Author:
Fry Bryan G.,Scheib Holger,Junqueira de Azevedo Inacio de L.M.,Silva Debora Andrade,Casewell Nicholas R.
Funder
Australia & Pacific Science Foundation
Australian Research Council and the University of Queensland
Reference42 articles.
1. Co-evolution of diet and prey-specific venom activity supports the role of selection in snake venom evolution;Barlow;Proc. Roy. Soc. B,2009
2. California Ground Squirrel (Spermophilus beecheyi) defences against rattlesnake venom digestive and hemostatic toxins;Biardi;J. Chem. Ecol.,2006
3. Comparative venom gland transcriptome surveys of the saw-scaled vipers (Viperidae: Echis) reveal substantial intra-family gene diversity and novel venom transcripts;Casewell;BMC Genomics,2009
4. Domain loss facilitates accelerated evolution and neofunctionalization of duplicate snake venom metalloproteinase toxin genes;Casewell;Mol. Biol. Evol.,2011
5. Ching, A.T.C., Rocha, M.M.T., Leme, A.F.P., Pimenta, D.C., Furtado, M.D.D., Serrano, S.M.T., Ho, P.L., Junqueira-De-Azevedo, I.L.M. 2006. Some aspects of the venom proteome of the Colubridae snake Philodryas olfersii revealed from a Duvernoy’s (venom) gland transcriptome. 580, 4417–4422.
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