Literature DB >> 28729350

Structures of the CRISPR genome integration complex.

Addison V Wright1, Jun-Jie Liu1,2, Gavin J Knott1, Kevin W Doxzen3, Eva Nogales1,2,4, Jennifer A Doudna5,2,3,4,6,7,8.   

Abstract

CRISPR-Cas systems depend on the Cas1-Cas2 integrase to capture and integrate short foreign DNA fragments into the CRISPR locus, enabling adaptation to new viruses. We present crystal structures of Cas1-Cas2 bound to both donor and target DNA in intermediate and product integration complexes, as well as a cryo-electron microscopy structure of the full CRISPR locus integration complex, including the accessory protein IHF (integration host factor). The structures show unexpectedly that indirect sequence recognition dictates integration site selection by favoring deformation of the repeat and the flanking sequences. IHF binding bends the DNA sharply, bringing an upstream recognition motif into contact with Cas1 to increase both the specificity and efficiency of integration. These results explain how the Cas1-Cas2 CRISPR integrase recognizes a sequence-dependent DNA structure to ensure site-selective CRISPR array expansion during the initial step of bacterial adaptive immunity.
Copyright © 2017, American Association for the Advancement of Science.

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Year:  2017        PMID: 28729350      PMCID: PMC5748385          DOI: 10.1126/science.aao0679

Source DB:  PubMed          Journal:  Science        ISSN: 0036-8075            Impact factor:   47.728


  50 in total

1.  CRISPR Immunological Memory Requires a Host Factor for Specificity.

Authors:  James K Nuñez; Lawrence Bai; Lucas B Harrington; Tracey L Hinder; Jennifer A Doudna
Journal:  Mol Cell       Date:  2016-05-19       Impact factor: 17.970

2.  Features and development of Coot.

Authors:  P Emsley; B Lohkamp; W G Scott; K Cowtan
Journal:  Acta Crystallogr D Biol Crystallogr       Date:  2010-03-24

3.  CTFFIND4: Fast and accurate defocus estimation from electron micrographs.

Authors:  Alexis Rohou; Nikolaus Grigorieff
Journal:  J Struct Biol       Date:  2015-08-13       Impact factor: 2.867

4.  Better models by discarding data?

Authors:  K Diederichs; P A Karplus
Journal:  Acta Crystallogr D Biol Crystallogr       Date:  2013-06-15

5.  How good are my data and what is the resolution?

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Journal:  Acta Crystallogr D Biol Crystallogr       Date:  2013-06-13

6.  Ultra-low-input, tagmentation-based whole-genome bisulfite sequencing.

Authors:  Andrew Adey; Jay Shendure
Journal:  Genome Res       Date:  2012-03-30       Impact factor: 9.043

7.  Detection and characterization of spacer integration intermediates in type I-E CRISPR-Cas system.

Authors:  Zihni Arslan; Veronica Hermanns; Reinhild Wurm; Rolf Wagner; Ümit Pul
Journal:  Nucleic Acids Res       Date:  2014-06-11       Impact factor: 16.971

8.  Cas1-Cas2 complex formation mediates spacer acquisition during CRISPR-Cas adaptive immunity.

Authors:  James K Nuñez; Philip J Kranzusch; Jonas Noeske; Addison V Wright; Christopher W Davies; Jennifer A Doudna
Journal:  Nat Struct Mol Biol       Date:  2014-05-04       Impact factor: 15.369

9.  Rapid construction of metabolite biosensors using domain-insertion profiling.

Authors:  Dana C Nadler; Stacy-Anne Morgan; Avi Flamholz; Kaitlyn E Kortright; David F Savage
Journal:  Nat Commun       Date:  2016-07-29       Impact factor: 14.919

10.  Web 3DNA--a web server for the analysis, reconstruction, and visualization of three-dimensional nucleic-acid structures.

Authors:  Guohui Zheng; Xiang-Jun Lu; Wilma K Olson
Journal:  Nucleic Acids Res       Date:  2009-05-27       Impact factor: 16.971
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  50 in total

1.  The structural basis of African swine fever virus pA104R binding to DNA and its inhibition by stilbene derivatives.

Authors:  Ruili Liu; Yeping Sun; Yan Chai; Su Li; Shihua Li; Liang Wang; Jiaqi Su; Shaoxiong Yu; Jinghua Yan; Feng Gao; Gaiping Zhang; Hua-Ji Qiu; George F Gao; Jianxun Qi; Han Wang
Journal:  Proc Natl Acad Sci U S A       Date:  2020-05-01       Impact factor: 11.205

2.  Cas4 Nucleases Define the PAM, Length, and Orientation of DNA Fragments Integrated at CRISPR Loci.

Authors:  Masami Shiimori; Sandra C Garrett; Brenton R Graveley; Michael P Terns
Journal:  Mol Cell       Date:  2018-06-07       Impact factor: 17.970

3.  Spermidine strongly increases the fidelity of Escherichia coli CRISPR Cas1-Cas2 integrase.

Authors:  Pierre Plateau; Clara Moch; Sylvain Blanquet
Journal:  J Biol Chem       Date:  2019-06-06       Impact factor: 5.157

4.  DnaQ exonuclease-like domain of Cas2 promotes spacer integration in a type I-E CRISPR-Cas system.

Authors:  Gediminas Drabavicius; Tomas Sinkunas; Arunas Silanskas; Giedrius Gasiunas; Česlovas Venclovas; Virginijus Siksnys
Journal:  EMBO Rep       Date:  2018-06-11       Impact factor: 8.807

5.  Systematic prediction of genes functionally linked to CRISPR-Cas systems by gene neighborhood analysis.

Authors:  Sergey A Shmakov; Kira S Makarova; Yuri I Wolf; Konstantin V Severinov; Eugene V Koonin
Journal:  Proc Natl Acad Sci U S A       Date:  2018-05-21       Impact factor: 11.205

6.  Multiplex recording of cellular events over time on CRISPR biological tape.

Authors:  Ravi U Sheth; Sung Sun Yim; Felix L Wu; Harris H Wang
Journal:  Science       Date:  2017-11-23       Impact factor: 47.728

7.  A moonlighting nuclease puts CRISPR in its place.

Authors:  C Martin Lawrence
Journal:  J Biol Chem       Date:  2020-03-13       Impact factor: 5.157

Review 8.  How bacteria control the CRISPR-Cas arsenal.

Authors:  Lina M Leon; Senén D Mendoza; Joseph Bondy-Denomy
Journal:  Curr Opin Microbiol       Date:  2017-11-21       Impact factor: 7.934

9.  Bacterial physiology: Making a memory.

Authors:  Ashley York
Journal:  Nat Rev Microbiol       Date:  2017-10-12       Impact factor: 60.633

10.  Spontaneous CRISPR loci generation in vivo by non-canonical spacer integration.

Authors:  Jeff Nivala; Seth L Shipman; George M Church
Journal:  Nat Microbiol       Date:  2018-01-29       Impact factor: 17.745
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