AbstractThe structure of the DNA polymerase from bacteriophage φ29 (Kamtekar et al., 2004), which uses a protein instead of RNA as a primer and is also highly processive, illuminates the elaborations upon the conserved polymerase module that confer these properties
AbstractTo minimize the large number of mispairs during genome duplication owing to the large amount...
International audienceReplicative DNA polymerases are nano-machines essential to life, which have ev...
SummaryThe crystal structure of Thermus aquaticus DNA polymerase III α subunit reveals that the stru...
AbstractThe structure of the DNA polymerase from bacteriophage φ29 (Kamtekar et al., 2004), which us...
AbstractReplicative DNA polymerases are highly processive enzymes that polymerize thousands of nucle...
AbstractTo minimize the large number of mispairs during genome duplication owing to the large amount...
DNA replication mechanisms are conserved across all organisms. The proteins required to initiate, co...
DNA replication mechanisms are conserved across all organisms. The proteins required to initiate, co...
AbstractWe describe the 2.6 Å resolution crystal structure of RB69 DNA polymerase with primer-templa...
The requirement of DNA polymerases for a 30-hydroxyl (30-OH) group to prime DNA synthesis raised the...
In all known cellular organisms, from the smallest bacteria to the tallest of trees, DNA stores the ...
AbstractWe have solved the crystal structures of the bacteriophage RB69 sliding clamp, its complex w...
Organisms that span evolutionary space utilize an assembly of proteins (the replicase) in a coordina...
SummaryBacterial replicative DNA polymerases such as Polymerase III (Pol III) share no sequence simi...
AbstractDNA polymerases require tethering to an accessory factor, typically a ring-shaped clamp, to ...
AbstractTo minimize the large number of mispairs during genome duplication owing to the large amount...
International audienceReplicative DNA polymerases are nano-machines essential to life, which have ev...
SummaryThe crystal structure of Thermus aquaticus DNA polymerase III α subunit reveals that the stru...
AbstractThe structure of the DNA polymerase from bacteriophage φ29 (Kamtekar et al., 2004), which us...
AbstractReplicative DNA polymerases are highly processive enzymes that polymerize thousands of nucle...
AbstractTo minimize the large number of mispairs during genome duplication owing to the large amount...
DNA replication mechanisms are conserved across all organisms. The proteins required to initiate, co...
DNA replication mechanisms are conserved across all organisms. The proteins required to initiate, co...
AbstractWe describe the 2.6 Å resolution crystal structure of RB69 DNA polymerase with primer-templa...
The requirement of DNA polymerases for a 30-hydroxyl (30-OH) group to prime DNA synthesis raised the...
In all known cellular organisms, from the smallest bacteria to the tallest of trees, DNA stores the ...
AbstractWe have solved the crystal structures of the bacteriophage RB69 sliding clamp, its complex w...
Organisms that span evolutionary space utilize an assembly of proteins (the replicase) in a coordina...
SummaryBacterial replicative DNA polymerases such as Polymerase III (Pol III) share no sequence simi...
AbstractDNA polymerases require tethering to an accessory factor, typically a ring-shaped clamp, to ...
AbstractTo minimize the large number of mispairs during genome duplication owing to the large amount...
International audienceReplicative DNA polymerases are nano-machines essential to life, which have ev...
SummaryThe crystal structure of Thermus aquaticus DNA polymerase III α subunit reveals that the stru...
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