Advances and perspectives on the use of CRISPR/Cas9 systems in plant genomics research

Current Opinion in Plant Biology
Degao LiuXiaohan Yang

Abstract

Genome editing with site-specific nucleases has become a powerful tool for functional characterization of plant genes and genetic improvement of agricultural crops. Among the various site-specific nuclease-based technologies available for genome editing, the clustered regularly interspaced short palindromic repeat (CRISPR)/CRISPR-associated protein 9 (Cas9) systems have shown the greatest potential for rapid and efficient editing of genomes in plant species. This article reviews the current status of application of CRISPR/Cas9 to plant genomics research, with a focus on loss-of-function and gain-of-function analysis of individual genes in the context of perennial plants and the potential application of CRISPR/Cas9 to perturbation of gene expression, and identification and analysis of gene modules as part of an accelerated domestication and synthetic biology effort.

References

Apr 4, 1998·Plant Molecular Biology·E E KarrerC A Holt
Jun 6, 1998·Proceedings of the National Academy of Sciences of the United States of America·W J HuV L Chiang
Apr 12, 2000·Plant Physiology·D WeigelJ Chory
Nov 9, 2000·The Plant Journal : for Cell and Molecular Biology·F L TakkenM H Joosten
Aug 2, 2003·Science·José M AlonsoJoseph R Ecker
Oct 25, 2003·Nucleic Acids Research·Sabine Tornow, H W Mewes
Jan 28, 2006·Science·Arthur J RagauskasTimothy Tschaplinski
May 12, 2007·Plant Cell Reports·Leland J CsekeGopi K Podila
Aug 30, 2008·Current Opinion in Biotechnology·Xuewei WangChristina Chan
Jan 3, 2012·Trends in Plant Science·Antoine HarfoucheGiuseppe Scarascia Mugnozza
Jun 13, 2012·Plant Biotechnology Journal·Soumen Nandy, Vibha Srivastava
Jun 30, 2012·Science·Martin JinekEmmanuelle Charpentier
Jun 20, 2013·Plant Biotechnology Journal·Kathleen D'HalluinJean Broadhvest
Aug 10, 2013·Nature Biotechnology·Qiwei ShanCaixia Gao
Aug 21, 2013·Plant Biotechnology Journal·William M AinleyJoseph F Petolino
Dec 18, 2013·Science·Tim WangEric S Lander
Jan 21, 2014·The Plant Cell·Nicholas J BaltesDaniel F Voytas
Mar 4, 2014·Nature Biotechnology·Jeffry D Sander, J Keith Joung
May 17, 2014·Science·Arthur J RagauskasCharles E Wyman
Jun 12, 2014·Nature·Alexander A MyburgJeremy Schmutz
Nov 18, 2014·Plant Biotechnology Journal·Agnieszka PiatekMagdy M Mahfouz
Nov 30, 2014·BMC Plant Biology·Hui-Li XingQi-Jun Chen
Dec 2, 2014·Current Opinion in Biotechnology·Khaoula BelhajVladimir Nekrasov
Dec 24, 2014·Biotechnology Advances·Luisa Bortesi, Rainer Fischer
Jan 27, 2015·Chemistry & Biology·Yuta NihongakiMoritoshi Sato
Feb 3, 2015·Nature Biotechnology·Bernd ZetscheFeng Zhang
Feb 11, 2015·Nature Chemical Biology·Lauren R Polstein, Charles A Gersbach
Feb 19, 2015·Nature Biotechnology·Lukas E DowScott W Lowe
Mar 4, 2015·Proceedings of the National Academy of Sciences of the United States of America·Kabin XieYinong Yang
Mar 11, 2015·Developmental Cell·Julien AblainLeonard I Zon
Apr 10, 2015·Nature Reviews. Genetics·Ophir ShalemFeng Zhang
Apr 29, 2015·Journal of Biotechnology·Sandeep KumarManju Gupta

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Citations

Oct 11, 2017·Journal of Experimental Botany·Cecilia Rodriguez-FurlanGlenn R Hicks
Jul 9, 2016·Phytopathology·Vincent N FondongSavithramma P Dinesh-Kumar
Jul 6, 2018·Annual Review of Phytopathology·Thorsten LangnerKhaoula Belhaj
Jun 1, 2016·Journal of Experimental Botany·Christine Shyu
Aug 18, 2018·PloS One·Gerald A TuskanWellington Muchero
Jun 10, 2017·Botanical Studies·Hong-Xian HsingSwee-Suak Ko
Aug 11, 2017·Critical Reviews in Biotechnology·Avik BanerjeePratyoosh Shukla
Nov 23, 2016·Plant Biotechnology Journal·Rongfang XuJianbo Yang
Apr 12, 2016·Plant Molecular Biology·Hagop S Atamian, Stacey L Harmer
Apr 10, 2020·Emerging Topics in Life Sciences·Mallory Evanoff, Alexis C Komor
Apr 10, 2017·Plant Cell Reports·Irini Nianiou-ObeidatNikolaos E Labrou
Jul 13, 2017·Horticulture Research·Degao LiuXiaohan Yang
May 27, 2016·Scientific Reports·Zahir AliMagdy M Mahfouz
Aug 6, 2016·Journal of Experimental Botany·Frank Hochholdinger
Jul 10, 2020·International Journal of Molecular Sciences·Romesh K Salgotra, C Neal Stewart
Oct 21, 2020·GM Crops & Food·Swati TyagiPratyoosh Shukla
Oct 22, 2020·The FEBS Journal·Siddhant KalraGaurav Ahuja
Dec 8, 2020·Pharmacological Research : the Official Journal of the Italian Pharmacological Society·Abhijit Dey
Aug 19, 2017·Plant Science : an International Journal of Experimental Plant Biology·Jose A Aznar-Moreno, Timothy P Durrett
May 10, 2017·Trends in Plant Science·Cuiling WangThomas Lübberstedt
Aug 7, 2018·Plant Science : an International Journal of Experimental Plant Biology·Degao LiuXiaohan Yang
Sep 14, 2016·Trends in Biotechnology·Ritesh MewalalGerald A Tuskan
Dec 14, 2021·Frontiers in Cell and Developmental Biology·Nasir Javaid, Sangdun Choi

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