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PDBsum entry 1unn
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Contents |
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* Residue conservation analysis
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References listed in PDB file
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Key reference
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Title
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Structural basis for recruitment of translesion DNA polymerase pol IV/dinb to the beta-Clamp.
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Authors
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K.A.Bunting,
S.M.Roe,
L.H.Pearl.
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Ref.
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Embo J, 2003,
22,
5883-5892.
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PubMed id
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Abstract
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Y-family DNA polymerases can extend primer strands across template strand
lesions that stall replicative polymerases. The poor processivity and fidelity
of these enzymes, key to their biological role, requires that their access to
the primer-template junction is both facilitated and regulated in order to
minimize mutations. These features are believed to be provided by interaction
with processivity factors, beta-clamp or proliferating cell nuclear antigen
(PCNA), which are also essential for the function of replicative DNA
polymerases. The basis for this interaction is revealed by the crystal structure
of the complex between the 'little finger' domain of the Y-family DNA polymerase
Pol IV and the beta-clamp processivity factor, both from Escherichia coli. The
main interaction involves a C-terminal peptide of Pol IV, and is similar to
interactions seen between isolated peptides and other processivity factors.
However, this first structure of an entire domain of a binding partner with an
assembled clamp reveals a substantial secondary interface, which maintains the
polymerase in an inactive orientation, and may regulate the switch between
replicative and Y-family DNA polymerases in response to a template strand lesion.
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