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Autores principales: Maharjan, Sailesh, Isaksson, Johan Mattias, Krupova, Monika, Rämä, Teppo, Hansen, Kine Østnes, Hammer Andersen, Jeanette, Hansen, Espen Holst
Formato: Artículo científico
Lenguaje:en
Publicado: Journal of natural products 2025
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Acceso en línea:https://pubmed.ncbi.nlm.nih.gov/39883606/
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author Maharjan, Sailesh
Isaksson, Johan Mattias
Krupova, Monika
Rämä, Teppo
Hansen, Kine Østnes
Hammer Andersen, Jeanette
Hansen, Espen Holst
author_facet Maharjan, Sailesh
Isaksson, Johan Mattias
Krupova, Monika
Rämä, Teppo
Hansen, Kine Østnes
Hammer Andersen, Jeanette
Hansen, Espen Holst
Maharjan, Sailesh
Isaksson, Johan Mattias
Krupova, Monika
Rämä, Teppo
Hansen, Kine Østnes
Hammer Andersen, Jeanette
Hansen, Espen Holst
collection PubMed - marine biology
contents Metabolomics-Guided Discovery of Bipolarolides H-O, New Ophiobolin-Type Sesterterpenes with Antibacterial Activity from the Marine-Derived Fungus sp. nov. Maharjan, Sailesh Isaksson, Johan Mattias Krupova, Monika Rämä, Teppo Hansen, Kine Østnes Hammer Andersen, Jeanette Hansen, Espen Holst Sesterterpenes Anti-Bacterial Agents Molecular Structure Metabolomics Microbial Sensitivity Tests Ascomycota Streptococcus agalactiae Marine Biology A marine-derived Pleosporales fungus, , was isolated from driftwood and described as a new species. The fungus was cultivated in liquid media and a molecular networking-driven approach was used to identify potential new secondary metabolites. The targeted compounds were isolated using preparative HPLC-MS, and through extensive spectroscopic analysis, eight new ophiobolin-type sesterterpenes, bipolarolides H-O (-), were identified. The absolute configurations of the compounds were determined by ECD assessment. Bipolarolide L (), M (), and O () exhibited inhibitory activity against with MIC values of 86, 66, and 64 μM, respectively.
format Artículo científico
id pubmed_39883606
institution PubMed
language en
publishDate 2025
publisher Journal of natural products
record_format pubmed
spellingShingle Metabolomics-Guided Discovery of Bipolarolides H-O, New Ophiobolin-Type Sesterterpenes with Antibacterial Activity from the Marine-Derived Fungus sp. nov.
Maharjan, Sailesh
Isaksson, Johan Mattias
Krupova, Monika
Rämä, Teppo
Hansen, Kine Østnes
Hammer Andersen, Jeanette
Hansen, Espen Holst
Sesterterpenes
Anti-Bacterial Agents
Molecular Structure
Metabolomics
Microbial Sensitivity Tests
Ascomycota
Streptococcus agalactiae
Marine Biology
Metabolomics-Guided Discovery of Bipolarolides H-O, New Ophiobolin-Type Sesterterpenes with Antibacterial Activity from the Marine-Derived Fungus sp. nov. Maharjan, Sailesh Isaksson, Johan Mattias Krupova, Monika Rämä, Teppo Hansen, Kine Østnes Hammer Andersen, Jeanette Hansen, Espen Holst Sesterterpenes Anti-Bacterial Agents Molecular Structure Metabolomics Microbial Sensitivity Tests Ascomycota Streptococcus agalactiae Marine Biology A marine-derived Pleosporales fungus, , was isolated from driftwood and described as a new species. The fungus was cultivated in liquid media and a molecular networking-driven approach was used to identify potential new secondary metabolites. The targeted compounds were isolated using preparative HPLC-MS, and through extensive spectroscopic analysis, eight new ophiobolin-type sesterterpenes, bipolarolides H-O (-), were identified. The absolute configurations of the compounds were determined by ECD assessment. Bipolarolide L (), M (), and O () exhibited inhibitory activity against with MIC values of 86, 66, and 64 μM, respectively.
title Metabolomics-Guided Discovery of Bipolarolides H-O, New Ophiobolin-Type Sesterterpenes with Antibacterial Activity from the Marine-Derived Fungus sp. nov.
topic Sesterterpenes
Anti-Bacterial Agents
Molecular Structure
Metabolomics
Microbial Sensitivity Tests
Ascomycota
Streptococcus agalactiae
Marine Biology
url https://pubmed.ncbi.nlm.nih.gov/39883606/