Archivio Istituzionale della RicercaThe ability of anesthetics to reversibly suppress consciousness must reside in the effects exerted onto specific molecular tar- gets. Interactions between Volatile Anesthetics and the phospholipid mem- brane as well as intracellular tubulin, were investigated using Computational Molecular Modelling, which showed rapid ligand partitioning inside the membrane and significant effects on the mechanical char- acteristics thereof, while transient binding locations have been found on the tubulin dimer.
In silico investigation of molecular interactions of Volatile Anesthetics: Effects on phospholipid membranes and subcellular targets / Zizzi, Eric A.; Cavaglia', Marco; Deriu, Marco A.; Tuszynski, Jacek A.. - ELETTRONICO. - 4:(2021), pp. 123-124. (Intervento presentato al convegno Centro 3R Annual Meeting | September 30th - October 1st nel September 30th - October 1st) [10.4081/bse.2021.202].
In silico investigation of molecular interactions of Volatile Anesthetics: Effects on phospholipid membranes and subcellular targets
Eric A. Zizzi;Marco Cavaglià;Marco A. Deriu;Jacek A. Tuszynski
2021
Abstract
The ability of anesthetics to reversibly suppress consciousness must reside in the effects exerted onto specific molecular tar- gets. Interactions between Volatile Anesthetics and the phospholipid mem- brane as well as intracellular tubulin, were investigated using Computational Molecular Modelling, which showed rapid ligand partitioning inside the membrane and significant effects on the mechanical char- acteristics thereof, while transient binding locations have been found on the tubulin dimer.
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https://hdl.handle.net/11583/2940063