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PDBsum entry 3ez5
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Transferase/DNA
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PDB id
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3ez5
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References listed in PDB file
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Key reference
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Title
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The mechanism of the translocation step in DNA replication by DNA polymerase i: a computer simulation analysis.
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Authors
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A.A.Golosov,
J.J.Warren,
L.S.Beese,
M.Karplus.
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Ref.
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Structure, 2010,
18,
83-93.
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PubMed id
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Abstract
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High-fidelity DNA polymerases copy DNA rapidly and accurately by adding correct
deoxynucleotide triphosphates to a growing primer strand of DNA. Following
nucleotide incorporation, a series of conformational changes translocate the DNA
substrate by one base pair step, readying the polymerase for the next round of
incorporation. Molecular dynamics simulations indicate that the translocation
consists globally of a polymerase fingers-opening transition, followed by the
DNA displacement and the insertion of the template base into the preinsertion
site. They also show that the pyrophosphate release facilitates the opening
transition and that the universally conserved Y714 plays a key role in coupling
polymerase opening to DNA translocation. The transition involves several
metastable intermediates in one of which the O helix is bent in the vicinity of
G711. Completion of the translocation appears to require a gating motion of the
O1 helix, perhaps facilitated by the presence of G715. These roles are
consistent with the high level of conservation of Y714 and the two glycine
residues at these positions. It is likely that a corresponding mechanism is
applicable to other polymerases.
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