TY - JOUR
T1 - Refined atomic model of the four-layer aggregate of the tobacco mosaic virus coat protein at 2.4-Å resolution
AU - Bhyravbhatla, Balaji
AU - Watowich, Stanley J.
AU - Caspar, Donald L.D.
N1 - Funding Information:
This work was supported by grant 5R35CA47439 from the National Cancer Institute to DLDC. The coordinates of the A- and B-subunits will be deposited in the Protein Data Bank.
PY - 1998/1
Y1 - 1998/1
N2 - Previous x-ray studies (2.8-Å resolution) on crystals of tobacco mosaic virus coat protein grown from solutions containing high salt have characterized the structure of the protein aggregate as a dimer of a bilayered cylindrical disk formed by 34 chemically identical subunits. We have determined the crystal structure of the disk aggregate at 2.4-Å resolution using x-ray diffraction from crystals maintained at cryogenic temperatures. Two regions of interest have been extensively refined. First, residues of the low-radius loop region, which were not modeled previously, have been traced completely in our electron density maps. Similar to the structure observed in the virus, the right radial helix in each protomer ends around residue 87, after which the protein chain forms an extended chain that extends to the left radial helix. The left radial helix appears as a long α- helix with high temperature factors for the main-chain atoms in the inner portion. The side-chain atoms in this region (residues 90-110) are not visible in the electron density maps and are assumed to be disordered. Second, interactions between subunits in the symmetry-related central A pair have been determined. No direct protein-protein interactions are observed in the major overlap region between these subunits; all interactions are mediated by two layers of ordered solvent molecules. The current structure emphasizes the importance of water in biological macromolecular assemblies.
AB - Previous x-ray studies (2.8-Å resolution) on crystals of tobacco mosaic virus coat protein grown from solutions containing high salt have characterized the structure of the protein aggregate as a dimer of a bilayered cylindrical disk formed by 34 chemically identical subunits. We have determined the crystal structure of the disk aggregate at 2.4-Å resolution using x-ray diffraction from crystals maintained at cryogenic temperatures. Two regions of interest have been extensively refined. First, residues of the low-radius loop region, which were not modeled previously, have been traced completely in our electron density maps. Similar to the structure observed in the virus, the right radial helix in each protomer ends around residue 87, after which the protein chain forms an extended chain that extends to the left radial helix. The left radial helix appears as a long α- helix with high temperature factors for the main-chain atoms in the inner portion. The side-chain atoms in this region (residues 90-110) are not visible in the electron density maps and are assumed to be disordered. Second, interactions between subunits in the symmetry-related central A pair have been determined. No direct protein-protein interactions are observed in the major overlap region between these subunits; all interactions are mediated by two layers of ordered solvent molecules. The current structure emphasizes the importance of water in biological macromolecular assemblies.
UR - http://www.scopus.com/inward/record.url?scp=0031961962&partnerID=8YFLogxK
UR - http://www.scopus.com/inward/citedby.url?scp=0031961962&partnerID=8YFLogxK
U2 - 10.1016/S0006-3495(98)77819-1
DO - 10.1016/S0006-3495(98)77819-1
M3 - Article
C2 - 9449361
AN - SCOPUS:0031961962
SN - 0006-3495
VL - 74
SP - 604
EP - 615
JO - Biophysical journal
JF - Biophysical journal
IS - 1
ER -