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Toxicon 91: 76-83. https://dx.doi.org/10.1016/j.toxicon.2014.10.016","StandardTitle":"Ciguatera fish poisoning: a first epidemic in Germany highlights an increasing risk for European countries","AuthorsString":"Mattei, C. et al.","BibLvlCode":"AS"},{"BRefID":287946,"RR":"Lopes-Ferreira, M.; Ramos, A.D.; Martins, I.A.; Lima, C.; Conceição, K.; Haddad, V. (2014). Clinical manifestations and experimental studies on the spine extract of the toadfish Porichthys porosissimus. Toxicon 86: 28-39. https://dx.doi.org/10.1016/j.toxicon.2014.04.014","StandardTitle":"Clinical manifestations and experimental studies on the spine extract of the toadfish Porichthys porosissimus","AuthorsString":"Lopes-Ferreira, M. et al.","BibLvlCode":"AS"},{"BRefID":297779,"RR":"Helmholz, H.; Ruhnau, C.; Schütt, C.; Prange, A. (2007). Comparative study on the cell toxicity and enzymatic activity of two northern scyphozoan species Cyanea capillata (L.) and Cyanea lamarckii (Péron & Léslieur). Toxicon 50(1): 53-64. https://dx.doi.org/10.1016/j.toxicon.2007.02.014","StandardTitle":"Comparative study on the cell toxicity and enzymatic activity of two northern scyphozoan species Cyanea capillata (L.) and Cyanea lamarckii (Péron & Léslieur)","AuthorsString":"Helmholz, H. et al.","BibLvlCode":"AS"},{"BRefID":410252,"RR":"Yuin, C.S.; Naidu, R.; Othman, I.; Zainal Abidin, S.A. (2025). Consolidation of venom proteomes from major Cnidarian species (Scyphozoa and Cubozoa) obtained using liquid chromatography-tandem mass spectrometry. Toxicon 265: 108491. https://dx.doi.org/10.1016/j.toxicon.2025.108491","StandardTitle":"Consolidation of venom proteomes from major Cnidarian species (Scyphozoa and Cubozoa) obtained using liquid chromatography-tandem mass spectrometry","AuthorsString":"Yuin, C.S. et al.","BibLvlCode":"AS"},{"BRefID":364357,"RR":"Hisem, D.; Hrouzek, P.; Tomek, P.; Tomšícková, J.; Zapomelová, E.; Skácelová, K.; Lukešová, A.; Kopecký, J. (2011). Cyanobacterial cytotoxicity versus toxicity to brine shrimp Artemia salina. Toxicon 57(1): 76-83. https://dx.doi.org/10.1016/j.toxicon.2010.10.002","StandardTitle":"Cyanobacterial cytotoxicity versus toxicity to brine shrimp Artemia salina","AuthorsString":"Hisem, D. et al.","BibLvlCode":"AS"},{"BRefID":314037,"RR":"Anderluh, G.; Macek, P. (2002). Cytolytic peptide and protein toxins from sea anemones (Anthozoa: Actiniaria). Toxicon 40(2): 111-124. https://dx.doi.org/10.1016/s0041-0101(01)00191-x","StandardTitle":"Cytolytic peptide and protein toxins from sea anemones (Anthozoa: Actiniaria)","AuthorsString":"Anderluh, G.; Macek, P.","BibLvlCode":"AS"},{"BRefID":284194,"RR":"Proksch, P. (1994). Defensive roles for secondary metabolites from marine sponges and sponge-feeding nudibranchs. Toxicon 32(6): 639-655. https://dx.doi.org/10.1016/0041-0101(94)90334-4","StandardTitle":"Defensive roles for secondary metabolites from marine sponges and sponge-feeding nudibranchs","AuthorsString":"Proksch, P.","BibLvlCode":"AS"},{"BRefID":261879,"RR":"Bouaïcha, N.; Hennion, M.-C.; Sandra, P. (1997). Determination of okadaic acid by micellar electrokinetic chromatography with ultraviolet detection. Toxicon 35(2): 273-281. https://dx.doi.org/10.1016/S0041-0101(96)00069-4","StandardTitle":"Determination of okadaic acid by micellar electrokinetic chromatography with ultraviolet detection","AuthorsString":"Bouaïcha, N.; Hennion, M.-C.; Sandra, P.","BibLvlCode":"AS"},{"BRefID":322742,"RR":"Akbora, H.D.; Kunter, İ.; Erçeti̇n, T.; Elagöz, A.M.; Çiçek, B.A. (2020). Determination of tetrodotoxin (TTX) levels in various tissues of the silver cheeked puffer fish (Lagocephalus sceleratus (Gmelin, 1789)) in Northern Cyprus Sea (Eastern Mediterranean). Toxicon 175: 1-6. https://dx.doi.org/10.1016/j.toxicon.2019.12.002","StandardTitle":"Determination of tetrodotoxin (TTX) levels in various tissues of the silver cheeked puffer fish (Lagocephalus sceleratus (Gmelin, 1789)) in Northern Cyprus Sea (Eastern Mediterranean)","AuthorsString":"Akbora, H.D. et al.","BibLvlCode":"AS"},{"BRefID":293742,"RR":"Echterbille, J.; Gilles, N.; Araoz, R.; Mourier, G.; Amar, M.; Servent, D.; De Pauw, E.; Quinton, L. (2017). Discovery and characterization of EIIB, a new α-conotoxin from Conus ermineus venom by nAChRs affinity capture monitored by MALDI-TOF/TOF mass spectrometry. Toxicon 130: 1-10. https://dx.doi.org/10.1016/j.toxicon.2017.02.023","StandardTitle":"Discovery and characterization of EIIB, a new α-conotoxin from Conus ermineus venom by nAChRs affinity capture monitored by MALDI-TOF/TOF mass spectrometry","AuthorsString":"Echterbille, J. et al.","BibLvlCode":"AS"},{"BRefID":246818,"RR":"Lebbe, E.K.M.; Peigneur, S.; Maiti, M.; Mille, B.G.; Devi, P; Ravichandran, S; Lescrinier, E.; Waelkens, E.; D'Souza, L; Herdewijn, P.; Tytgat, J. (2014). Discovery of a new subclass of alpha-conotoxins in the venom of Conus australis. Toxicon 91: 145-154. https://dx.doi.org/10.1016/j.toxicon.2014.08.074","StandardTitle":"Discovery of a new subclass of alpha-conotoxins in the venom of Conus australis","AuthorsString":"Lebbe, E.K.M. et al.","BibLvlCode":"AS"},{"BRefID":310498,"RR":"Degueldre, M.; Verdenaud, M.; Legarda, G.; Minambres, R.; Zuniga, S.; Leblanc, M.; Gilles, N.; Ducancel, F.; De Pauw, E.; Quinton, L. (2017). Diversity in sequences, post-translational modifications and expected pharmacological activities of toxins from four Conus species revealed by the combination of cutting-edge proteomics, transcriptomics and bioinformatics. Toxicon 130: 116-125. https://dx.doi.org/10.1016/j.toxicon.2017.02.014","StandardTitle":"Diversity in sequences, post-translational modifications and expected pharmacological activities of toxins from four Conus species revealed by the combination of cutting-edge proteomics, transcriptomics and bioinformatics","AuthorsString":"Degueldre, M. et al.","BibLvlCode":"AS"},{"BRefID":261982,"RR":"Louzao, M.C.; Alfonso, A.; Botana, A.M.; Goenaga, X.; Cabado, A.G.; Vieytes, M.R.; Botana, L.M. (1994). Effect of lyophilization on the stability of gonyautoxins obtained from contaminated mussels. Toxicon 32(7): 807-817. https://dx.doi.org/10.1016/0041-0101(94)90006-X","StandardTitle":"Effect of lyophilization on the stability of gonyautoxins obtained from contaminated mussels","AuthorsString":"Louzao, M.C. et al.","BibLvlCode":"AS"},{"BRefID":251312,"RR":"Amzil, Z.; Sibat, M.; Royer, F.; Savar, V. (2008). First report on azaspiracid and yessotoxin groups detection in French shellfish. Toxicon 52(1): 39-48. https://dx.doi.org/10.1016/j.toxicon.2008.05.006","StandardTitle":"First report on azaspiracid and yessotoxin groups detection in French shellfish","AuthorsString":"Amzil, Z. et al.","BibLvlCode":"AS"},{"BRefID":285471,"RR":"Martínez-Morales, E.; Kopljar, I.; Rainier, J.D.; Tytgat, J.; Snyders, D.J.; Labro, A.J. (2016). Gambierol and n-alkanols inhibit Shaker Kv channel via distinct binding sites outside the K+ pore. Toxicon 120: 57-60. https://dx.doi.org/10.1016/j.toxicon.2016.07.017","StandardTitle":"Gambierol and n-alkanols inhibit Shaker Kv channel via distinct binding sites outside the K+ pore","AuthorsString":"Martínez-Morales, E. et al.","BibLvlCode":"AS"},{"BRefID":258043,"RR":"Cuypers, E.; Abdel-Mottaleb, Y.; Kopljar, I.; Rainier, J.; Raes, A.L.; Snyders, D.J.; Tytgat, J. (2008). Gambierol, a toxin produced by the dinoflagellate Gambierdiscus toxicus, is a potent blocker of voltage-gated potassium channels. Toxicon 51(6): 974-983. https://dx.doi.org/10.1016/j.toxicon.2008.01.004","StandardTitle":"Gambierol, a toxin produced by the dinoflagellate Gambierdiscus toxicus, is a potent blocker of voltage-gated potassium channels","AuthorsString":"Cuypers, E. et al.","BibLvlCode":"AS"},{"BRefID":137969,"RR":"Morton, R.A.; Burklew, M.A. (1970). Incidence of Ciguatera in Barracuda from the west coast of Florida. Toxicon 8: 317-318","StandardTitle":"Incidence of Ciguatera in Barracuda from the west coast of Florida","AuthorsString":"Morton, R.A.; Burklew, M.A.","BibLvlCode":"AS"},{"BRefID":325285,"RR":"Maillaud, C.; Hoang-Oppermann, T.; Hoang-Oppermann, V.; Rigot, H.; Girardot, S.; Nour, M. (2020). Is stonefish Synanceia verrucosa envenomation potentially lethal? Toxicon 184: 78-82. https://dx.doi.org/10.1016/j.toxicon.2020.05.019","StandardTitle":"Is stonefish Synanceia verrucosa envenomation potentially lethal?","AuthorsString":"Maillaud, C. et al.","BibLvlCode":"AS"},{"BRefID":246823,"RR":"Wijesekara, I.; Peigneur, S.; Devi, P; Ravichandran, S; Lebbe, E.; Mille, B.; D'Souza, L; Tytgat, J. (2014). Isolation and characterization of novel conopeptides from Conus amadis that target voltage-gated sodium channels. Toxicon 91: 184-184. dx.doi.org/10.1016/j.toxicon.2014.08.056","StandardTitle":"Isolation and characterization of novel conopeptides from Conus amadis that target voltage-gated sodium channels","AuthorsString":"Wijesekara, I. et al.","BibLvlCode":"AS"},{"BRefID":338101,"RR":"Gladkikh, I.; Kalina, R.; Sinsova, O.; Kvetkina, A.; Peigneur, S.; Koshelev, S.; Kim, N.; Monastyrnaya, M.; Kozlov, S.; Tytgat, J.; Kozlovskaya, E. (2019). New Kv, NAv, and ASIC channel toxins from the sea anemone Heteractis crispa. Toxicon 158(S1): S48-S48. https://hdl.handle.net/10.1016/j.toxicon.2018.10.168","StandardTitle":"New Kv, NAv, and ASIC channel toxins from the sea anemone Heteractis crispa","AuthorsString":"Gladkikh, I. et al.","BibLvlCode":"AS"},{"BRefID":127368,"RR":"Kauferstein, S.; Huys, I.; Kuch, U.; Melaun, C.; Tytgat, J.; Mebs, D. (2004). Novel conopeptides of the I-superfamily occur in several clades of cone snails. Toxicon 44(5): 539-548","StandardTitle":"Novel conopeptides of the I-superfamily occur in several clades of cone snails","AuthorsString":"Kauferstein, S. et al.","BibLvlCode":"AS"},{"BRefID":394222,"RR":"Asakawa, M.; Toyoshima, T.; Shida, Y.; Noguchi, T.; Miyazawa, K. (2000). Paralytic toxins in a ribbon worm Cephalothrix species (Nemertean) adherent to cultured oysters in Hiroshima Bay, Hiroshima Prefecture, Japan. Toxicon 38(6): 763-773. https://dx.doi.org/10.1016/s0041-0101(99)00172-5","StandardTitle":"Paralytic toxins in a ribbon worm Cephalothrix species (Nemertean) adherent to cultured oysters in Hiroshima Bay, Hiroshima Prefecture, Japan","AuthorsString":"Asakawa, M. et al.","BibLvlCode":"AS"},{"BRefID":239812,"RR":"Pigulevsky, S.V.; Michaleff, P.V. (1969). Poisoning by the medusa Gonionemus vertens in the Sea of Japan. Toxicon 7(2): 145–149. http://dx.doi.org/10.1016/0041-0101(69)90077-4","StandardTitle":"Poisoning by the medusa Gonionemus vertens in the Sea of Japan","AuthorsString":"Pigulevsky, S.V.; Michaleff, P.V.","BibLvlCode":"AS"},{"BRefID":313959,"RR":"van Losenoord, W.; Krause, J.; Parker-Nance, S.; Krause, R.; Stoychev, S.; Frost, C.L. (2019). Purification and biochemical characterisation of a putative sodium channel agonist secreted from the South African Knobbly sea anemone Bunodosoma capense. Toxicon 168: 147-157. https://dx.doi.org/10.1016/j.toxicon.2019.06.222","StandardTitle":"Purification and biochemical characterisation of a putative sodium channel agonist secreted from the South African Knobbly sea anemone Bunodosoma capense","AuthorsString":"van Losenoord, W. et al.","BibLvlCode":"AS"},{"BRefID":289029,"RR":"Le Garrec, R.; L'herondelle, K.; Le Gall-Ianotto, C.; Lebonvallet, N.; Leschiera, R.; Buhe, V.; Talagas, M.; Vetter, I.; Lewis, R.J.; Misery, L. (2016). Release of neuropeptides from a neuro-cutaneous co-culture model: a novel in vitro model for studying sensory effects of ciguatoxins. Toxicon 116: 4-10. https://dx.doi.org/10.1016/j.toxicon.2015.11.004","StandardTitle":"Release of neuropeptides from a neuro-cutaneous co-culture model: a novel in vitro model for studying sensory effects of ciguatoxins","AuthorsString":"Le Garrec, R. et al.","BibLvlCode":"AS"},{"BRefID":282598,"RR":"Llewellyn, L.E. (2010). Revisiting the association between sea surface temperature and the epidemiology of fish poisoning in the South Pacific: reassessing the link between ciguatera and climate change. Toxicon 56(5): 691-697. https://dx.doi.org/10.1016/j.toxicon.2009.08.011","StandardTitle":"Revisiting the association between sea surface temperature and the epidemiology of fish poisoning in the South Pacific: reassessing the link between ciguatera and climate change","AuthorsString":"Llewellyn, L.E.","BibLvlCode":"AS"},{"BRefID":63983,"RR":"Ciminiello, P.; Fattorusso, E.; Fiorino, M.; Montresor, M. (2000). Saxitoxin and neosaxitoxin as toxic principles of Alexandrium andersoni (Dinophyceae) from the Gulf of Naples, Italy. Toxicon 38: 1871-1877. https://dx.doi.org/10.1016/S0041-0101(00)00099-4","StandardTitle":"Saxitoxin and neosaxitoxin as toxic principles of Alexandrium andersoni (Dinophyceae) from the Gulf of Naples, Italy","AuthorsString":"Ciminiello, P. et al.","BibLvlCode":"AS"},{"BRefID":246822,"RR":"Tytgat, J. (2014). Sea anemone toxins: from lab bench discovery to commercial drugs? Toxicon 91: 170-170. dx.doi.org/10.1016/j.toxicon.2014.08.021","StandardTitle":"Sea anemone toxins: from lab bench discovery to commercial drugs?","AuthorsString":"Tytgat, J.","BibLvlCode":"AS"},{"BRefID":121606,"RR":"Bosmans, F.; Tytgat, J. (2007). Sea anemone venom as a source of insecticidal peptides acting on voltage-gated Na+ channels. Toxicon 49(4): 550-560. dx.doi.org/10.1016/j.toxicon.2006.11.029","StandardTitle":"Sea anemone venom as a source of insecticidal peptides acting on voltage-gated Na+ channels","AuthorsString":"Bosmans, F.; Tytgat, J.","BibLvlCode":"AS"},{"BRefID":280697,"RR":"Dobson, R.; Collodoro, M.; Gilles, N.; Turtoi, A.; De Pauw, E.; Quinton, L. (2012). Secretion and maturation of conotoxins in the venom ducts of Conus textile. Toxicon 60(8): 1370-1379. https://dx.doi.org/10.1016/j.toxicon.2012.09.013","StandardTitle":"Secretion and maturation of conotoxins in the venom ducts of Conus textile","AuthorsString":"Dobson, R. et al.","BibLvlCode":"AS"},{"BRefID":368531,"RR":"Lennox-Bulow, D.; Smout, M.; Loukas, A.; Seymour, J. (2023). Stonefish (Synanceia spp.) ichthyocrinotoxins: an ecological review and prospectus for future research and biodiscovery. Toxicon 236: 107329. https://dx.doi.org/10.1016/j.toxicon.2023.107329","StandardTitle":"Stonefish (Synanceia spp.) ichthyocrinotoxins: an ecological review and prospectus for future research and biodiscovery","AuthorsString":"Lennox-Bulow, D. et al.","BibLvlCode":"AS"},{"BRefID":322938,"RR":"Elnahriry, K.A.; Wai, D.C.C.; Krishnarjuna, B.; Badawy, N.N.; Chittoor, B.; MacRaild, C.A.; Williams-Noonan, B.J.; Surm, J.M.; Chalmers, D.K.; Zhang, A.H.; Peigneur, S.; Mobli, M.; Tytgat, J.; Prentis, P.; Norton, R.S. (2019). Structural and functional characterisation of a novel peptide from the Australian sea anemone Actinia tenebrosa. Toxicon 168: 104-112. https://dx.doi.org/10.1016/j.toxicon.2019.07.002","StandardTitle":"Structural and functional characterisation of a novel peptide from the Australian sea anemone Actinia tenebrosa","AuthorsString":"Elnahriry, K.A. et al.","BibLvlCode":"AS"},{"BRefID":246820,"RR":"Lebbe, E.K.M.; Peigneur, S.; Maiti, M.; Devi, P; Ravichandran, S; D'Souza, L; Lescrinier, E.; Herdewijn, P.; Tytgat, J. (2014). Structure-function elucidation of a new alpha-conotoxin, Lo1a, from Conus longurionis. Toxicon 91: 170-171. dx.doi.org/10.1016/j.toxicon.2014.08.023","StandardTitle":"Structure-function elucidation of a new alpha-conotoxin, Lo1a, from Conus longurionis","AuthorsString":"Lebbe, E.K.M. et al.","BibLvlCode":"AS"},{"BRefID":310451,"RR":"Krishnarjuna, B.; Villegas-Moreno, J.; Mitchell, M.L.; Csoti, A.; Peigneur, S.; Amero, C.; Pennington, M.W.; Tytgat, J.; Panyi, G.; Norton, R.S. (2018). Synthesis, folding, structure and activity of a predicted peptide from the sea anemone Oulactis sp. with an ShKT fold. Toxicon 150: 50-59. https://dx.doi.org/10.1016/j.toxicon.2018.05.006","StandardTitle":"Synthesis, folding, structure and activity of a predicted peptide from the sea anemone Oulactis sp. with an ShKT fold","AuthorsString":"Krishnarjuna, B. et al.","BibLvlCode":"AS"},{"BRefID":393067,"RR":"Vlasenko, A.E.; Velansky, P.V.; Chernyshev, A.V.; Kuznetsov, V.G.; Magarlamov, T.Y. (2018). Tetrodotoxin and its analogues profile in nemertean species from the sea of Japan. Toxicon 156: 48-51. https://dx.doi.org/10.1016/j.toxicon.2018.11.006","StandardTitle":"Tetrodotoxin and its analogues profile in nemertean species from the sea of Japan","AuthorsString":"Vlasenko, A.E. et al.","BibLvlCode":"AS"},{"BRefID":395810,"RR":"Magarlamov, T.Y.; Beleneva, I.A.; Chernyshev, A.V.; Kuhlevsky, A.D. (2014). Tetrodotoxin-producing Bacillus sp. from the ribbon worm (Nemertea) Cephalothrix simula (Iwata, 1952). Toxicon 85: 46-51. https://dx.doi.org/10.1016/j.toxicon.2014.04.015","StandardTitle":"Tetrodotoxin-producing Bacillus sp. from the ribbon worm (Nemertea) Cephalothrix simula (Iwata, 1952)","AuthorsString":"Magarlamov, T.Y. et al.","BibLvlCode":"AS"},{"BRefID":338093,"RR":"Zelepuga, E.; Gladkikh, I.; Peigneur, S.; Tytgat, J.; Monastyrnaya, M.; Kozlovskaya, E. (2019). The Kunitz-type HCRG peptides from the sea anemone Heteractis crispa possess Kv channel toxicity. Toxicon 159(S1): S26-S27. https://hdl.handle.net/10.1016/j.toxicon.2018.11.408","StandardTitle":"The Kunitz-type HCRG peptides from the sea anemone Heteractis crispa possess Kv channel toxicity","AuthorsString":"Zelepuga, E. et al.","BibLvlCode":"AS"},{"BRefID":137973,"RR":"Burklew, M.A.; Morton, R.A. (1971). The toxicity of Florida Gulf puffers, genus Sphoeroides. Toxicon 9: 205-210","StandardTitle":"The toxicity of Florida Gulf puffers, genus Sphoeroides","AuthorsString":"Burklew, M.A.; Morton, R.A.","BibLvlCode":"AS"},{"BRefID":364234,"RR":"Caldwell, G.S.; Bentley, M.G.; Olive, P.J.W. (2003). The use of a brine shrimp (Artemia salina) bioassay to assess the toxicity of diatom extracts and short chain aldehydes. 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Type II toxins from sea anemone Heteractis crispa with various effects on activation and inactivation of voltage-gated sodium channels. Toxicon 159(S1): S18-S18. https://hdl.handle.net/10.1016/j.toxicon.2018.11.376","StandardTitle":"Type II toxins from sea anemone Heteractis crispa with various effects on activation and inactivation of voltage-gated sodium channels","AuthorsString":"Kalina, R. et al.","BibLvlCode":"AS"},{"BRefID":238482,"RR":"Kopljar, I.; Labro, A.J.; Rainier, J.D.; Tytgat, J.; Snyders, D.J. (2012). Voltage sensor trapping in voltage-gated K-channels by the marine neurotoxin Gambierol. Toxicon 60(2): 150-151. dx.doi.org/10.1016/j.toxicon.2012.04.111","StandardTitle":"Voltage sensor trapping in voltage-gated K-channels by the marine neurotoxin Gambierol","AuthorsString":"Kopljar, I. et al.","BibLvlCode":"AS"},{"BRefID":246821,"RR":"Peigneur, S.; Tytgat, J. (2014). When cone snails and spiders meet: design of selective and potent sodium channel inhibitors. 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