Bordon, K.C.F.; Santos, G.C.; Martins, J.G.; Wiezel, G.A.; Amorim, F.G.; Crasset, T.; Redureau, D.; Quinton, L.; Procópio, R.E.L.; Arantes, E.C.
Pioneering Comparative Proteomic and Enzymatic Profiling of Amazonian Scorpion Venoms Enables the Isolation of Their First α-Ktx, Metalloprotease, and Phospholipase A2. Toxins 2025, 17, 411.
https://doi.org/10.3390/toxins17080411
AMA Style
Bordon KCF, Santos GC, Martins JG, Wiezel GA, Amorim FG, Crasset T, Redureau D, Quinton L, Procópio REL, Arantes EC.
Pioneering Comparative Proteomic and Enzymatic Profiling of Amazonian Scorpion Venoms Enables the Isolation of Their First α-Ktx, Metalloprotease, and Phospholipase A2. Toxins. 2025; 17(8):411.
https://doi.org/10.3390/toxins17080411
Chicago/Turabian Style
Bordon, Karla C. F., Gabrielle C. Santos, Jonas G. Martins, Gisele A. Wiezel, Fernanda G. Amorim, Thomas Crasset, Damien Redureau, Loïc Quinton, Rudi E. L. Procópio, and Eliane C. Arantes.
2025. "Pioneering Comparative Proteomic and Enzymatic Profiling of Amazonian Scorpion Venoms Enables the Isolation of Their First α-Ktx, Metalloprotease, and Phospholipase A2" Toxins 17, no. 8: 411.
https://doi.org/10.3390/toxins17080411
APA Style
Bordon, K. C. F., Santos, G. C., Martins, J. G., Wiezel, G. A., Amorim, F. G., Crasset, T., Redureau, D., Quinton, L., Procópio, R. E. L., & Arantes, E. C.
(2025). Pioneering Comparative Proteomic and Enzymatic Profiling of Amazonian Scorpion Venoms Enables the Isolation of Their First α-Ktx, Metalloprotease, and Phospholipase A2. Toxins, 17(8), 411.
https://doi.org/10.3390/toxins17080411
