Add to ORKGDNA packaging in the bacteriophage f29 involves a molecular motor with protein and RNA components, including interactions between the viral connector protein and molecules of pRNA, both of which form multimeric complexes. Data are presented to demonstrate the higher order assembly of pRNA together with the affinity of pRNA:pRNA and pRNA:connector interactions, which are used to pro-pose a model for motor function. In solution, pRNA can form dimeric and trimeric multimers in a magnesium-dependent manner, with dissociation constants for multimerization in the micromolar range. pRNA:connector binding is also facilitated by the presence of magnesium ions, with a nanomolar apparent dissociation constant for the interaction. From studies with a m...
SummaryRing NTPases are a class of ubiquitous molecular motors involved in basic biological partitio...
motor by addition or discharge of a peptide at N-terminus of connector protein that interacts with p...
The molecular mechanism of scaffolding protein-mediated incorporation of one and only one DNA packag...
DNA packaging in the bacteriophage f29 involves a molecular motor with protein and RNA components, i...
DNA packaging in the bacteriophage φ29 involves a molecular motor. It is proposed that dsDNA is pack...
During assembly, bacterial virus phi29 utilizes a motor to insert genomic DNA into a preformed prote...
Bacteriophage phi29 packages its double stranded genomic DNA-gp3 into a preformed procapsid during r...
The condensation of bacteriophage phi29 genomic DNA into its preformed procapsid requires the DNA pa...
The bacteriophage phi29 DNA packaging motor, one of the strongest biological motors characterized to...
Bacteriophage phi29 utilizes a viral-encoded RNA (pRNA) to insert its genomic DNA into the viral pro...
Bacteriophage DNA packaging motors translocate their genomic DNA into viral heads, compacting it to ...
SummaryCryo-electron microscopy (cryo-EM) studies of the bacteriophage ϕ29 DNA packaging motor have ...
AbstractA common feature in the maturation of linear dsDNA viruses is that the lengthy viral genome ...
Bacteriophage DNA packaging motors translocate their genomic DNA into viral heads, compacting it to ...
Bacteriophage ø29 utilizes a viral-encoded RNA (pRNA) to insert its genomic DNA into the viral proca...
SummaryRing NTPases are a class of ubiquitous molecular motors involved in basic biological partitio...
motor by addition or discharge of a peptide at N-terminus of connector protein that interacts with p...
The molecular mechanism of scaffolding protein-mediated incorporation of one and only one DNA packag...
DNA packaging in the bacteriophage f29 involves a molecular motor with protein and RNA components, i...
DNA packaging in the bacteriophage φ29 involves a molecular motor. It is proposed that dsDNA is pack...
During assembly, bacterial virus phi29 utilizes a motor to insert genomic DNA into a preformed prote...
Bacteriophage phi29 packages its double stranded genomic DNA-gp3 into a preformed procapsid during r...
The condensation of bacteriophage phi29 genomic DNA into its preformed procapsid requires the DNA pa...
The bacteriophage phi29 DNA packaging motor, one of the strongest biological motors characterized to...
Bacteriophage phi29 utilizes a viral-encoded RNA (pRNA) to insert its genomic DNA into the viral pro...
Bacteriophage DNA packaging motors translocate their genomic DNA into viral heads, compacting it to ...
SummaryCryo-electron microscopy (cryo-EM) studies of the bacteriophage ϕ29 DNA packaging motor have ...
AbstractA common feature in the maturation of linear dsDNA viruses is that the lengthy viral genome ...
Bacteriophage DNA packaging motors translocate their genomic DNA into viral heads, compacting it to ...
Bacteriophage ø29 utilizes a viral-encoded RNA (pRNA) to insert its genomic DNA into the viral proca...
SummaryRing NTPases are a class of ubiquitous molecular motors involved in basic biological partitio...
motor by addition or discharge of a peptide at N-terminus of connector protein that interacts with p...
The molecular mechanism of scaffolding protein-mediated incorporation of one and only one DNA packag...