Paper Citing NAMD - Abstract
Zomot, Elia; Bahar, Ivet
Protonation of Glutamate 208 Induces the Release of Agmatine in an Outward-facing Conformation of an Arginine/Agmatine Antiporter
JOURNAL OF BIOLOGICAL CHEMISTRY, 286:19693-19701, JUN 3 2011
Virulent enteric pathogens have developed several systems that maintain intracellular pH to survive extreme acidic conditions. One such mechanism is the exchange of arginine (Arg(+)) from the extracellular region with its intracellular decarboxylated form, agmatine (Agm(2+)). The net result of this process is the export of a virtual proton from the cytoplasm per antiport cycle. Crystal structures of the arginine/agmatine antiporter from Escherichia coli, AdiC, have been recently resolved in both the apo and Arg(+)-bound outward-facing conformations, which permit us to assess for the first time the time-resolved mechanisms of interactions that enable the specific antiporter functionality of AdiC. Using data from similar to 1 mu s of molecular dynamics simulations, we show that the protonation of Glu-208 selectively causes the dissociation and release of Agm(2+), but not Arg(+), to the cell exterior. The impact of Glu-208 protonation is transmitted to the substrate binding pocket via the reorientation of Ile-205 carbonyl group at the irregular portion of transmembrane (TM) helix 6. This effect, which takes place only in the subunits where Agm(2+) is released, invites attention to the functional role of the unwound portion of TM helices (TM6 Trp-202-Glu-208 in AdiC) in facilitating substrate translocation, reminiscent of the behavior observed in structurally similar Na(+)-coupled transporters.
