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A soft spot for chemistry-current taxonomic and evolutionary implications of sponge secondary metabolite distribution
Galitz, A.; Nakao, Y.; Schupp, P.J.; Wörheide, G.; Erpenbeck, D. (2021). A soft spot for chemistry-current taxonomic and evolutionary implications of sponge secondary metabolite distribution. Mar. Drugs 19(8): 448. https://dx.doi.org/10.3390/md19080448
In: Marine Drugs. Molecular Diversity Preservation International (MDPI): Basel. ISSN 1660-3397; e-ISSN 1660-3397
|   |
| Trefwoorden |
Porifera [WoRMS]
Marien/Kust |
| Author keywords |
bioactivity; marine sponge; secondary metabolite; natural product evolution; chemotaxonomy |
| Auteurs | | Top |
- Galitz, A.
- Nakao, Y.
- Schupp, P.J.
|
- Wörheide, G.
- Erpenbeck, D.
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| Abstract |
Marine sponges are the most prolific marine sources for discovery of novel bioactive compounds. Sponge secondary metabolites are sought-after for their potential in pharmaceutical applications, and in the past, they were also used as taxonomic markers alongside the difficult and homoplasy-prone sponge morphology for species delineation (chemotaxonomy). The understanding of phylogenetic distribution and distinctiveness of metabolites to sponge lineages is pivotal to reveal pathways and evolution of compound production in sponges. This benefits the discovery rate and yield of bioprospecting for novel marine natural products by identifying lineages with high potential of being new sources of valuable sponge compounds. In this review, we summarize the current biochemical data on sponges and compare the metabolite distribution against a sponge phylogeny. We assess compound specificity to lineages, potential convergences, and suitability as diagnostic phylogenetic markers. Our study finds compound distribution corroborating current (molecular) phylogenetic hypotheses, which include yet unaccepted polyphyly of several demosponge orders and families. Likewise, several compounds and compound groups display a high degree of lineage specificity, which suggests homologous biosynthetic pathways among their taxa, which identifies yet unstudied species of this lineage as promising bioprospecting targets. |
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