Caruso, F., Singh, M., Belli, S., Berinato, M., & Rossi, M. (2020). Interrelated Mechanism by Which the Methide Quinone Celastrol, Obtained from the Roots of Tripterygium wilfordii, Inhibits Main Protease 3CL(pro) of COVID-19 and Acts as Superoxide Radical Scavenger. Int J Mol Sci.

Caruso, Francesco, Manrose Singh, Stuart Belli, Molly Berinato, and Miriam Rossi. "Interrelated Mechanism By Which the Methide Quinone Celastrol, Obtained From the Roots of Tripterygium Wilfordii, Inhibits Main Protease 3CL(pro) of COVID-19 and Acts As Superoxide Radical Scavenger." Int J Mol Sci 2020.

Caruso, Francesco, et al. "Interrelated Mechanism By Which the Methide Quinone Celastrol, Obtained From the Roots of Tripterygium Wilfordii, Inhibits Main Protease 3CL(pro) of COVID-19 and Acts As Superoxide Radical Scavenger." Int J Mol Sci 2020.