(PDF) Discovery of Highly Potent Inhibitors Targeting the

Discovery of Highly Potent Inhibitors Targeting the Predominant Drug-Resistant S31N Mutant of the Influenza a Virus M2 Proton Channel

doi 10.1021/acs.jmedchem.5b01910.s001

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Amanote Research

Discovery of Highly Potent Inhibitors Targeting the Predominant Drug-Resistant S31N Mutant of the Influenza a Virus M2 Proton Channel

doi 10.1021/acs.jmedchem.5b01910.s001

Full Text

Abstract

Date

Authors

Publisher

Related search

Discovery of Potent Antivirals Against Amantadine-Resistant Influenza a Viruses by Targeting the M2-S31n Proton Channel

Discovery of Novel Dual Inhibitors of the Wild-Type and the Most Prevalent Drug-Resistant Mutant, S31N, of the M2 Proton Channel From Influenza a Virus

Structure and Inhibition of the Drug-Resistant S31N Mutant of the M2 Ion Channel of Influenza a Virus

Molecular Dynamics Simulation Directed Rational Design of Inhibitors Targeting Drug-Resistant Mutants of Influenza a Virus M2

Xray Crystal Structure of the Influenza a M2 Proton Channel S31N Mutant in Two Conformational States: An Open and Shut Case

Identification of the Functional Core of the Influenza a Virus a/M2 Proton-Selective Ion Channel

Solid-State NMR Investigation of the Conformation, Proton Conduction, and Hydration of the Influenza B Virus M2 Transmembrane Proton Channel

Multiscale Simulation Reveals a Multifaceted Mechanism of Proton Permeation Through the Influenza a M2 Proton Channel

XFEL Structures of the Influenza M2 Proton Channel: Room Temperature Water Networks and Insights Into Proton Conduction