Richard A. Wing scite author profile

Summary DNA polymerases can only synthesize nascent DNA from single-stranded DNA (ssDNA) templates. In bacteria, the unwinding of parental duplex DNA is carried out by the replicative DNA helicase (DnaB) that couples NTP hydrolysis to 5′-to-3′ translocation. The crystal structure of the DnaB hexamer in complex with GDP-AlF4 and ssDNA reported here reveals that DnaB adopts a closed spiral staircase quaternary structure around an A-form ssDNA with each C-terminal domain coordinating two nucleotides of ssDNA. The structure not only provides structural insights into the translocation mechanism of superfamily IV helicases, but also suggests that members of this superfamily employ a translocation mechanism that is distinct from other helicase superfamilies. We propose a hand-over-hand mechanism in which sequential hydrolysis of NTP causes a sequential 5′-to-3′ movement of the subunits along the helical axis of the staircase, resulting in the unwinding of two nucleotides per subunit.

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The Structure of T. aquaticus DNA Polymerase III Is Distinct from Eukaryotic Replicative DNA Polymerases

Bailey

Wing

Steitz

2006

Cell

123

164

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The crystal structure of Thermus aquaticus DNA polymerase III alpha subunit reveals that the structure of the catalytic domain of the eubacterial replicative polymerase is unrelated to that of the eukaryotic replicative polymerase but rather belongs to the Polbeta-like nucleotidyltransferase superfamily. A model of the polymerase complexed with both DNA and beta-sliding clamp interacting with a reoriented binding domain and internal beta binding site was constructed that is consistent with existing biochemical data. Within the crystal, two C-terminal domains are interacting through a surface that is larger than many dimer interfaces. Since replicative polymerases of eubacteria and eukaryotes/archaea are not homologous, the nature of the replicative polymerase in the last common ancestor is unknown. Although other possibilities have been proposed, the plausibility of a ribozyme DNA polymerase should be considered.

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Insights into the Replisome from the Structure of a Ternary Complex of the DNA Polymerase III α-Subunit

Wing

Bailey

Steitz

2008

Journal of Molecular Biology

118

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SummaryThe crystal structure of the catalytic subunit of the DNA Polymerase III holoenzyme (PolIIIα) bound to primer-template DNA and an incoming deoxynucleoside triphosphate has been determined at 4.6 Å resolution. The polymerase interacts with the sugar phosphate backbone of the DNA across its minor groove, which is made possible by significant movements of the thumb, fingers and β-binding domains relative to their orientations in the unliganded polymerase structure. Additionally, the DNA and incoming nucleotide are bound to the active site of PolIIIα nearly identically as they are in their complex with DNA polymerase β(Polβ), thereby proving that the eubacterial replicating polymerase is homologous to Polβ, but not the eukaryotic replicating polymerases. Finally, superimposing a recent structure of the clamp bound to DNA on this PolIIIα complex with DNA places a loop of the β-binding domain into the appropriate clamp cleft and supports a mechanism of polymerase switching.

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Microtubule-associated protein 2 (MAP2) associates with the NMDA receptor and is spatially redistributed within rat hippocampal neurons after oxygen-glucose deprivation

et al. 2003

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Diamonds in the rough: a strong case for the inclusion of weak-intensity X-ray diffraction data

Wang¹,

Wing²

2014

Acta Cryst D Biol Crystallogr

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Overwhelming evidence exists to show that the inclusion of weak-intensity, high-resolution X-ray diffraction data helps improve the refinement of atomic models by imposing strong constraints on individual and overall temperature B factors and thus the quality of crystal structures. Some researchers consider these data to be of little value and opt to discard them during data processing, particularly at medium and low resolution, at which individual B factors of atomic models cannot be refined. Here, new evidence is provided to show that the inclusion of these data helps to improve the quality of experimental phases by imposing proper constraints on electron-density models during noncrystallographic symmetry (NCS) averaging. Using electron-density correlation coefficients as criteria, the resolution of data has successfully been extended from 3.1 to 2.5 Å resolution with redundancy-independent merging R factors from below 100% to about 310%. It is further demonstrated that phase information can be fully extracted from observed amplitudes through de novo NCS averaging. Averaging starts with uniform density inside double-shelled spherical masks and NCS matrices that are derived from bound heavy-atom clusters at the vertices of cuboctahedrally symmetric protein particles.

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Richard A. Wing

The Hexameric Helicase DnaB Adopts a Nonplanar Conformation during Translocation

The Structure of T. aquaticus DNA Polymerase III Is Distinct from Eukaryotic Replicative DNA Polymerases

Insights into the Replisome from the Structure of a Ternary Complex of the DNA Polymerase III α-Subunit

Microtubule-associated protein 2 (MAP2) associates with the NMDA receptor and is spatially redistributed within rat hippocampal neurons after oxygen-glucose deprivation

Diamonds in the rough: a strong case for the inclusion of weak-intensity X-ray diffraction data

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