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Journal Abstract Search

431 related items for PubMed ID: 27650695

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  • 2. Preclinical efficacy of Australian antivenoms against the venom of the small-eyed snake, Micropechis ikaheka, from Papua New Guinea: an antivenomics and neutralization study.
    Pla D, Paiva OK, Sanz L, Beutler M, Wright CE, Calvete JJ, Williams DJ, Gutiérrez JM.
    J Proteomics; 2014 Oct 14; 110():198-208. PubMed ID: 24980637
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  • 3. Exploring the venom of the forest cobra snake: Toxicovenomics and antivenom profiling of Naja melanoleuca.
    Lauridsen LP, Laustsen AH, Lomonte B, Gutiérrez JM.
    J Proteomics; 2017 Jan 06; 150():98-108. PubMed ID: 27593527
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  • 6. Integrative characterization of the venom of the coral snake Micrurus dumerilii (Elapidae) from Colombia: Proteome, toxicity, and cross-neutralization by antivenom.
    Rey-Suárez P, Núñez V, Fernández J, Lomonte B.
    J Proteomics; 2016 Mar 16; 136():262-73. PubMed ID: 26883873
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  • 7. A Review of the Proteomic Profiling of African Viperidae and Elapidae Snake Venoms and Their Antivenom Neutralisation.
    Offor BC, Muller B, Piater LA.
    Toxins (Basel); 2022 Oct 22; 14(11):. PubMed ID: 36355973
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  • 8. Isolation and pharmacological characterisation of papuantoxin-1, a postsynaptic neurotoxin from the venom of the Papuan black snake (Pseudechis papuanus).
    Kuruppu S, Reeve S, Smith AI, Hodgson WC.
    Biochem Pharmacol; 2005 Sep 01; 70(5):794-800. PubMed ID: 16011833
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  • 10. Proteomic profile, biological activities and antigenic analysis of the venom from Bothriopsis bilineata smaragdina ("loro machaco"), a pitviper snake from Peru.
    Rodrigues CR, Teixeira-Ferreira A, Vargas FFR, Guerra-Duarte C, Costal-Oliveira F, Stransky S, Lopes-de-Souza L, Dutra AAA, Yarlequé A, Bonilla C, Sanchez EF, Perales J, Chávez-Olórtegui C.
    J Proteomics; 2018 Sep 15; 187():171-181. PubMed ID: 30048773
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  • 11. The medical threat of mamba envenoming in sub-Saharan Africa revealed by genus-wide analysis of venom composition, toxicity and antivenomics profiling of available antivenoms.
    Ainsworth S, Petras D, Engmark M, Süssmuth RD, Whiteley G, Albulescu LO, Kazandjian TD, Wagstaff SC, Rowley P, Wüster W, Dorrestein PC, Arias AS, Gutiérrez JM, Harrison RA, Casewell NR, Calvete JJ.
    J Proteomics; 2018 Feb 10; 172():173-189. PubMed ID: 28843532
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  • 13. Cardiovascular, haematological and neurological effects of the venom of the Papua New Guinean small-eyed snake (Micropechis ikaheka) and their neutralisation with CSL polyvalent and black snake antivenoms.
    Tibballs J, Kuruppu S, Hodgson WC, Carroll T, Hawdon G, Sourial M, Baker T, Winkel K.
    Toxicon; 2003 Nov 10; 42(6):647-55. PubMed ID: 14602120
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  • 16. Comparative proteomic analysis of the venom of the taipan snake, Oxyuranus scutellatus, from Papua New Guinea and Australia: role of neurotoxic and procoagulant effects in venom toxicity.
    Herrera M, Fernández J, Vargas M, Villalta M, Segura Á, León G, Angulo Y, Paiva O, Matainaho T, Jensen SD, Winkel KD, Calvete JJ, Williams DJ, Gutiérrez JM.
    J Proteomics; 2012 Apr 03; 75(7):2128-40. PubMed ID: 22266484
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  • 17. In Vitro Neutralization of the Myotoxicity of Australian Mulga Snake (Pseudechis australis) and Sri Lankan Russell's Viper (Daboia russelii) Venoms by Australian and Indian Polyvalent Antivenoms.
    Thakshila P, Hodgson WC, Isbister GK, Silva A.
    Toxins (Basel); 2022 Apr 26; 14(5):. PubMed ID: 35622549
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  • 20. The efficacy of two antivenoms against the in vitro myotoxic effects of black snake (Pseudechis) venoms in the chick biventer cervicis nerve-muscle preparation.
    Ramasamy S, Isbister GK, Hodgson WC.
    Toxicon; 2004 Dec 15; 44(8):837-45. PubMed ID: 15530965
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