APA
Savi L., Brindisi M., Alfano G., Butini S., La Pietra V., Novellino E., Marinelli L., Lossani A., Focher F., Cavella C., Campiani G. & Gemma S. (20161213). Site-directed Mutagenesis of Key Residues Unveiled a Novel Allosteric Site on Human Adenosine Kinase for Pyrrolobenzoxa(thia)zepinone Non-Nucleoside Inhibitors. : Chemical biology & drug design.
Chicago
Savi Lida, Brindisi Margherita, Alfano Gloria, Butini Stefania, La Pietra Valeria, Novellino Ettore, Marinelli Luciana, Lossani Andrea, Focher Federico, Cavella Caterina, Campiani Giuseppe and Gemma Sandra. 20161213. Site-directed Mutagenesis of Key Residues Unveiled a Novel Allosteric Site on Human Adenosine Kinase for Pyrrolobenzoxa(thia)zepinone Non-Nucleoside Inhibitors. : Chemical biology & drug design.
Harvard
Savi L., Brindisi M., Alfano G., Butini S., La Pietra V., Novellino E., Marinelli L., Lossani A., Focher F., Cavella C., Campiani G. and Gemma S. (20161213). Site-directed Mutagenesis of Key Residues Unveiled a Novel Allosteric Site on Human Adenosine Kinase for Pyrrolobenzoxa(thia)zepinone Non-Nucleoside Inhibitors. : Chemical biology & drug design.
MLA
Savi Lida, Brindisi Margherita, Alfano Gloria, Butini Stefania, La Pietra Valeria, Novellino Ettore, Marinelli Luciana, Lossani Andrea, Focher Federico, Cavella Caterina, Campiani Giuseppe and Gemma Sandra. Site-directed Mutagenesis of Key Residues Unveiled a Novel Allosteric Site on Human Adenosine Kinase for Pyrrolobenzoxa(thia)zepinone Non-Nucleoside Inhibitors. : Chemical biology & drug design. 20161213.