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Filizola and co-workers have applied a combination of long-time molecular dynamics and oscillating chemical potential grand canonical Monte Carlo/molecular dynamics to investigate the distribution of Mg2+ and Na+ in the… Click to show full abstract
Filizola and co-workers have applied a combination of long-time molecular dynamics and oscillating chemical potential grand canonical Monte Carlo/molecular dynamics to investigate the distribution of Mg2+ and Na+ in the μ-opioid receptor and their impact on its function. Results indicate atomic details of potential mechanisms by which Mg2+ leads to increased efficacy of opioid analgesics. The presence of information flow between the extracellular loops and the intracellular region of the G-protein-coupled receptors that interacts with G-proteins in the presence of Mg2+ may be a phenomenon occurring in other G-protein-coupled receptors and, therefore, potentially of broad impact.
Journal Title: Biophysical journal
Year Published: 2019
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