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Competitive interactions as a mechanism for chemical diversity maintenance in Nodularia spumigena
Nodularia spumigena is a bloom-forming diazotrophic cyanobacterium inhabiting brackish waters worldwide. This species produces non-ribosomal peptides (NRPs), including the hepatotoxin nodularin, often referred to as cyanotoxin. Several known classes of NRPs have various biological activities, althou...
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| Published in: | Scientific reports 2021-04, Vol.11 (1), p.8970-15, Article 8970 |
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| description | Nodularia spumigena
is a bloom-forming diazotrophic cyanobacterium inhabiting brackish waters worldwide. This species produces non-ribosomal peptides (NRPs), including the hepatotoxin nodularin, often referred to as cyanotoxin. Several known classes of NRPs have various biological activities, although their modes of action are poorly understood. In the Baltic
N. spumigena
, there is a high NRP chemodiversity among strains, allowing their grouping in specific chemotypes and subgroups. Therefore, it is relevant to ask whether the NRP production is affected by intraspecific interactions between the co-existing strains. Using a novel approach that combines culture technique and liquid chromatography-tandem mass spectrometry for the NRP analysis, we examined
N. spumigena
strains under mono- and co-culture conditions. The test strains were selected to represent
N. spumigena
belonging to the same or different chemotype subgroups. In this setup, we observed physiological and metabolic responses in the test strains grown without cell contact. The changes in NRP levels to co-culture conditions were conserved within a chemotype subgroup but different between the subgroups. Our results suggest that intraspecific interactions may promote a chemical diversity in
N. spumigena
population, with higher NRP production compared to a single-strain population. Studying allelochemical signalling in this cyanobacterium is crucial for understanding toxicity mechanisms and plankton community interactions in the Baltic Sea and other aquatic systems experiencing regular blooms. |
| doi_str_mv | 10.1038/s41598-021-88361-x |
| format | article |
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is a bloom-forming diazotrophic cyanobacterium inhabiting brackish waters worldwide. This species produces non-ribosomal peptides (NRPs), including the hepatotoxin nodularin, often referred to as cyanotoxin. Several known classes of NRPs have various biological activities, although their modes of action are poorly understood. In the Baltic
N. spumigena
, there is a high NRP chemodiversity among strains, allowing their grouping in specific chemotypes and subgroups. Therefore, it is relevant to ask whether the NRP production is affected by intraspecific interactions between the co-existing strains. Using a novel approach that combines culture technique and liquid chromatography-tandem mass spectrometry for the NRP analysis, we examined
N. spumigena
strains under mono- and co-culture conditions. The test strains were selected to represent
N. spumigena
belonging to the same or different chemotype subgroups. In this setup, we observed physiological and metabolic responses in the test strains grown without cell contact. The changes in NRP levels to co-culture conditions were conserved within a chemotype subgroup but different between the subgroups. Our results suggest that intraspecific interactions may promote a chemical diversity in
N. spumigena
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is a bloom-forming diazotrophic cyanobacterium inhabiting brackish waters worldwide. This species produces non-ribosomal peptides (NRPs), including the hepatotoxin nodularin, often referred to as cyanotoxin. Several known classes of NRPs have various biological activities, although their modes of action are poorly understood. In the Baltic
N. spumigena
, there is a high NRP chemodiversity among strains, allowing their grouping in specific chemotypes and subgroups. Therefore, it is relevant to ask whether the NRP production is affected by intraspecific interactions between the co-existing strains. Using a novel approach that combines culture technique and liquid chromatography-tandem mass spectrometry for the NRP analysis, we examined
N. spumigena
strains under mono- and co-culture conditions. The test strains were selected to represent
N. spumigena
belonging to the same or different chemotype subgroups. In this setup, we observed physiological and metabolic responses in the test strains grown without cell contact. The changes in NRP levels to co-culture conditions were conserved within a chemotype subgroup but different between the subgroups. Our results suggest that intraspecific interactions may promote a chemical diversity in
N. spumigena
population, with higher NRP production compared to a single-strain population. 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is a bloom-forming diazotrophic cyanobacterium inhabiting brackish waters worldwide. This species produces non-ribosomal peptides (NRPs), including the hepatotoxin nodularin, often referred to as cyanotoxin. Several known classes of NRPs have various biological activities, although their modes of action are poorly understood. In the Baltic
N. spumigena
, there is a high NRP chemodiversity among strains, allowing their grouping in specific chemotypes and subgroups. Therefore, it is relevant to ask whether the NRP production is affected by intraspecific interactions between the co-existing strains. Using a novel approach that combines culture technique and liquid chromatography-tandem mass spectrometry for the NRP analysis, we examined
N. spumigena
strains under mono- and co-culture conditions. The test strains were selected to represent
N. spumigena
belonging to the same or different chemotype subgroups. In this setup, we observed physiological and metabolic responses in the test strains grown without cell contact. The changes in NRP levels to co-culture conditions were conserved within a chemotype subgroup but different between the subgroups. Our results suggest that intraspecific interactions may promote a chemical diversity in
N. spumigena
population, with higher NRP production compared to a single-strain population. Studying allelochemical signalling in this cyanobacterium is crucial for understanding toxicity mechanisms and plankton community interactions in the Baltic Sea and other aquatic systems experiencing regular blooms.</abstract><cop>London</cop><pub>Nature Publishing Group UK</pub><pmid>33903638</pmid><doi>10.1038/s41598-021-88361-x</doi><tpages>15</tpages><oa>free_for_read</oa></addata></record> |
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| subjects | 631/158/2455 631/158/855 631/92/320 631/92/349 631/92/555 631/92/604 631/92/611 Aquatic environment Bacterial Proteins - metabolism Cell culture Culture techniques Cyanobacteria Hepatotoxicity Humanities and Social Sciences Hypotheses Liquid chromatography Mass spectrometry Mass spectroscopy Membrane filters Metabolic response Metabolism Metabolites multidisciplinary Nodularia Nodularia spumigena Peptide Biosynthesis, Nucleic Acid-Independent Peptides Peptides - metabolism Physiology Plankton Science Science (multidisciplinary) Tandem Mass Spectrometry Toxicity |
| title | Competitive interactions as a mechanism for chemical diversity maintenance in Nodularia spumigena |
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