Add to ORKGDuring the assembly of many viruses, a powerful ATP-driven motor translocates DNA into a preformed procapsid. A Walker-A "P-loop" motif is proposed to coordinate ATP binding and hydrolysis with DNA translocation. We use genetic, biochemical, and biophysical techniques to survey the roles of P-loop residues in bacteriophage lambda motor function. We identify 55 point mutations that reduce virus yield to below detectable levels in a highly sensitive genetic complementation assay and 33 that cause varying reductions in yield. Most changes in the predicted conserved residues K76, R79, G81, and S83 produce no detectable yield. Biochemical analyses show that R79A and S83A mutant proteins fold, assemble, and display genome maturation activity simi...
DNA packaging is a major step in the process of assembly of many viruses, including many dsDNA bacte...
ATP-powered viral packaging motors are among the most powerful biomotors known. Motor subunits arran...
Cleavage of bacteriophage DNA by the Type III restriction-modification enzymes requires long-range i...
Many viruses employ ATP-powered motors for genome packaging. We combined genetic, biochemical, and s...
The viral DNA packaging motors are among the most powerful biological machines known, and their mech...
AbstractThe packaging motor of bacteriophage T4 translocates DNA into the capsid at a rate of up to ...
Protein complexes belonging to the super-family of ATPases Associated with diverse Activities of the...
In this dissertation we take advantage of the real-time manipulating, high force generating, and sma...
DNA packaging in tailed bacteriophages and herpesviruses requires assembly of a complex molecular ma...
Double-stranded DNA viruses, including most bacteriophages and mammalian herpesviruses, package thei...
SummaryRing NTPases are a class of ubiquitous molecular motors involved in basic biological partitio...
Ring NTPases are a class of ubiquitous molecular motors involved in basic biological partitioning pr...
AbstractIt has long been believed that the DNA-packaging motor of dsDNA viruses utilizes a rotation ...
ATP-driven motors exist globally in almost all prokaryotic and eukaryotic organisms. The motors in v...
Subunits in multimeric ring-shaped motors must coordinate their activities to ensure correct and eff...
DNA packaging is a major step in the process of assembly of many viruses, including many dsDNA bacte...
ATP-powered viral packaging motors are among the most powerful biomotors known. Motor subunits arran...
Cleavage of bacteriophage DNA by the Type III restriction-modification enzymes requires long-range i...
Many viruses employ ATP-powered motors for genome packaging. We combined genetic, biochemical, and s...
The viral DNA packaging motors are among the most powerful biological machines known, and their mech...
AbstractThe packaging motor of bacteriophage T4 translocates DNA into the capsid at a rate of up to ...
Protein complexes belonging to the super-family of ATPases Associated with diverse Activities of the...
In this dissertation we take advantage of the real-time manipulating, high force generating, and sma...
DNA packaging in tailed bacteriophages and herpesviruses requires assembly of a complex molecular ma...
Double-stranded DNA viruses, including most bacteriophages and mammalian herpesviruses, package thei...
SummaryRing NTPases are a class of ubiquitous molecular motors involved in basic biological partitio...
Ring NTPases are a class of ubiquitous molecular motors involved in basic biological partitioning pr...
AbstractIt has long been believed that the DNA-packaging motor of dsDNA viruses utilizes a rotation ...
ATP-driven motors exist globally in almost all prokaryotic and eukaryotic organisms. The motors in v...
Subunits in multimeric ring-shaped motors must coordinate their activities to ensure correct and eff...
DNA packaging is a major step in the process of assembly of many viruses, including many dsDNA bacte...
ATP-powered viral packaging motors are among the most powerful biomotors known. Motor subunits arran...
Cleavage of bacteriophage DNA by the Type III restriction-modification enzymes requires long-range i...