
Li, Xiaoju
Sui, Haiyan
Li, Feng
Zhang, Youming
Bian, Xiaoying
Zhou, Haibo
author_facet Hao, Xingkun
Wang, Zong-Jie
Shi, Xingxing
Liu, Yang
Yan, Ping
Yang, Qingsheng
Ren, Xiangmei
Li, Xiaoju
Sui, Haiyan
Li, Feng
Zhang, Youming
Bian, Xiaoying
Zhou, Haibo
Hao, Xingkun
Wang, Zong-Jie
Shi, Xingxing
Liu, Yang
Yan, Ping
Yang, Qingsheng
Ren, Xiangmei
Li, Xiaoju
Sui, Haiyan
Li, Feng
Zhang, Youming
Bian, Xiaoying
Zhou, Haibo
collection PubMed - marine biology
contents Genome Mining and Targeted Discovery of Twistane-Containing Angucyclinones from Marine XSA2. Hao, Xingkun Wang, Zong-Jie Shi, Xingxing Liu, Yang Yan, Ping Yang, Qingsheng Ren, Xiangmei Li, Xiaoju Sui, Haiyan Li, Feng Zhang, Youming Bian, Xiaoying Zhou, Haibo Streptomyces Molecular Structure Multigene Family Anthraquinones Crystallography, X-Ray Genome, Bacterial Angucyclines and Angucyclinones Genome mining of a type II PKS biosynthetic gene cluster from marine XSA2 resulted in the discovery of 12 angucyclinone derivatives, including nine new phaeomycins A-I (-) and three known analogs (-). Phaeomycin A () contains a unique phthalide moiety connected to a rare twistane skeleton that has not been previously identified in natural products. The chemical structures of the isolated compounds were established via extensive spectroscopic and X-ray crystal-lographic analyses. A plausible biosynthetic pathway for - was proposed based on bioinformatic analysis.
format Artículo científico
id pubmed_40103516
institution PubMed
language en
publishDate 2025
publisher Organic letters
record_format pubmed
spellingShingle Genome Mining and Targeted Discovery of Twistane-Containing Angucyclinones from Marine XSA2.
Hao, Xingkun
Wang, Zong-Jie
Shi, Xingxing
Liu, Yang
Yan, Ping
Yang, Qingsheng
Ren, Xiangmei
Li, Xiaoju
Sui, Haiyan
Li, Feng
Zhang, Youming
Bian, Xiaoying
Zhou, Haibo
Streptomyces
Molecular Structure
Multigene Family
Anthraquinones
Crystallography, X-Ray
Genome, Bacterial
Angucyclines and Angucyclinones
Genome Mining and Targeted Discovery of Twistane-Containing Angucyclinones from Marine XSA2. Hao, Xingkun Wang, Zong-Jie Shi, Xingxing Liu, Yang Yan, Ping Yang, Qingsheng Ren, Xiangmei Li, Xiaoju Sui, Haiyan Li, Feng Zhang, Youming Bian, Xiaoying Zhou, Haibo Streptomyces Molecular Structure Multigene Family Anthraquinones Crystallography, X-Ray Genome, Bacterial Angucyclines and Angucyclinones Genome mining of a type II PKS biosynthetic gene cluster from marine XSA2 resulted in the discovery of 12 angucyclinone derivatives, including nine new phaeomycins A-I (-) and three known analogs (-). Phaeomycin A () contains a unique phthalide moiety connected to a rare twistane skeleton that has not been previously identified in natural products. The chemical structures of the isolated compounds were established via extensive spectroscopic and X-ray crystal-lographic analyses. A plausible biosynthetic pathway for - was proposed based on bioinformatic analysis.
title Genome Mining and Targeted Discovery of Twistane-Containing Angucyclinones from Marine XSA2.
topic Streptomyces
Molecular Structure
Multigene Family
Anthraquinones
Crystallography, X-Ray
Genome, Bacterial
Angucyclines and Angucyclinones
url https://pubmed.ncbi.nlm.nih.gov/40103516/