Gianibbi, B.; Corina, R.; Basilico, N.; Spiga, O.; Gobbi, S.; Belluti, F.; Gentilomi, G.A.; Parapini, S.; Bonvicini, F.; Bisi, A.
STOP Strategy to Inhibit P. falciparum and S. aureus Growth: Molecular Mechanism Studies on Purposely Designed Hybrids. Antibiotics 2025, 14, 991.
https://doi.org/10.3390/antibiotics14100991
AMA Style
Gianibbi B, Corina R, Basilico N, Spiga O, Gobbi S, Belluti F, Gentilomi GA, Parapini S, Bonvicini F, Bisi A.
STOP Strategy to Inhibit P. falciparum and S. aureus Growth: Molecular Mechanism Studies on Purposely Designed Hybrids. Antibiotics. 2025; 14(10):991.
https://doi.org/10.3390/antibiotics14100991
Chicago/Turabian Style
Gianibbi, Beatrice, Riccardo Corina, Nicoletta Basilico, Ottavia Spiga, Silvia Gobbi, Federica Belluti, Giovanna Angela Gentilomi, Silvia Parapini, Francesca Bonvicini, and Alessandra Bisi.
2025. "STOP Strategy to Inhibit P. falciparum and S. aureus Growth: Molecular Mechanism Studies on Purposely Designed Hybrids" Antibiotics 14, no. 10: 991.
https://doi.org/10.3390/antibiotics14100991
APA Style
Gianibbi, B., Corina, R., Basilico, N., Spiga, O., Gobbi, S., Belluti, F., Gentilomi, G. A., Parapini, S., Bonvicini, F., & Bisi, A.
(2025). STOP Strategy to Inhibit P. falciparum and S. aureus Growth: Molecular Mechanism Studies on Purposely Designed Hybrids. Antibiotics, 14(10), 991.
https://doi.org/10.3390/antibiotics14100991
