Exploring the Proton Conductance
and Drug Resistance
of BM2 Channel through Molecular Dynamics Simulations and Free Energy
Calculations at Different pH Conditions
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Abstract
BM2 channel plays an important role in the replication
of influenza
virus B. However, few studies attempt to investigate the mechanism
of the proton conductance in BM2 channel, as well as the drug resistance
of the BM2 channel. The first experimental structure of the BM2 protein
channel has recently been solved, enabling us to theoretically study
BM2 systems with different protonation states of histidine. By performing
molecular dynamics simulations on the BM2 systems with different protonation
states of four His19 residues, we provided our understanding of the
structure, dynamics, and drug resistance of the BM2 channel. In general,
the results of our study and other investigations both have demonstrated
that whether the BM2 channel adopts an open or a closed form depends
on the protonation state of His19. Meanwhile, we discovered that a
drug (amantadine) was unable to enter into the center of the BM2 channel
even at a low pH condition probably due to the number of hydrophilic
residues of the BM2 channel. Finally, potentials of mean force (PMF)
calculations were performed for the drug binding BM2 channel, energetically
explaining why the BM2 channel exhibited drug resistance to two inhibitors
of the AM2 channel, amantadine and rimantadine