Iturralde, M.; Bracho, J.P.; Valdivia-Pérez, J.A.; Guzmán, F.; Malbrán, I.; Maté, S.M.; Fanani, M.L.; Vairo Cavalli, S.
Antifungal Peptides SmAPα1–21 and SmAPγ27–44 Designed from Different Loops of DefSm2-D Have Distinct Modes of Action. Antibiotics 2025, 14, 430.
https://doi.org/10.3390/antibiotics14050430
AMA Style
Iturralde M, Bracho JP, Valdivia-Pérez JA, Guzmán F, Malbrán I, Maté SM, Fanani ML, Vairo Cavalli S.
Antifungal Peptides SmAPα1–21 and SmAPγ27–44 Designed from Different Loops of DefSm2-D Have Distinct Modes of Action. Antibiotics. 2025; 14(5):430.
https://doi.org/10.3390/antibiotics14050430
Chicago/Turabian Style
Iturralde, Micaela, Juan Pablo Bracho, Jessica A. Valdivia-Pérez, Fanny Guzmán, Ismael Malbrán, Sabina MarÃa Maté, MarÃa Laura Fanani, and Sandra Vairo Cavalli.
2025. "Antifungal Peptides SmAPα1–21 and SmAPγ27–44 Designed from Different Loops of DefSm2-D Have Distinct Modes of Action" Antibiotics 14, no. 5: 430.
https://doi.org/10.3390/antibiotics14050430
APA Style
Iturralde, M., Bracho, J. P., Valdivia-Pérez, J. A., Guzmán, F., Malbrán, I., Maté, S. M., Fanani, M. L., & Vairo Cavalli, S.
(2025). Antifungal Peptides SmAPα1–21 and SmAPγ27–44 Designed from Different Loops of DefSm2-D Have Distinct Modes of Action. Antibiotics, 14(5), 430.
https://doi.org/10.3390/antibiotics14050430
