Ancient defensive terpene biosynthetic gene clusters in the soft corals
Diterpenes are major defensive small molecules that enable soft corals to survive without a tough exterior skeleton, and, until now, their biosynthetic origin has remained intractable. Furthermore, biomedical application of these molecules has been hampered by lack of supply. Here, we identify and c...
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Veröffentlicht in: | Nature chemical biology 2022-06, Vol.18 (6), p.659-663 |
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Sprache: | eng |
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Zusammenfassung: | Diterpenes are major defensive small molecules that enable soft corals to survive without a tough exterior skeleton, and, until now, their biosynthetic origin has remained intractable. Furthermore, biomedical application of these molecules has been hampered by lack of supply. Here, we identify and characterize coral-encoded terpene cyclase genes that produce the eunicellane precursor of eleutherobin and cembrene, representative precursors for the >2,500 terpenes found in octocorals. Related genes are found in all sequenced octocorals and form their own clade, indicating a potential ancient origin concomitant with the split between the hard and soft corals. Eleutherobin biosynthetic genes are colocalized in a single chromosomal region. This demonstrates that, like plants and microbes, animals also harbor defensive biosynthetic gene clusters, supporting a recombinational model to explain why specialized or defensive metabolites are adjacently encoded in the genome.
Rather than relying on microbial symbionts, certain corals themselves encode terpene cyclases that produce the eunicellane precursor of defensive terpenes, while the sequences of widespread related cyclase genes indicate a potential ancient origin. |
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ISSN: | 1552-4450 1552-4469 |
DOI: | 10.1038/s41589-022-01027-1 |