Literature DB >> 33782402

Expanding the scope of plant genome engineering with Cas12a orthologs and highly multiplexable editing systems.

Yingxiao Zhang1, Qiurong Ren2, Xu Tang2, Shishi Liu2, Aimee A Malzahn1, Jianping Zhou2, Jiaheng Wang2, Desuo Yin1,3, Changtian Pan1, Mingzhu Yuan2, Lan Huang2, Han Yang2, Yuxin Zhao2, Qing Fang2, Xuelian Zheng2, Li Tian2, Yanhao Cheng1,4, Ysa Le1, Bailey McCoy1, Lidiya Franklin1, Jeremy D Selengut5, Stephen M Mount6, Qiudeng Que7, Yong Zhang8, Yiping Qi9,10.   

Abstract

CRISPR-Cas12a is a promising genome editing system for targeting AT-rich genomic regions. Comprehensive genome engineering requires simultaneous targeting of multiple genes at defined locations. Here, to expand the targeting scope of Cas12a, we screen nine Cas12a orthologs that have not been demonstrated in plants, and identify six, ErCas12a, Lb5Cas12a, BsCas12a, Mb2Cas12a, TsCas12a and MbCas12a, that possess high editing activity in rice. Among them, Mb2Cas12a stands out with high editing efficiency and tolerance to low temperature. An engineered Mb2Cas12a-RVRR variant enables editing with more relaxed PAM requirements in rice, yielding two times higher genome coverage than the wild type SpCas9. To enable large-scale genome engineering, we compare 12 multiplexed Cas12a systems and identify a potent system that exhibits nearly 100% biallelic editing efficiency with the ability to target as many as 16 sites in rice. This is the highest level of multiplex edits in plants to date using Cas12a. Two compact single transcript unit CRISPR-Cas12a interference systems are also developed for multi-gene repression in rice and Arabidopsis. This study greatly expands the targeting scope of Cas12a for crop genome engineering.

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Year:  2021        PMID: 33782402     DOI: 10.1038/s41467-021-22330-w

Source DB:  PubMed          Journal:  Nat Commun        ISSN: 2041-1723            Impact factor:   14.919


  53 in total

Review 1.  The emerging and uncultivated potential of CRISPR technology in plant science.

Authors:  Yingxiao Zhang; Aimee A Malzahn; Simon Sretenovic; Yiping Qi
Journal:  Nat Plants       Date:  2019-07-15       Impact factor: 15.793

2.  Multiplex Gene Editing in Rice Using the CRISPR-Cpf1 System.

Authors:  Mugui Wang; Yanfei Mao; Yuming Lu; Xiaoping Tao; Jian-Kang Zhu
Journal:  Mol Plant       Date:  2017-03-16       Impact factor: 13.164

Review 3.  Genome editing by natural and engineered CRISPR-associated nucleases.

Authors:  Wen Y Wu; Joyce H G Lebbink; Roland Kanaar; Niels Geijsen; John van der Oost
Journal:  Nat Chem Biol       Date:  2018-06-18       Impact factor: 15.040

4.  Genome-wide analysis reveals specificities of Cpf1 endonucleases in human cells.

Authors:  Daesik Kim; Jungeun Kim; Junho K Hur; Kyung Wook Been; Sun-Heui Yoon; Jin-Soo Kim
Journal:  Nat Biotechnol       Date:  2016-06-06       Impact factor: 54.908

5.  Familial polyposis of the colon in the Bantu.

Authors:  J R McQuaide; A W Stewart
Journal:  S Afr Med J       Date:  1972-09-02

6.  Multiplex gene editing by CRISPR-Cpf1 using a single crRNA array.

Authors:  Bernd Zetsche; Matthias Heidenreich; Prarthana Mohanraju; Iana Fedorova; Jeroen Kneppers; Ellen M DeGennaro; Nerges Winblad; Sourav R Choudhury; Omar O Abudayyeh; Jonathan S Gootenberg; Wen Y Wu; David A Scott; Konstantin Severinov; John van der Oost; Feng Zhang
Journal:  Nat Biotechnol       Date:  2016-12-05       Impact factor: 54.908

7.  Engineered Cpf1 variants with altered PAM specificities.

Authors:  Linyi Gao; David B T Cox; Winston X Yan; John C Manteiga; Martin W Schneider; Takashi Yamano; Hiroshi Nishimasu; Osamu Nureki; Nicola Crosetto; Feng Zhang
Journal:  Nat Biotechnol       Date:  2017-06-05       Impact factor: 54.908

8.  A large-scale whole-genome sequencing analysis reveals highly specific genome editing by both Cas9 and Cpf1 (Cas12a) nucleases in rice.

Authors:  Xu Tang; Guanqing Liu; Jianping Zhou; Qiurong Ren; Qi You; Li Tian; Xuhui Xin; Zhaohui Zhong; Binglin Liu; Xuelian Zheng; Dengwei Zhang; Aimee Malzahn; Zhiyun Gong; Yiping Qi; Tao Zhang; Yong Zhang
Journal:  Genome Biol       Date:  2018-07-04       Impact factor: 13.583

Review 9.  Applications and potential of genome editing in crop improvement.

Authors:  Yi Zhang; Karen Massel; Ian D Godwin; Caixia Gao
Journal:  Genome Biol       Date:  2018-11-30       Impact factor: 13.583

10.  Genome-wide specificities of CRISPR-Cas Cpf1 nucleases in human cells.

Authors:  Benjamin P Kleinstiver; Shengdar Q Tsai; Michelle S Prew; Nhu T Nguyen; Moira M Welch; Jose M Lopez; Zachary R McCaw; Martin J Aryee; J Keith Joung
Journal:  Nat Biotechnol       Date:  2016-06-27       Impact factor: 54.908
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  19 in total

1.  A CASE toolkit for easy and efficient multiplex transgene-free gene editing.

Authors:  Jin-Lei Liu; Meng-Meng Chen; Wen-Qiang Chen; Chun-Ming Liu; Yubing He; Xiu-Fen Song
Journal:  Plant Physiol       Date:  2022-03-28       Impact factor: 8.340

2.  Highly efficient CRISPR systems for loss-of-function and gain-of-function research in pear calli.

Authors:  Meiling Ming; Hongjun Long; Zhicheng Ye; Changtian Pan; Jiali Chen; Rong Tian; Congrui Sun; Yongsong Xue; Yingxiao Zhang; Jiaming Li; Yiping Qi; Jun Wu
Journal:  Hortic Res       Date:  2022-06-30       Impact factor: 7.291

Review 3.  Current and Prospective Applications of CRISPR-Cas12a in Pluricellular Organisms.

Authors:  Shaheen Khan; Erwan Sallard
Journal:  Mol Biotechnol       Date:  2022-08-08       Impact factor: 2.860

Review 4.  CRISPR/Cas- and Topical RNAi-Based Technologies for Crop Management and Improvement: Reviewing the Risk Assessment and Challenges Towards a More Sustainable Agriculture.

Authors:  Fabiano Touzdjian Pinheiro Kohlrausch Távora; Francisco de Assis Dos Santos Diniz; Camila de Moraes Rêgo-Machado; Natália Chagas Freitas; Fabrício Barbosa Monteiro Arraes; Eduardo Chumbinho de Andrade; Leila Lourenço Furtado; Karen Ofuji Osiro; Natália Lima de Sousa; Thiago Bérgamo Cardoso; Liliane Márcia Mertz Henning; Patrícia Abrão de Oliveira Molinari; Sérgio Enrique Feingold; Wayne B Hunter; Maria Fátima Grossi de Sá; Adilson Kenji Kobayashi; Alexandre Lima Nepomuceno; Thaís Ribeiro Santiago; Hugo Bruno Correa Molinari
Journal:  Front Bioeng Biotechnol       Date:  2022-06-28

5.  Engineered Cas12a-Plus nuclease enables gene editing with enhanced activity and specificity.

Authors:  Hongxin Huang; Guanjie Huang; Zhihong Tan; Yongfei Hu; Lin Shan; Jiajian Zhou; Xin Zhang; Shufeng Ma; Weiqi Lv; Tao Huang; Yuchen Liu; Dong Wang; Xiaoyang Zhao; Ying Lin; Zhili Rong
Journal:  BMC Biol       Date:  2022-04-25       Impact factor: 7.364

6.  Efficiency, Specificity and Temperature Sensitivity of Cas9 and Cas12a RNPs for DNA-free Genome Editing in Plants.

Authors:  Raviraj Banakar; Mollie Schubert; Gavin Kurgan; Krishan Mohan Rai; Sarah F Beaudoin; Michael A Collingwood; Christopher A Vakulskas; Kan Wang; Feng Zhang
Journal:  Front Genome Ed       Date:  2022-01-12

7.  Tracing CRISPR/Cas12a Mediated Genome Editing Events in Apple Using High-Throughput Genotyping by PCR Capillary Gel Electrophoresis.

Authors:  Susan Schröpfer; Henryk Flachowsky
Journal:  Int J Mol Sci       Date:  2021-11-22       Impact factor: 5.923

Review 8.  From Genome Sequencing to CRISPR-Based Genome Editing for Climate-Resilient Forest Trees.

Authors:  Hieu Xuan Cao; Giang Thi Ha Vu; Oliver Gailing
Journal:  Int J Mol Sci       Date:  2022-01-16       Impact factor: 5.923

9.  RNA-Guided AsCas12a- and SpCas9-Catalyzed Knockout and Homology Directed Repair of the Omega-1 Locus of the Human Blood Fluke, Schistosoma mansoni.

Authors:  Wannaporn Ittiprasert; Chawalit Chatupheeraphat; Victoria H Mann; Wenhui Li; André Miller; Taiwo Ogunbayo; Kenny Tran; Yousef N Alrefaei; Margaret Mentink-Kane; Paul J Brindley
Journal:  Int J Mol Sci       Date:  2022-01-06       Impact factor: 5.923

10.  Expanding the range of editable targets in the wheat genome using the variants of the Cas12a and Cas9 nucleases.

Authors:  Wei Wang; Bin Tian; Qianli Pan; Yueying Chen; Fei He; Guihua Bai; Alina Akhunova; Harold N Trick; Eduard Akhunov
Journal:  Plant Biotechnol J       Date:  2021-07-28       Impact factor: 9.803
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