AI Article Synopsis
- Bioactive secondary metabolites in marine animals, primarily produced by symbiotic bacteria, play a crucial role in the interactions between ascidians and their bacterial partners.
- Approximately 8% of known secondary metabolites in ascidians are synthesized by these symbiotic bacteria, suggesting a significant relationship for the animals' survival.
- The chemical interactions are complex, species-specific, and indicative of ancient practices in obtaining vital compounds, showcasing the evolutionary importance of these symbiotic relationships.
Article Abstract
Bioactive secondary metabolites are common components of marine animals. In many cases, symbiotic bacteria, and not the animals themselves, synthesize the compounds. Among marine animals, ascidians are good models for understanding these symbioses. Ascidians often contain potently bioactive secondary metabolites as their major extractable components. Strong evidence shows that ~8% of the known secondary metabolites from ascidians are made by symbiotic bacteria, and indirect evidence implicates bacteria in the synthesis of many more. Far from being "secondary" to the animals, secondary metabolites are essential components of the interaction between host animals and their symbiotic bacteria. These interactions have complex underlying biology, but the chemistry is clearly ascidian-species specific. The chemical interactions are ancient in at least some cases, and they are widespread among ascidians. Ascidians maintain secondary metabolic symbioses with bacteria that are phylogenetically diverse, indicating a convergent solution to obtaining secondary metabolites and reinforcing the importance of secondary metabolism in animal survival.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC4414342 | PMC |
| http://dx.doi.org/10.1111/ivb.12071 | DOI Listing |
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