AI Article Synopsis
- Microbes produce secondary metabolites (SMs) that influence interactions between them, and while much is known about bacterial and eukaryotic SMs, archaeal SMs are less understood.
- Researchers discovered two new lanthipeptides from a halophilic archaeon, with one (archalan α) showing anti-archaeal properties, marking it as the first identified lantibiotic and anti-archaeal SM from archaea.
- This study highlights the potential of archaeal lanthipeptides in microbial interactions and encourages further research into archaeal chemical biology as a source of bioactive compounds.
Article Abstract
Background: Microbes produce diverse secondary metabolites (SMs) such as signaling molecules and antimicrobials that mediate microbe-microbe interaction. Archaea, the third domain of life, are a large and diverse group of microbes that not only exist in extreme environments but are abundantly distributed throughout nature. However, our understanding of archaeal SMs lags far behind our knowledge of those in bacteria and eukarya.
Results: Guided by genomic and metabolic analysis of archaeal SMs, we discovered two new lanthipeptides with distinct ring topologies from a halophilic archaeon of class Haloarchaea. Of these two lanthipeptides, archalan α exhibited anti-archaeal activities against halophilic archaea, potentially mediating the archaeal antagonistic interactions in the halophilic niche. To our best knowledge, archalan α represents the first lantibiotic and the first anti-archaeal SM from the archaea domain.
Conclusions: Our study investigates the biosynthetic potential of lanthipeptides in archaea, linking lanthipeptides to antagonistic interaction via genomic and metabolic analyses and bioassay. The discovery of these archaeal lanthipeptides is expected to stimulate the experimental study of poorly characterized archaeal chemical biology and highlight the potential of archaea as a new source of bioactive SMs. Video Abstract.
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|---|---|
| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC10105419 | PMC |
| http://dx.doi.org/10.1186/s40168-023-01521-1 | DOI Listing |
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