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Proteomic analyses of the unexplored sea anemone Bunodactis verrucosa
Domínguez-Pérez, D.; Campos, A.; Alexei Rodríguez, A.; Turkina, M.V.; Ribeiro, T.; Osorio, H.; Vasconcelos, V.; Antunes, A. (2018). Proteomic analyses of the unexplored sea anemone Bunodactis verrucosa. Mar. Drugs 16(2): 42. https://dx.doi.org/10.3390/md16020042
In: Marine Drugs. Molecular Diversity Preservation International (MDPI): Basel. ISSN 1660-3397; e-ISSN 1660-3397, meer
Peer reviewed article  

Beschikbaar in  Auteurs 

Trefwoorden
    Chemical compounds > Organic compounds > Proteins
    Toxins
    Bunodactis verrucosa (Pennant, 1777) [WoRMS]; Cnidaria [WoRMS]
Author keywords
    cnidarian; sea anemone; two-dimensional gel electrophoresis;

Auteurs  Top 
  • Domínguez-Pérez, D.
  • Campos, A.
  • Alexei Rodríguez, A.
  • Turkina, M.V.
  • Ribeiro, T.
  • Osorio, H.
  • Vasconcelos, V., meer
  • Antunes, A.

Abstract
    Cnidarian toxic products, particularly peptide toxins, constitute a promising target for biomedicine research. Indeed, cnidarians are considered as the largest phylum of generally toxic animals. However, research on peptides and toxins of sea anemones is still limited. Moreover, most of the toxins from sea anemones have been discovered by classical purification approaches. Recently, high-throughput methodologies have been used for this purpose but in other Phyla. Hence, the present work was focused on the proteomic analyses of whole-body extract from the unexplored sea anemone Bunodactis verrucosa. The proteomic analyses applied were based on two methods: two-dimensional gel electrophoresis combined with MALDI-TOF/TOF and shotgun proteomic approach. In total, 413 proteins were identified, but only eight proteins were identified from gel-based analyses. Such proteins are mainly involved in basal metabolism and biosynthesis of antibiotics as the most relevant pathways. In addition, some putative toxins including metalloproteinases and neurotoxins were also identified. These findings reinforce the significance of the production of antimicrobial compounds and toxins by sea anemones, which play a significant role in defense and feeding. In general, the present study provides the first proteome map of the sea anemone B. verrucosa stablishing a reference for future studies in the discovery of new compound.

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