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PDBsum entry 2zj5
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References listed in PDB file
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Key reference
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Title
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Atomic structures and functional implications of the archaeal recq-Like helicase hjm.
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Authors
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T.Oyama,
H.Oka,
K.Mayanagi,
T.Shirai,
K.Matoba,
R.Fujikane,
Y.Ishino,
K.Morikawa.
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Ref.
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Bmc Struct Biol, 2009,
9,
2-2.
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PubMed id
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Abstract
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BACKGROUND: Pyrococcus furiosus Hjm (PfuHjm) is a structure-specific DNA
helicase that was originally identified by in vitro screening for Holliday
junction migration activity. It belongs to helicase superfamily 2, and shares
homology with the human DNA polymerase Theta (PolTheta), HEL308, and Drosophila
Mus308 proteins, which are involved in DNA repair. Previous biochemical and
genetic analyses revealed that PfuHjm preferentially binds to fork-related
Y-structured DNAs and unwinds their double-stranded regions, suggesting that
this helicase is a functional counterpart of the bacterial RecQ helicase, which
is essential for genome maintenance. Elucidation of the DNA unwinding and
translocation mechanisms by PfuHjm will require its three-dimensional structure
at atomic resolution. RESULTS: We determined the crystal structures of PfuHjm,
in two apo-states and two nucleotide bound forms, at resolutions of 2.0-2.7 A.
The overall structures and the local conformations around the nucleotide binding
sites are almost the same, including the side-chain conformations, irrespective
of the nucleotide-binding states. The architecture of Hjm was similar to that of
Archaeoglobus fulgidus Hel308 complexed with DNA. An Hjm-DNA complex model,
constructed by fitting the five domains of Hjm onto the corresponding Hel308
domains, indicated that the interaction of Hjm with DNA is similar to that of
Hel308. Notably, sulphate ions bound to Hjm lie on the putative DNA binding
surfaces. Electron microscopic analysis of an Hjm-DNA complex revealed
substantial flexibility of the double stranded region of DNA, presumably due to
particularly weak protein-DNA interactions. Our present structures allowed
reasonable homology model building of the helicase region of human PolTheta,
indicating the strong conformational conservation between archaea and eukarya.
CONCLUSION: The detailed comparison between our DNA-free PfuHjm structure and
the structure of Hel308 complexed with DNA suggests similar DNA unwinding and
translocation mechanisms, which could be generalized to all of the members in
the same family. Structural comparison also implied a minor rearrangement of the
five domains during DNA unwinding reaction. The unexpected small contact between
the DNA duplex region and the enzyme appears to be advantageous for processive
helicase activity.
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