PLoS ONE (Jan 2014)

Sample limited characterization of a novel disulfide-rich venom peptide toxin from terebrid marine snail Terebra variegata.

  • Prachi Anand,
  • Alexandre Grigoryan,
  • Mohammed H Bhuiyan,
  • Beatrix Ueberheide,
  • Victoria Russell,
  • Jose Quinoñez,
  • Patrick Moy,
  • Brian T Chait,
  • Sébastien F Poget,
  • Mandë Holford

DOI
https://doi.org/10.1371/journal.pone.0094122
Journal volume & issue
Vol. 9, no. 4
p. e94122

Abstract

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Disulfide-rich peptide toxins found in the secretions of venomous organisms such as snakes, spiders, scorpions, leeches, and marine snails are highly efficient and effective tools for novel therapeutic drug development. Venom peptide toxins have been used extensively to characterize ion channels in the nervous system and platelet aggregation in haemostatic systems. A significant hurdle in characterizing disulfide-rich peptide toxins from venomous animals is obtaining significant quantities needed for sequence and structural analyses. Presented here is a strategy for the structural characterization of venom peptide toxins from sample limited (4 ng) specimens via direct mass spectrometry sequencing, chemical synthesis and NMR structure elucidation. Using this integrated approach, venom peptide Tv1 from Terebra variegata was discovered. Tv1 displays a unique fold not witnessed in prior snail neuropeptides. The novel structural features found for Tv1 suggest that the terebrid pool of peptide toxins may target different neuronal agents with varying specificities compared to previously characterized snail neuropeptides.