AbstractWe present the first three-dimensional reconstruction of a prolate, tailed phage, and its empty prohead precursor by cryo-electron microscopy. The head–tail connector, the central component of the DNA packaging machine, is visualized for the first time in situ within the Bacillus subtilis dsDNA phage φ29. The connector, with 12- or 13-fold symmetry, appears to fit loosely into a pentameric vertex of the head, a symmetry mismatch that may be required to rotate the connector to package DNA. The prolate head of φ29 has 10 hexameric units in its cylindrical equatorial region, and 11 pentameric and 20 hexameric units comprise icosahedral end-caps with T=3 quasi-symmetry. Reconstruction of an emptied phage particle shows that the connecto...
DNA packaging is a key step in the assembly of dsDNA viruses, such as tailed bacteriophages and evol...
AbstractThe incorporation of the DNA packaging connector complex during lambdoid phage assembly in v...
The double-stranded-DNA bacteriophages employ powerful molecular motors to translocate genomic DNA i...
AbstractWe present the first three-dimensional reconstruction of a prolate, tailed phage, and its em...
AbstractBackground: Head–tail connectors are viral substructures that are very important in the vira...
SummaryThe mechanisms by which most double-stranded DNA viruses package and release their genomic DN...
The mature virion of the tailed bacteriophage ϕ29 is an ~33 MDa complex that contains more than 450 ...
AbstractA recent structural study of a double-stranded DNA bacteriophage has provided remarkable new...
Bacteriophages are usually complex molecular machines. Bacteriophages T4 and &phis;29 were investiga...
help pinpoint the capsid structural changes that accom-pany DNA packaging and that, thus far, have o...
SummaryCryo-electron microscopy (cryo-EM) studies of the bacteriophage ϕ29 DNA packaging motor have ...
Tang et al. (2008) probe the virion structure of bacteriophage ϕ29 by asymmetric reconstructions of ...
AbstractBackground: Like many viruses, bacteriophage φX174 packages its DNA genome into a procapsid ...
SummaryThe encapsidated genome in all double-strand DNA bacteriophages is packaged to liquid crystal...
AbstractThe goal of the work reported here is to understand the precise molecular mechanism of the p...
DNA packaging is a key step in the assembly of dsDNA viruses, such as tailed bacteriophages and evol...
AbstractThe incorporation of the DNA packaging connector complex during lambdoid phage assembly in v...
The double-stranded-DNA bacteriophages employ powerful molecular motors to translocate genomic DNA i...
AbstractWe present the first three-dimensional reconstruction of a prolate, tailed phage, and its em...
AbstractBackground: Head–tail connectors are viral substructures that are very important in the vira...
SummaryThe mechanisms by which most double-stranded DNA viruses package and release their genomic DN...
The mature virion of the tailed bacteriophage ϕ29 is an ~33 MDa complex that contains more than 450 ...
AbstractA recent structural study of a double-stranded DNA bacteriophage has provided remarkable new...
Bacteriophages are usually complex molecular machines. Bacteriophages T4 and &phis;29 were investiga...
help pinpoint the capsid structural changes that accom-pany DNA packaging and that, thus far, have o...
SummaryCryo-electron microscopy (cryo-EM) studies of the bacteriophage ϕ29 DNA packaging motor have ...
Tang et al. (2008) probe the virion structure of bacteriophage ϕ29 by asymmetric reconstructions of ...
AbstractBackground: Like many viruses, bacteriophage φX174 packages its DNA genome into a procapsid ...
SummaryThe encapsidated genome in all double-strand DNA bacteriophages is packaged to liquid crystal...
AbstractThe goal of the work reported here is to understand the precise molecular mechanism of the p...
DNA packaging is a key step in the assembly of dsDNA viruses, such as tailed bacteriophages and evol...
AbstractThe incorporation of the DNA packaging connector complex during lambdoid phage assembly in v...
The double-stranded-DNA bacteriophages employ powerful molecular motors to translocate genomic DNA i...