Abstract
Secondary metabolites often play an important role in the adaptation of organisms to their environment. However, little is known about the secondary metabolites of ancient organisms and their evolutionary history. Chemical analysis of exceptionally well-preserved colored fossil crinoids and modern crinoids from the deep sea suggests that bioactive polycyclic quinones related to hypericin were, and still are, globally widespread in post-Paleozoic crinoids. The discovery of hypericinoid pigments both in fossil and in present-day representatives of the order Isocrinida indicates that the pigments remained almost unchanged since the Mesozoic, also suggesting that the original color of hypericinoid-containing ancient crinoids may have been analogous to that of their modern relatives. The persistent and widespread occurrence, spatially as well as taxonomically, of hypericinoid pigments in various orders during the adaptive radiation of post-Paleozoic crinoids suggests a general functional importance of the pigments, contributing to the evolutionary success of the Crinoidea.
Funder
Deutsche Forschungsgemeinschaft
Publisher
Proceedings of the National Academy of Sciences
Reference39 articles.
1. Hess H Ausich WI Brett CE Simms MJ , eds (1999) Fossil Crinoids (Cambridge Univ Press, Cambridge, UK)
2. Hess H Messing CG (2011) Treatise on Invertebrate Paleontology, Part T, Echinodermata 2, Revised, Crinoidea, Vol 3, ed Selden PA (University of Kansas Paleontological Institute, Lawrence, KS)
3. Adaptive radiation of the comatulid crinoids;Meyer;Paleobiology,1977
4. Pigments of Marine Animals. XV. Bianthrones and Related Polyketides from Lamprometra palmata gyges and Other Species of Crinoids
5. On the colouring matters of various animals, and especially of deep-sea forms, dredged by H.M.S. Challenger;Moseley;Q J Microsc Sci,1877
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