Paper Citing NAMD - Abstract
Kostyuchenko, Victor A.; Jakana, Joanita; Liu, Xiangan; Haddow, Andrew D.; Aung, Myint; Weaver, Scott C.; Chiu, Wah; Lok, Shee-Mei
The Structure of Barmah Forest Virus as Revealed by Cryo-Electron Microscopy at a 6-Angstrom Resolution Has Detailed Transmembrane Protein Architecture and Interactions
JOURNAL OF VIROLOGY, 85:9327-9333, SEP 2011
Barmah Forest virus (BFV) is a mosquito-borne alphavirus that infects humans. A 6-angstrom-resolution cryo-electron microscopy three-dimensional structure of BFV exhibits a typical alphavirus organization, with RNA-containing nucleocapsid surrounded by a bilipid membrane anchored with the surface proteins E1 and E2. The map allows details of the transmembrane regions of E1 and E2 to be seen. The C-terminal end of the E2 transmembrane helix binds to the capsid protein. Following the E2 transmembrane helix, a short alpha-helical endodomain lies on the inner surface of the lipid envelope. The E2 endodomain interacts with E1 transmembrane helix from a neighboring E1-E2 trimeric spike, thereby acting as a spacer and a linker between spikes. In agreement with previous mutagenesis studies, the endodomain plays an important role in recruiting other E1-E2 spikes to the budding site during virus assembly. The E2 endodomain may thus serve as a target for antiviral drug design.
