Paper Citing NAMD - Abstract
Smith, Natalie E.; Vrielink, Alice; Attwood, Paul V.; Corry, Ben
Biological Channeling of a Reactive Intermediate in the Bifunctional Enzyme DmpFG
BIOPHYSICAL JOURNAL, 102:868-877, FEB 22 2012
It has been hypothesized that the bifunctional enzyme DmpFG channels its intermediate, acetaldehyde, from one active site to the next using a buried intermolecular channel identified in the crystal structure. This channel appears to switch between an open and a closed conformation depending on whether the coenzyme NAD(+) is present or absent. Here, we applied molecular dynamics and metadynamics to investigate channeling within DmpFG in both the presence and absence of NAD(+). We found that substrate channeling within this enzyme is energetically feasible in the presence of NAD(+) but was less likely in its absence. Tyr-291, a proposed control point at the channel's entry, does not appear to function as a molecular gate. Instead, it is thought to orientate the substrate 4-hydroxy-2-ketovalerate in DmpG before reaction occurs, and may function as a proton shuttle for the DmpG reaction. Three hydrophobic residues at the channel's exit appear to have an important role in controlling the entry of acetaldehyde into the DmpF active site.
