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PDBsum entry 3f1v
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References listed in PDB file
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Key reference
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Title
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Sliding clamp-Dna interactions are required for viability and contribute to DNA polymerase management in escherichia coli.
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Authors
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J.M.Heltzel,
S.K.Scouten ponticelli,
L.H.Sanders,
J.M.Duzen,
V.Cody,
J.Pace,
E.H.Snell,
M.D.Sutton.
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Ref.
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J Mol Biol, 2009,
387,
74-91.
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PubMed id
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Abstract
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Sliding clamp proteins topologically encircle DNA and play vital roles in
coordinating the actions of various DNA replication, repair, and damage
tolerance proteins. At least three distinct surfaces of the Escherichia coli
beta clamp interact physically with the DNA that it topologically encircles. We
utilized mutant beta clamp proteins bearing G66E and G174A substitutions
(beta159), affecting the single-stranded DNA-binding region, or poly-Ala
substitutions in place of residues 148-HQDVR-152 (beta(148-152)), affecting the
double-stranded DNA binding region, to determine the biological relevance of
clamp-DNA interactions. As part of this work, we solved the X-ray crystal
structure of beta(148-152), which verified that the poly-Ala substitutions
failed to significantly alter the tertiary structure of the clamp. Based on
functional assays, both beta159 and beta(148-152) were impaired for loading and
retention on a linear primed DNA in vitro. In the case of beta(148-152), this
defect was not due to altered interactions with the DnaX clamp loader, but
rather was the result of impaired beta(148-152)-DNA interactions. Once loaded,
beta(148-152) was proficient for DNA polymerase III (Pol III) replication in
vitro. In contrast, beta(148-152) was severely impaired for Pol II and Pol IV
replication and was similarly impaired for direct physical interactions with
these Pols. Despite its ability to support Pol III replication in vitro,
beta(148-152) was unable to support viability of E. coli. Nevertheless,
physiological levels of beta(148-152) expressed from a plasmid efficiently
complemented the temperature-sensitive growth phenotype of a strain expressing
beta159 (dnaN159), provided that Pol II and Pol IV were inactivated. Although
this strain was impaired for Pol V-dependent mutagenesis, inactivation of Pol II
and Pol IV restored the Pol V mutator phenotype. Taken together, these results
support a model in which a sophisticated combination of competitive clamp-DNA,
clamp-partner, and partner-DNA interactions serve to manage the actions of the
different E. coli Pols in vivo.
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