Patruno, A. Et Al. 2015. Synthesis of a Novel Cyclic Prodrug of S-Allyl-glutathione Able To Attenuate LPS-Induced ROS Production through the Inhibition of MAPK Pathways in U937 Cells. MOLECULAR PHARMACEUTICS , vol.12, no.1 , 66-74.

Patruno, A., Fornasari, E., Di Stefano, A., Cerasa, L. S., Marinelli, L., Baldassarre, L., ... Sozio, P.(2015). Synthesis of a Novel Cyclic Prodrug of S-Allyl-glutathione Able To Attenuate LPS-Induced ROS Production through the Inhibition of MAPK Pathways in U937 Cells. MOLECULAR PHARMACEUTICS , vol.12, no.1, 66-74.

Patruno, Antonia Et Al. "Synthesis of a Novel Cyclic Prodrug of S-Allyl-glutathione Able To Attenuate LPS-Induced ROS Production through the Inhibition of MAPK Pathways in U937 Cells," MOLECULAR PHARMACEUTICS , vol.12, no.1, 66-74, 2015

Patruno, Antonia Et Al. "Synthesis of a Novel Cyclic Prodrug of S-Allyl-glutathione Able To Attenuate LPS-Induced ROS Production through the Inhibition of MAPK Pathways in U937 Cells." MOLECULAR PHARMACEUTICS , vol.12, no.1, pp.66-74, 2015

Patruno, A. Et Al. (2015) . "Synthesis of a Novel Cyclic Prodrug of S-Allyl-glutathione Able To Attenuate LPS-Induced ROS Production through the Inhibition of MAPK Pathways in U937 Cells." MOLECULAR PHARMACEUTICS , vol.12, no.1, pp.66-74.

@article{article, author={Antonia Patruno Et Al. }, title={Synthesis of a Novel Cyclic Prodrug of S-Allyl-glutathione Able To Attenuate LPS-Induced ROS Production through the Inhibition of MAPK Pathways in U937 Cells}, journal={MOLECULAR PHARMACEUTICS}, year=2015, pages={66-74} }