The structure of a purple water-soluble pigment from the marine bryozoan, Bugula neritina, has been studied for more than 100 years, but is still entirely unknown. The compound is presumably the first marine natural product to be studied in detail and the first papers to be registered in the literature originate from Brazil.
BerlinckRGS, HajduE, da RochaRM, de OliveiraHHL, HernándezILC, SeleghimMHR, GranatoAC, de AlmeidaéVR, NuñezCV, MuricyG, PeixinhoS, PessoaC, MoraesMO, CavalcantiBC, NascimentoGGF, ThiemannO, SilvaM, SouzaAO, SilvaCL, MinariniPRR. (2004) Challenges and rewards of research in marine natural products chemistry in Brazil. Journal of Natural Products, 67, 510–522.
2.
VillelaGG. (1948) Adenochrome-like pigment of the Polyzoa bugula neritina (L). Proceedings of the Society of Experimental Biology and Medicine, New York, 68, 531–533.
3.
VillelaGG. (1949) Biocromos (pigmentos) de invertebrados marinhos I- BriozoariosMemorias do instituto Oswaldo Cruz, 46, 459–471.
4.
von FürthO. (1903) Vergleichende chemische Physiologie der Niederen Tiere. p. 555. Verlag von Gustav Fisher, Jena.
FoxDL, UpdegraffDM. (1942–1943) Archiv der Biochemie, 1, 339–56.
7.
ItoS, NardiG, PalumboA, ProtaG. (1979) Isolation and characterization of adenochrome, a unique iron (III)-binding peptide from Octopus vulgaris.Journal of the Chemical Society Perkin TransactionsI, 2617–2623.
8.
StewartAL, AskeaME, KingKK, HillAJ, DavisCM. (2004) Isolation of adenochrome from the branchial hearts of the common brown octopus. Journal of Undergraduate Chemistry Research, 3, 1–5.
