AI Article Synopsis
- * Previous studies showed that extracts from strain CCNP1313 exhibited activity against cancer cells and viruses, but the specific active agents were not identified.
- * Genome sequencing of strain CCNP1313 revealed genes responsible for important metabolic processes, although no predicted products were detected in mass spectrometry, raising questions about the unexplored capabilities of these synthetases.
Article Abstract
Compounds derived from natural sources pave the way for novel drug development. Cyanobacteria is an ubiquitous phylum found in various habitats. The fitness of those microorganisms, within different biotopes, is partially dependent on secondary metabolite production. Their enhanced production under biotic/abiotic stress factors accounts for better survival rates of cells, and thereby cyanobacteria are as an enticing source of bioactive compounds. Previous studies have shown the potent activity of extracts and fractions from (Böcher 1949) strain CCNP1313 against cancer cells and viruses. However, active agents remain unknown, as the selected peptides had no effect on the tested cell lines. Here, we present a bottom-up approach, pinpointing key structures involved in secondary metabolite production. Consisting of six replicons, a complete genome sequence of strain CCNP1313 was found to carry genes for non-ribosomal peptide/polyketide synthetases embedded within chromosome spans (4.9 Mbp) and for a ribosomally synthesized peptide located on one of the plasmids (0.2 Mbp). Elucidation of metabolite synthesis pathways led to prediction of their structure. While none of the synthesis-predicted products were found in mass spectrometry analysis, unexplored synthetases are characterized by structural similarities to those producing potent bioactive compounds.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC11356792 | PMC |
| http://dx.doi.org/10.3390/microorganisms12081628 | DOI Listing |
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