Add to ORKGThe bacteriophage phi29 DNA packaging motor, one of the strongest biological motors characterized to date, is geared by a packaging RNA (pRNA) ring. When assembled from three RNA fragments, its three-way junction (3WJ) motif is highly thermostable, is resistant to 8 M urea, and remains associated at extremely low concentrations in vitro and in vivo. To elucidate the structural basis for its unusual stability, we solved the crystal structure of this pRNA 3WJ motif at 3.05 Å. The structure revealed two divalent metal ions that coordinate 4 nt of the RNA fragments. Single-molecule fluorescence resonance energy transfer (smFRET) analysis confirmed a structural change of 3WJ upon addition of Mg²⁺. The reported pRNA 3WJ conformation is different ...
Bacteriophage ø29 utilizes a viral-encoded RNA (pRNA) to insert its genomic DNA into the viral proca...
During assembly, bacterial virus phi29 utilizes a motor to insert genomic DNA into a preformed prote...
A feature shared by all linear dsDNA viruses is that during their maturation, their genomes are tran...
The bacteriophage phi29 DNA packaging motor, one of the strongest biological motors characterized to...
The condensation of bacteriophage phi29 genomic DNA into its preformed procapsid requires the DNA pa...
The molecular motor exploited by bacteriophage φ29 to pack DNA into its capsid is regarded as one of...
Bacteriophage phi29 packages its double stranded genomic DNA-gp3 into a preformed procapsid during r...
DNA packaging in the bacteriophage f29 involves a molecular motor with protein and RNA components, i...
Bacteriophage DNA packaging motors translocate their genomic DNA into viral heads, compacting it to ...
Bacteriophage DNA packaging motors translocate their genomic DNA into viral heads, compacting it to ...
ABSTRACT: The emerging field of RNA nanotechnology necessitates creation of functional RNA nanoparti...
The emerging field of RNA nanotechnology necessitates creation of functional RNA nanoparticles, but ...
The double-stranded-DNA bacteriophages employ powerful molecular motors to translocate genomic DNA i...
SummaryCryo-electron microscopy (cryo-EM) studies of the bacteriophage ϕ29 DNA packaging motor have ...
RNA nanotechnology is rapidly emerging. Due to advantageous pharmacokinetics and favorable in vivo b...
Bacteriophage ø29 utilizes a viral-encoded RNA (pRNA) to insert its genomic DNA into the viral proca...
During assembly, bacterial virus phi29 utilizes a motor to insert genomic DNA into a preformed prote...
A feature shared by all linear dsDNA viruses is that during their maturation, their genomes are tran...
The bacteriophage phi29 DNA packaging motor, one of the strongest biological motors characterized to...
The condensation of bacteriophage phi29 genomic DNA into its preformed procapsid requires the DNA pa...
The molecular motor exploited by bacteriophage φ29 to pack DNA into its capsid is regarded as one of...
Bacteriophage phi29 packages its double stranded genomic DNA-gp3 into a preformed procapsid during r...
DNA packaging in the bacteriophage f29 involves a molecular motor with protein and RNA components, i...
Bacteriophage DNA packaging motors translocate their genomic DNA into viral heads, compacting it to ...
Bacteriophage DNA packaging motors translocate their genomic DNA into viral heads, compacting it to ...
ABSTRACT: The emerging field of RNA nanotechnology necessitates creation of functional RNA nanoparti...
The emerging field of RNA nanotechnology necessitates creation of functional RNA nanoparticles, but ...
The double-stranded-DNA bacteriophages employ powerful molecular motors to translocate genomic DNA i...
SummaryCryo-electron microscopy (cryo-EM) studies of the bacteriophage ϕ29 DNA packaging motor have ...
RNA nanotechnology is rapidly emerging. Due to advantageous pharmacokinetics and favorable in vivo b...
Bacteriophage ø29 utilizes a viral-encoded RNA (pRNA) to insert its genomic DNA into the viral proca...
During assembly, bacterial virus phi29 utilizes a motor to insert genomic DNA into a preformed prote...
A feature shared by all linear dsDNA viruses is that during their maturation, their genomes are tran...