Single-molecule FRET unveils induced-fit mechanism for substrate selectivity in flap endonuclease 1

Single-molecule FRET unveils induced-fit mechanism for substrate selectivity in flap endonuclease 1

Human flap endonuclease 1 (FEN1) and related structure-specific 5’nucleases precisely identify and incise aberrant DNA structures during replication, repair and recombination to avoid genomic instability. Yet, it is unclear how the 5’nuclease mechanisms of DNA distortion and protein ordering robustl...

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Main Authors: Fahad Rashid, Paul D Harris, Manal S Zaher, Mohamed A Sobhy, Luay I Joudeh, Chunli Yan, Hubert Piwonski, Susan E Tsutakawa, Ivaylo Ivanov, John A Tainer, Satoshi Habuchi, Samir M Hamdan
Format: Article
Language:English
Published: eLife Sciences Publications Ltd 2017-02-01
Series:eLife
Subjects:
Human purified proteins
expressed proteins in E. coli
recombinant protein
Online Access:https://elifesciences.org/articles/21884
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spelling doaj-c2bf0645a5a649bf9e61091200d148302021-05-05T13:17:12ZengeLife Sciences Publications LtdeLife2050-084X2017-02-01610.7554/eLife.21884Single-molecule FRET unveils induced-fit mechanism for substrate selectivity in flap endonuclease 1Fahad Rashid0Paul D Harris1Manal S Zaher2Mohamed A Sobhy3Luay I Joudeh4Chunli Yan5Hubert Piwonski6https://orcid.org/0000-0001-8666-3945Susan E Tsutakawa7Ivaylo Ivanov8John A Tainer9Satoshi Habuchi10Samir M Hamdan11https://orcid.org/0000-0001-5192-1852Division of Biological and Environmental Science and Engineering, King Abdullah University of Science and Technology, Thuwal, Saudi ArabiaDivision of Biological and Environmental Science and Engineering, King Abdullah University of Science and Technology, Thuwal, Saudi ArabiaDivision of Biological and Environmental Science and Engineering, King Abdullah University of Science and Technology, Thuwal, Saudi ArabiaDivision of Biological and Environmental Science and Engineering, King Abdullah University of Science and Technology, Thuwal, Saudi ArabiaDivision of Biological and Environmental Science and Engineering, King Abdullah University of Science and Technology, Thuwal, Saudi ArabiaDepartment of Chemistry, Georgia State University, Atlanta, United States; Center for Diagnostics and Therapeutics, Georgia State University, Atlanta, United StatesDivision of Biological and Environmental Science and Engineering, King Abdullah University of Science and Technology, Thuwal, Saudi ArabiaLawrence Berkeley National Laboratory, Berkeley, United StatesDepartment of Chemistry, Georgia State University, Atlanta, United States; Center for Diagnostics and Therapeutics, Georgia State University, Atlanta, United StatesLawrence Berkeley National Laboratory, Berkeley, United States; Department of Molecular and Cellular Oncology, University of Texas MD Anderson Cancer Center, Houston, United StatesDivision of Biological and Environmental Science and Engineering, King Abdullah University of Science and Technology, Thuwal, Saudi ArabiaDivision of Biological and Environmental Science and Engineering, King Abdullah University of Science and Technology, Thuwal, Saudi ArabiaHuman flap endonuclease 1 (FEN1) and related structure-specific 5’nucleases precisely identify and incise aberrant DNA structures during replication, repair and recombination to avoid genomic instability. Yet, it is unclear how the 5’nuclease mechanisms of DNA distortion and protein ordering robustly mediate efficient and accurate substrate recognition and catalytic selectivity. Here, single-molecule sub-millisecond and millisecond analyses of FEN1 reveal a protein-DNA induced-fit mechanism that efficiently verifies substrate and suppresses off-target cleavage. FEN1 sculpts DNA with diffusion-limited kinetics to test DNA substrate. This DNA distortion mutually ‘locks’ protein and DNA conformation and enables substrate verification with extreme precision. Strikingly, FEN1 never misses cleavage of its cognate substrate while blocking probable formation of catalytically competent interactions with noncognate substrates and fostering their pre-incision dissociation. These findings establish FEN1 has practically perfect precision and that separate control of induced-fit substrate recognition sets up the catalytic selectivity of the nuclease active site for genome stability.https://elifesciences.org/articles/21884Human purified proteinsexpressed proteins in E. colirecombinant protein
collection DOAJ
language English
format Article
sources DOAJ
author Fahad Rashid
Paul D Harris
Manal S Zaher
Mohamed A Sobhy
Luay I Joudeh
Chunli Yan
Hubert Piwonski
Susan E Tsutakawa
Ivaylo Ivanov
John A Tainer
Satoshi Habuchi
Samir M Hamdan
spellingShingle Fahad Rashid
Paul D Harris
Manal S Zaher
Mohamed A Sobhy
Luay I Joudeh
Chunli Yan
Hubert Piwonski
Susan E Tsutakawa
Ivaylo Ivanov
John A Tainer
Satoshi Habuchi
Samir M Hamdan
Single-molecule FRET unveils induced-fit mechanism for substrate selectivity in flap endonuclease 1
eLife
Human purified proteins
expressed proteins in E. coli
recombinant protein
author_facet Fahad Rashid
Paul D Harris
Manal S Zaher
Mohamed A Sobhy
Luay I Joudeh
Chunli Yan
Hubert Piwonski
Susan E Tsutakawa
Ivaylo Ivanov
John A Tainer
Satoshi Habuchi
Samir M Hamdan
author_sort Fahad Rashid
title Single-molecule FRET unveils induced-fit mechanism for substrate selectivity in flap endonuclease 1
title_short Single-molecule FRET unveils induced-fit mechanism for substrate selectivity in flap endonuclease 1
title_full Single-molecule FRET unveils induced-fit mechanism for substrate selectivity in flap endonuclease 1
title_fullStr Single-molecule FRET unveils induced-fit mechanism for substrate selectivity in flap endonuclease 1
title_full_unstemmed Single-molecule FRET unveils induced-fit mechanism for substrate selectivity in flap endonuclease 1
title_sort single-molecule fret unveils induced-fit mechanism for substrate selectivity in flap endonuclease 1
publisher eLife Sciences Publications Ltd
series eLife
issn 2050-084X
publishDate 2017-02-01
description Human flap endonuclease 1 (FEN1) and related structure-specific 5’nucleases precisely identify and incise aberrant DNA structures during replication, repair and recombination to avoid genomic instability. Yet, it is unclear how the 5’nuclease mechanisms of DNA distortion and protein ordering robustly mediate efficient and accurate substrate recognition and catalytic selectivity. Here, single-molecule sub-millisecond and millisecond analyses of FEN1 reveal a protein-DNA induced-fit mechanism that efficiently verifies substrate and suppresses off-target cleavage. FEN1 sculpts DNA with diffusion-limited kinetics to test DNA substrate. This DNA distortion mutually ‘locks’ protein and DNA conformation and enables substrate verification with extreme precision. Strikingly, FEN1 never misses cleavage of its cognate substrate while blocking probable formation of catalytically competent interactions with noncognate substrates and fostering their pre-incision dissociation. These findings establish FEN1 has practically perfect precision and that separate control of induced-fit substrate recognition sets up the catalytic selectivity of the nuclease active site for genome stability.
topic Human purified proteins
expressed proteins in E. coli
recombinant protein
url https://elifesciences.org/articles/21884
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