TY - JOUR
T1 - Structure of bacteriophage T4 gene product 11, the interface between the baseplate and short tail fibers
AU - Leiman, Petr G.
AU - Kostyuchenko, Victor A.
AU - Shneider, Mikhail M.
AU - Kurochkina, Lidia P.
AU - Mesyanzhinov, Vadim V.
AU - Rossmann, Michael G.
N1 - Funding Information:
We thank Alan Simpson for help with data collection, Richard Kingston for advice on the analysis of the MAD data, and Sharon Wilder for help in preparation of the manuscript. We also thank the staff at the Cornell High Energy Synchrotron Source in Ithaca, NY, and at the Advanced Photon Source BioCARS sector 14 in Argonne, IL (especially Wilfried Schildkamp) for help with data collection. The work was supported by a National Science Foundation grant to M.G.R., a Howard Hughes Medical Institute grant to V.V.M. and M.G.R., and a grant from the Russian Foundation for Basic Research to V.V.M.
PY - 2000/8/25
Y1 - 2000/8/25
N2 - Bacteriophage T4, like all other viruses, is required to be stable while being transmitted from host to host, but also is poised to eject efficiently and rapidly its double-stranded DNA genome to initiate infection. The latter is coordinated by the recognition of receptors on Escherichia coli cells by the long tail fibers and subsequent irreversible attachment by the short tail fibers. These fibers are attached to the baseplate, a multi-subunit assembly at the distal end of the tail. Recognition and attachment induce a conformational transition of the baseplate from a hexagonal to a star-shaped structure. The crystal structure of gene product 11 (gp11), a protein that connects the short tail fibers to the baseplate, has been determined to 2.0 Å resolution using multiple wavelength anomalous dispersion with Se. This structure is compared to the trimeric structure of gp9, which connects the baseplate with the long tail fibers. The structure of gp11 is a trimer with each monomer consisting of 218 residues folded into three domains. The N-terminal domains form a central, trimeric, parallel coiled coil surrounded by the middle 'finger' domains. The fingers emanate from the carboxy-terminal β-annulus domain, which, by comparison with the T4 whisker 'fibritin' protein, is probably responsible for trimerization. The events leading from recognition of the host to the ejection of viral DNA must be communicated along the assembled trimeric (gp9)3 attached to the long tail fibers via the trimeric baseplate protein (gp10)3 to the trimeric (gp11)3 and the trimeric short tail fibers. (C) 2000 Academic Press.
AB - Bacteriophage T4, like all other viruses, is required to be stable while being transmitted from host to host, but also is poised to eject efficiently and rapidly its double-stranded DNA genome to initiate infection. The latter is coordinated by the recognition of receptors on Escherichia coli cells by the long tail fibers and subsequent irreversible attachment by the short tail fibers. These fibers are attached to the baseplate, a multi-subunit assembly at the distal end of the tail. Recognition and attachment induce a conformational transition of the baseplate from a hexagonal to a star-shaped structure. The crystal structure of gene product 11 (gp11), a protein that connects the short tail fibers to the baseplate, has been determined to 2.0 Å resolution using multiple wavelength anomalous dispersion with Se. This structure is compared to the trimeric structure of gp9, which connects the baseplate with the long tail fibers. The structure of gp11 is a trimer with each monomer consisting of 218 residues folded into three domains. The N-terminal domains form a central, trimeric, parallel coiled coil surrounded by the middle 'finger' domains. The fingers emanate from the carboxy-terminal β-annulus domain, which, by comparison with the T4 whisker 'fibritin' protein, is probably responsible for trimerization. The events leading from recognition of the host to the ejection of viral DNA must be communicated along the assembled trimeric (gp9)3 attached to the long tail fibers via the trimeric baseplate protein (gp10)3 to the trimeric (gp11)3 and the trimeric short tail fibers. (C) 2000 Academic Press.
KW - Bacteriophage T
KW - Baseplate
KW - Fiber attachment protein
KW - Gp11
KW - X-ray crystallography
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U2 - 10.1006/jmbi.2000.3989
DO - 10.1006/jmbi.2000.3989
M3 - Article
C2 - 10966799
AN - SCOPUS:0034714138
SN - 0022-2836
VL - 301
SP - 975
EP - 985
JO - Journal of Molecular Biology
JF - Journal of Molecular Biology
IS - 4
ER -