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Phosphate steering by Flap Endonuclease 1 promotes 5′-flap specificity and incision to prevent genome instability

Author

Listed:
  • Susan E. Tsutakawa

    (Molecular Biophysics and Integrated Bioimaging, Lawrence Berkeley National Laboratory)

  • Mark J. Thompson

    (Centre for Chemical Biology, Sheffield Institute for Nucleic Acids (SInFoNiA), University of Sheffield)

  • Andrew S. Arvai

    (The Scripps Research Institute)

  • Alexander J. Neil

    (Tufts University)

  • Steven J. Shaw

    (Centre for Chemical Biology, Sheffield Institute for Nucleic Acids (SInFoNiA), University of Sheffield)

  • Sana I. Algasaier

    (Centre for Chemical Biology, Sheffield Institute for Nucleic Acids (SInFoNiA), University of Sheffield)

  • Jane C. Kim

    (Tufts University)

  • L. David Finger

    (Centre for Chemical Biology, Sheffield Institute for Nucleic Acids (SInFoNiA), University of Sheffield)

  • Emma Jardine

    (Centre for Chemical Biology, Sheffield Institute for Nucleic Acids (SInFoNiA), University of Sheffield)

  • Victoria J.B. Gotham

    (Centre for Chemical Biology, Sheffield Institute for Nucleic Acids (SInFoNiA), University of Sheffield)

  • Altaf H. Sarker

    (Biological Systems and Engineering, Lawrence Berkeley National Laboratory)

  • Mai Z. Her

    (Molecular Biophysics and Integrated Bioimaging, Lawrence Berkeley National Laboratory)

  • Fahad Rashid

    (King Abdullah University of Science and Technology)

  • Samir M. Hamdan

    (King Abdullah University of Science and Technology)

  • Sergei M. Mirkin

    (Tufts University)

  • Jane A. Grasby

    (Centre for Chemical Biology, Sheffield Institute for Nucleic Acids (SInFoNiA), University of Sheffield)

  • John A. Tainer

    (Molecular Biophysics and Integrated Bioimaging, Lawrence Berkeley National Laboratory
    The University of Texas M.D. Anderson Cancer Center)

Abstract

DNA replication and repair enzyme Flap Endonuclease 1 (FEN1) is vital for genome integrity, and FEN1 mutations arise in multiple cancers. FEN1 precisely cleaves single-stranded (ss) 5′-flaps one nucleotide into duplex (ds) DNA. Yet, how FEN1 selects for but does not incise the ss 5′-flap was enigmatic. Here we combine crystallographic, biochemical and genetic analyses to show that two dsDNA binding sites set the 5′polarity and to reveal unexpected control of the DNA phosphodiester backbone by electrostatic interactions. Via ‘phosphate steering’, basic residues energetically steer an inverted ss 5′-flap through a gateway over FEN1’s active site and shift dsDNA for catalysis. Mutations of these residues cause an 18,000-fold reduction in catalytic rate in vitro and large-scale trinucleotide (GAA)n repeat expansions in vivo, implying failed phosphate-steering promotes an unanticipated lagging-strand template-switch mechanism during replication. Thus, phosphate steering is an unappreciated FEN1 function that enforces 5′-flap specificity and catalysis, preventing genomic instability.

Suggested Citation

  • Susan E. Tsutakawa & Mark J. Thompson & Andrew S. Arvai & Alexander J. Neil & Steven J. Shaw & Sana I. Algasaier & Jane C. Kim & L. David Finger & Emma Jardine & Victoria J.B. Gotham & Altaf H. Sarker, 2017. "Phosphate steering by Flap Endonuclease 1 promotes 5′-flap specificity and incision to prevent genome instability," Nature Communications, Nature, vol. 8(1), pages 1-15, August.
    • Handle: RePEc:nat:natcom:v:8:y:2017:i:1:d:10.1038_ncomms15855
    DOI: 10.1038/ncomms15855
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    Cited by:

    1. Jina Yu & Chunli Yan & Tanmoy Paul & Lucas Brewer & Susan E. Tsutakawa & Chi-Lin Tsai & Samir M. Hamdan & John A. Tainer & Ivaylo Ivanov, 2024. "Molecular architecture and functional dynamics of the pre-incision complex in nucleotide excision repair," Nature Communications, Nature, vol. 15(1), pages 1-15, December.

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