Improved Genome Editing Efficiency and Flexibility Using Modified Oligonucleotides with TALEN and CRISPR-Cas9 Nucleases

被引:217
作者
Renaud, Jean-Baptiste [1 ]
Boix, Charlotte [1 ]
Charpentier, Marine [1 ]
De Cian, Anne [1 ]
Cochennec, Julien [1 ]
Duvernois-Berthet, Evelyne [1 ]
Perrouault, Loic [1 ]
Tesson, Laurent [2 ,3 ]
Edouard, Joanne [5 ]
Thinard, Reynald [2 ,3 ]
Cherifi, Yacine [4 ]
Menoret, Severine [2 ,3 ]
Fontaniere, Sandra [4 ]
De Croze, Noemie [5 ]
Fraichard, Alexandre [4 ]
Sohm, Frederic [5 ]
Anegon, Ignacio [2 ,3 ]
Concordet, Jean-Paul [1 ]
Giovannangeli, Carine [1 ]
机构
[1] CNRS, INSERM, Museum Natl Hist Nat, U1154,UMR7196, F-75005 Paris, France
[2] CHU Nantes, INSERM, U1064, F-44093 Nantes, France
[3] CNRS, Platform Rat Transgenesis Immunophen, UMS3556, F-44093 Nantes, France
[4] genOway, F-69007 Lyon, France
[5] CNRS, INRA, Inst Neurobiol A Fessard, Amagen,UMS 3504,UMS 1374, F-91198 Gif Sur Yvette, France
来源
CELL REPORTS | 2016年 / 14卷 / 09期
关键词
ZINC-FINGER NUCLEASES; DONOR DNA; CELLS; MICROHOMOLOGY; SYSTEM; REPAIR; GUIDE; ENDONUCLEASE; CRISPR/CAS9; PLATFORM;
D O I
10.1016/j.celrep.2016.02.018
中图分类号
Q2 [细胞生物学];
学科分类号
071009 ; 090102 ;
摘要
Genome editing has now been reported in many systems using TALEN and CRISPR-Cas9 nucleases. Precise mutations can be introduced during homology-directed repair with donor DNA carrying the wanted sequence edit, but efficiency is usually lower than for gene knockout and optimal strategies have not been extensively investigated. Here, we show that using phosphorothioate-modified oligonucleotides strongly enhances genome editing efficiency of single-stranded oligonucleotide donors in cultured cells. In addition, it provides better design flexibility, allowing insertions more than 100 bp long. Despite previous reports of phosphorothioate-modified oligonucleotide toxicity, clones of edited cells are readily isolated and targeted sequence insertions are achieved in rats and mice with very high frequency, allowing for homozygous loxP site insertion at the mouse ROSA locus in particular. Finally, when detected, imprecise knockin events exhibit indels that are asymmetrically positioned, consistent with genome editing taking place by two steps of single-strand annealing.
引用
收藏
页码:2263 / 2272
页数:10
相关论文
共 36 条
[1]   Microhomology-based choice of Cas9 nuclease target sites [J].
Bae, Sangsu ;
Kweon, Jiyeon ;
Kim, Heon Seok ;
Kim, Jin-Soo .
NATURE METHODS, 2014, 11 (07) :705-706
[2]   In vivo genome editing using a high-efficiency TALEN system [J].
Bedell, Victoria M. ;
Wang, Ying ;
Campbell, Jarryd M. ;
Poshusta, Tanya L. ;
Starker, Colby G. ;
Krug, Randall G., II ;
Tan, Wenfang ;
Penheiter, Sumedha G. ;
Ma, Alvin C. ;
Leung, Anskar Y. H. ;
Fahrenkrug, Scott C. ;
Carlson, Daniel F. ;
Voytas, Daniel F. ;
Clark, Karl J. ;
Essner, Jeffrey J. ;
Ekker, Stephen C. .
NATURE, 2012, 491 (7422) :114-U133
[3]   Donor DNA Utilization During Gene Targeting with Zinc-Finger Nucleases [J].
Beumer, Kelly J. ;
Trautman, Jonathan K. ;
Mukherjee, Kusumika ;
Carroll, Dana .
G3-GENES GENOMES GENETICS, 2013, 3 (04) :657-664
[4]   Talking about a revolution: The impact of site-specific recombinases on genetic analyses in mice [J].
Branda, CS ;
Dymecki, SM .
DEVELOPMENTAL CELL, 2004, 6 (01) :7-28
[5]   Genome engineering with TALENs and ZFNs: Repair pathways and donor design [J].
Carroll, Dana ;
Beumer, Kelly J. .
METHODS, 2014, 69 (02) :137-141
[6]   High-frequency genome editing using ssDNA oligonucleotides with zinc-finger nucleases [J].
Chen, Fuqiang ;
Pruett-Miller, Shondra M. ;
Huang, Yuping ;
Gjoka, Monika ;
Duda, Katarzyna ;
Taunton, Jack ;
Collingwood, Trevor N. ;
Frodin, Morten ;
Davis, Gregory D. .
NATURE METHODS, 2011, 8 (09) :753-U96
[7]   Targeted sequencing by proximity ligation for comprehensive variant detection and local haplotyping [J].
de Vree, Paula J. P. ;
de Wit, Elzo ;
Yilmaz, Mehmet ;
de Heijning, Monique van ;
Klous, Petra ;
Verstegen, Marjon J. A. M. ;
Wan, Yi ;
Teunissen, Hans ;
Krijger, Peter H. L. ;
Geeven, Geert ;
Eijk, Paul P. ;
Sie, Daoud ;
Ylstra, Bauke ;
Hulsman, Lorette O. M. ;
van Dooren, Marieke F. ;
van Zutven, Laura J. C. M. ;
van den Ouweland, Ans ;
Verbeek, Sjef ;
van Dijk, Ko Willems ;
Cornelissen, Marion ;
Das, Atze T. ;
Ben Berkhout ;
Sikkema-Raddatz, Birgit ;
van den Berg, Eva ;
van der Vlies, Pieter ;
Weening, Desiree ;
den Dunnen, Johan T. ;
Matusiak, Magdalena ;
Lamkanfi, Mohamed ;
Ligtenberg, Marjolijn J. L. ;
ter Brugge, Petra ;
Jonkers, Jos ;
Foekens, John A. ;
Martens, John W. ;
van der Luijt, Rob ;
van Amstel, Hans Kristian Ploos ;
van Min, Max ;
Splinter, Erik ;
de Laat, Wouter .
NATURE BIOTECHNOLOGY, 2014, 32 (10) :1019-+
[8]   HCoDES Reveals Chromosomal DNA End Structures with Single-Nucleotide Resolution [J].
Dorsett, Yair ;
Zhou, Yanjiao ;
Tubbs, Anthony T. ;
Chen, Bo-Ruei ;
Purman, Caitlin ;
Lee, Baeck-Seung ;
George, Rosmy ;
Bredemeyer, Andrea L. ;
Zhao, Jiang-yang ;
Sodergen, Erica ;
Weinstock, George M. ;
Han, Nathan D. ;
Reyes, Alejandro ;
Oltz, Eugene M. ;
Dorsett, Dale ;
Misulovin, Ziva ;
Payton, Jacqueline E. ;
Sleckman, Barry P. .
MOLECULAR CELL, 2014, 56 (06) :808-818
[9]   Phosphorothioate oligodeoxynucleotides: What is their origin and what is unique about them? [J].
Eckstein, F .
ANTISENSE & NUCLEIC ACID DRUG DEVELOPMENT, 2000, 10 (02) :117-121
[10]   Efficient Mutagenesis by Cas9 Protein-Mediated Oligonucleotide Insertion and Large-Scale Assessment of Single-Guide RNAs [J].
Gagnon, James A. ;
Valen, Eivind ;
Thyme, Summer B. ;
Huang, Peng ;
Ahkmetova, Laila ;
Pauli, Andrea ;
Montague, Tessa G. ;
Zimmerman, Steven ;
Richter, Constance ;
Schier, Alexander F. .
PLOS ONE, 2014, 9 (05)
1234