Your search keyword '"OSMAC (one strain"' showing total 2 results

1. Characterization of Rhamnolipids Produced by an Arctic Marine Bacterium from the Pseudomonas fluorescence Group.

Author

Kristoffersen, Venke, Rämä, Teppo, Isaksson, Johan, Andersen, Jeanette Hammer, Gerwick, William H, and Hansen, Espen

Subjects

Pseudomonas, Rhamnose, Decanoates, Antineoplastic Agents, Anti-Bacterial Agents, Chemical Fractionation, Drug Screening Assays, Antitumor, Microbial Sensitivity Tests, Arctic Regions, Biosynthetic Pathways, Aquatic Organisms, OSMAC, arctic bacteria, bioactive, molecular networking, rhamnolipids, OSMAC (one strain, many compounds), Physical Chemistry (incl. Structural), Pharmacology and Pharmaceutical Sciences, Medicinal & Biomolecular Chemistry

Abstract

The marine environment is a rich source of biodiversity, including microorganisms that have proven to be prolific producers of bioactive secondary metabolites. Arctic seas are less explored than warmer, more accessible areas, providing a promising starting point to search for novel bioactive compounds. In the present work, an Arctic marine Pseudomonas sp. belonging to the Pseudomonas (P.) fluorescence group was cultivated in four different media in an attempt to activate biosynthetic pathways leading to the production of antibacterial and anticancer compounds. Culture extracts were pre-fractionated and screened for antibacterial and anticancer activities. One fraction from three of the four growth conditions showed inhibitory activity towards bacteria and cancer cells. The active fractions were dereplicated using molecular networking based on MS/MS fragmentation data, indicating the presence of a cluster of related rhamnolipids. Six compounds were isolated using HPLC and mass-guided fractionation, and by interpreting data from NMR and high-resolution MS/MS analysis; the structures of the compounds were determined to be five mono-rhamnolipids and the lipid moiety of one of the rhamnolipids. Molecular networking proved to be a valuable tool for dereplication of these related compounds, and for the first time, five mono-rhamnolipids from a bacterium within the P. fluorescence group were characterized, including one new mono-rhamnolipid.

Published

2018

2. Characterization of Rhamnolipids Produced by an Arctic Marine Bacterium from the Pseudomonas fluorescence Group

Author

Venke Kristoffersen, Johan Isaksson, William H. Gerwick, Espen Hansen, Jeanette Hammer Andersen, and Teppo Rämä

Subjects

0301 basic medicine, Aquatic Organisms, many compounds), arctic bacteria, Microorganism, Pharmaceutical Science, Chemical Fractionation, Drug Screening Assays, Rhamnose, bioactive, OSMAC (one strain, many compounds), molecular networking, rhamnolipids, Drug Discovery, Pharmacology, Toxicology and Pharmaceutics (miscellaneous), biology, Arctic Regions, Chemistry, Rhamnolipids, Pseudomonas, Pharmacology and Pharmaceutical Sciences, Fluorescence, Anti-Bacterial Agents, Biochemistry, Molecular networking, Physical Chemistry (incl. Structural), Medicinal & Biomolecular Chemistry, Antineoplastic Agents, Microbial Sensitivity Tests, Fractionation, OSMAC, Article, 03 medical and health sciences, VDP::Teknologi: 500::Bioteknologi: 590, VDP::Technology: 500::Biotechnology: 590, Arctic bacteria, 14. Life underwater, Life Below Water, Decanoates, Ms analysis, Antitumor, biology.organism_classification, Biosynthetic Pathways, 030104 developmental biology, Arctic, Bioactive, OSMAC (one strain, Drug Screening Assays, Antitumor, Bacteria

Abstract

The marine environment is a rich source of biodiversity, including microorganisms that have proven to be prolific producers of bioactive secondary metabolites. Arctic seas are less explored than warmer, more accessible areas, providing a promising starting point to search for novel bioactive compounds. In the present work, an Arctic marine Pseudomonas sp. belonging to the Pseudomonas (P.) fluorescence group was cultivated in four different media in an attempt to activate biosynthetic pathways leading to the production of antibacterial and anticancer compounds. Culture extracts were pre-fractionated and screened for antibacterial and anticancer activities. One fraction from three of the four growth conditions showed inhibitory activity towards bacteria and cancer cells. The active fractions were dereplicated using molecular networking based on MS/MS fragmentation data, indicating the presence of a cluster of related rhamnolipids. Six compounds were isolated using HPLC and mass-guided fractionation, and by interpreting data from NMR and high-resolution MS/MS analysis; the structures of the compounds were determined to be five mono-rhamnolipids and the lipid moiety of one of the rhamnolipids. Molecular networking proved to be a valuable tool for dereplication of these related compounds, and for the first time, five mono-rhamnolipids from a bacterium within the P. fluorescence group were characterized, including one new mono-rhamnolipid.

Published

2018