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Visualizing DNA replication in a catalytically active Bacillus DNA polymerase crystal

Author

Listed:
  • James R. Kiefer

    (Duke University Medical Center)

  • Chen Mao

    (Duke University Medical Center)

  • Jeffrey C. Braman

    (Stratagene)

  • Lorena S. Beese

    (Duke University Medical Center)

Abstract

DNA polymerases copy DNA templates with remarkably high fidelity, checking for correct base-pair formation both at nucleotide insertion and at subsequent DNA extension steps1,2,3. Despite extensive biochemical, genetic and structural studies2,4 the mechanism by which nucleotides are correctly incorporated is not known. Here we present high-resolution crystal structures of a thermostable bacterial (Bacillus stearothermophilus) DNA polymerase I large fragment5 with DNA primer templates bound productively at the polymerase active site. The active site retains catalytic activity, allowing direct observation of the products of several rounds of nucleotide incorporation. The polymerase also retains its ability to discriminate between correct and incorrectly paired nucleotides in the crystal. Comparison of the structures of successively translocated complexes allows the structural features for the sequence-independent molecular recognition of correctly formed base pairs to be deduced unambiguously. These include extensive interactions with the first four to five base pairs in the minor groove, location of the terminal base pair in a pocket of excellent steric complementarity favouring correct base-pair formation, and a conformational switch from B-form to underwound A-form DNA at the polymerase active site.

Suggested Citation

  • James R. Kiefer & Chen Mao & Jeffrey C. Braman & Lorena S. Beese, 1998. "Visualizing DNA replication in a catalytically active Bacillus DNA polymerase crystal," Nature, Nature, vol. 391(6664), pages 304-307, January.
  • Handle: RePEc:nat:nature:v:391:y:1998:i:6664:d:10.1038_34693
    DOI: 10.1038/34693
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    Cited by:

    1. Caleb Chang & Christie Lee Luo & Yang Gao, 2022. "In crystallo observation of three metal ion promoted DNA polymerase misincorporation," Nature Communications, Nature, vol. 13(1), pages 1-11, December.

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