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Autores principales: Ding, Wenjuan, Dong, Yuliang, Xu, Run, Liang, Dong, Yuan, Xiaolin, Zhou, Le, Sun, Changli, Zhang, Huaran, Li, Minyong, Ma, Junying, Ju, Jianhua, Li, Qinglian
Formato: Artículo científico
Lenguaje:en
Publicado: ACS chemical biology 2025
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Acceso en línea:https://pubmed.ncbi.nlm.nih.gov/40689514/
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author Ding, Wenjuan
Dong, Yuliang
Xu, Run
Liang, Dong
Yuan, Xiaolin
Zhou, Le
Sun, Changli
Zhang, Huaran
Li, Minyong
Ma, Junying
Ju, Jianhua
Li, Qinglian
author_facet Ding, Wenjuan
Dong, Yuliang
Xu, Run
Liang, Dong
Yuan, Xiaolin
Zhou, Le
Sun, Changli
Zhang, Huaran
Li, Minyong
Ma, Junying
Ju, Jianhua
Li, Qinglian
Ding, Wenjuan
Dong, Yuliang
Xu, Run
Liang, Dong
Yuan, Xiaolin
Zhou, Le
Sun, Changli
Zhang, Huaran
Li, Minyong
Ma, Junying
Ju, Jianhua
Li, Qinglian
collection PubMed - marine biology
contents Seven Cyclization Patterns of Type II PKS Yield Fluorescent Compounds, Including Fungal-Type Folded Globismycin A. Ding, Wenjuan Dong, Yuliang Xu, Run Liang, Dong Yuan, Xiaolin Zhou, Le Sun, Changli Zhang, Huaran Li, Minyong Ma, Junying Ju, Jianhua Li, Qinglian Humans Cyclization Polyketide Synthases Fluorescent Dyes Cell Line, Tumor Polyketides Benzopyrans Antineoplastic Agents Aromatic polyketides have emerged as an important source of fluorescent natural products, which hold significant value for research and diagnostic applications. In this study, we reported the discovery of three new (, , and ) and ten known (-, , , and -) fluorescent aromatic polyketides representing seven sets of carbon skeletons. Compounds - exhibited fluorescence ranging from cyan to orange-yellow and displayed varied behaviors in terms of excitation wavelength, emission wavelength, and Stokes shift, indicating their diverse spectral characteristics and environmental responsiveness. Notably, globismycin A () features an unprecedented 2,3-dihydrobenzofuro[4,5,6-de]chromene scaffold. Compound not only exhibited high quantum yields in both water and organic solvents, with visible green fluorescence to the naked eye, but also showed potent selective cytotoxicity against three cancer cell lines. Biosynthetic investigations through a combination of gene inactivation, heterologous expression, and C-labeled acetate feeding studies revealed that these fluorescent compounds, despite differing in size and shape, are all derived from a type II polyketide synthase (PKS) gene cluster , and their diverse skeletons are generated through seven distinct cyclization patterns. More importantly, compound uniquely involves a characteristic fungal F-mode first-ring cyclization step, although has been proven to be a bacterial aromatic polyketide. These findings not only provide excellent fluorescent candidates potentially useful for various biological applications but also expand our understanding on the biosynthetic mechanisms driving the production of diverse aromatic polyketides by type II gene clusters.
format Artículo científico
id pubmed_40689514
institution PubMed
language en
publishDate 2025
publisher ACS chemical biology
record_format pubmed
spellingShingle Seven Cyclization Patterns of Type II PKS Yield Fluorescent Compounds, Including Fungal-Type Folded Globismycin A.
Ding, Wenjuan
Dong, Yuliang
Xu, Run
Liang, Dong
Yuan, Xiaolin
Zhou, Le
Sun, Changli
Zhang, Huaran
Li, Minyong
Ma, Junying
Ju, Jianhua
Li, Qinglian
Humans
Cyclization
Polyketide Synthases
Fluorescent Dyes
Cell Line, Tumor
Polyketides
Benzopyrans
Antineoplastic Agents
Seven Cyclization Patterns of Type II PKS Yield Fluorescent Compounds, Including Fungal-Type Folded Globismycin A. Ding, Wenjuan Dong, Yuliang Xu, Run Liang, Dong Yuan, Xiaolin Zhou, Le Sun, Changli Zhang, Huaran Li, Minyong Ma, Junying Ju, Jianhua Li, Qinglian Humans Cyclization Polyketide Synthases Fluorescent Dyes Cell Line, Tumor Polyketides Benzopyrans Antineoplastic Agents Aromatic polyketides have emerged as an important source of fluorescent natural products, which hold significant value for research and diagnostic applications. In this study, we reported the discovery of three new (, , and ) and ten known (-, , , and -) fluorescent aromatic polyketides representing seven sets of carbon skeletons. Compounds - exhibited fluorescence ranging from cyan to orange-yellow and displayed varied behaviors in terms of excitation wavelength, emission wavelength, and Stokes shift, indicating their diverse spectral characteristics and environmental responsiveness. Notably, globismycin A () features an unprecedented 2,3-dihydrobenzofuro[4,5,6-de]chromene scaffold. Compound not only exhibited high quantum yields in both water and organic solvents, with visible green fluorescence to the naked eye, but also showed potent selective cytotoxicity against three cancer cell lines. Biosynthetic investigations through a combination of gene inactivation, heterologous expression, and C-labeled acetate feeding studies revealed that these fluorescent compounds, despite differing in size and shape, are all derived from a type II polyketide synthase (PKS) gene cluster , and their diverse skeletons are generated through seven distinct cyclization patterns. More importantly, compound uniquely involves a characteristic fungal F-mode first-ring cyclization step, although has been proven to be a bacterial aromatic polyketide. These findings not only provide excellent fluorescent candidates potentially useful for various biological applications but also expand our understanding on the biosynthetic mechanisms driving the production of diverse aromatic polyketides by type II gene clusters.
title Seven Cyclization Patterns of Type II PKS Yield Fluorescent Compounds, Including Fungal-Type Folded Globismycin A.
topic Humans
Cyclization
Polyketide Synthases
Fluorescent Dyes
Cell Line, Tumor
Polyketides
Benzopyrans
Antineoplastic Agents
url https://pubmed.ncbi.nlm.nih.gov/40689514/