SgRNA Expression of CRIPSR-Cas9 System Based on MiRNA Polycistrons as a Versatile Tool to Manipulate Multiple and Tissue-Specific Genome Editing

SgRNA Expression of CRIPSR-Cas9 System Based on MiRNA Polycistrons as a Versatile Tool to Manipulate Multiple and Tissue-Specific Genome Editing

Abstract CRISPR/Cas9-mediated genome editing is a next-generation strategy for genetic modifications. Typically, sgRNA is constitutively expressed relying on RNA polymerase III promoters. Polymerase II promoters initiate transcription in a flexible manner, but sgRNAs generated by RNA polymerase II p...

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Main Authors: Chen Xie, Yan-Lian Chen, Dong-Fang Wang, Yi-Lin Wang, Tian-Peng Zhang, Hui Li, Fu Liang, Yong Zhao, Guang-Ya Zhang
Format: Article
Language:English
Published: Nature Publishing Group 2017-07-01
Series:Scientific Reports
Online Access:https://doi.org/10.1038/s41598-017-06216-w
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spelling doaj-52c8e0c573d9475e949c979ae8ce04fe2020-12-08T00:56:19ZengNature Publishing GroupScientific Reports2045-23222017-07-017111210.1038/s41598-017-06216-wSgRNA Expression of CRIPSR-Cas9 System Based on MiRNA Polycistrons as a Versatile Tool to Manipulate Multiple and Tissue-Specific Genome EditingChen Xie0Yan-Lian Chen1Dong-Fang Wang2Yi-Lin Wang3Tian-Peng Zhang4Hui Li5Fu Liang6Yong Zhao7Guang-Ya Zhang8College of Chemical Engineering, Huaqiao UniversityKey Laboratory of Gene Engineering of the Ministry of Education, Cooperative Innovation Center for High Performance Computing, School of Life Sciences, Sun Yat-sen UniversityDepartment of Spine Surgery, Shenzhen People’s Hospital, Jinan University School of MedicineBiochip Laboratory, Yantai Yuhuangding Hospital Affiliated to Qingdao UniversityKey Laboratory of Gene Engineering of the Ministry of Education, Cooperative Innovation Center for High Performance Computing, School of Life Sciences, Sun Yat-sen UniversityShenzhen Weiguang Biological Products Co., LtdShenzhen Weiguang Biological Products Co., LtdKey Laboratory of Gene Engineering of the Ministry of Education, Cooperative Innovation Center for High Performance Computing, School of Life Sciences, Sun Yat-sen UniversityCollege of Chemical Engineering, Huaqiao UniversityAbstract CRISPR/Cas9-mediated genome editing is a next-generation strategy for genetic modifications. Typically, sgRNA is constitutively expressed relying on RNA polymerase III promoters. Polymerase II promoters initiate transcription in a flexible manner, but sgRNAs generated by RNA polymerase II promoter lost their nuclease activity. To express sgRNAs in a tissue-specific fashion and endow CRISPR with more versatile function, a novel system was established in a polycistron, where miRNAs (or shRNAs) and sgRNAs alternately emerged and co-expressed under the control of a single polymerase II promoter. Effective expression and further processing of functional miRNAs and sgRNAs were achieved. The redundant nucleotides adjacent to sgRNA were degraded, and 5′- cap structure was responsible for the compromised nuclease capacity of sgRNA: Cas9 complex. Furthermore, this strategy fulfilled conducting multiplex genome editing, as well as executing neural- specific genome editing and enhancing the proportion of homologous recombination via inhibiting NHEJ pathway by shRNA. In summary, we designed a new construction for efficient expression of sgRNAs with miRNAs (shRNAs) by virtue of RNA polymerase II promoters, which will spur the development of safer, more controllable/regulable and powerful CRISPR/Cas9 system-mediated genome editing in a wide variety of further biomedical applications.https://doi.org/10.1038/s41598-017-06216-w
collection DOAJ
language English
format Article
sources DOAJ
author Chen Xie
Yan-Lian Chen
Dong-Fang Wang
Yi-Lin Wang
Tian-Peng Zhang
Hui Li
Fu Liang
Yong Zhao
Guang-Ya Zhang
spellingShingle Chen Xie
Yan-Lian Chen
Dong-Fang Wang
Yi-Lin Wang
Tian-Peng Zhang
Hui Li
Fu Liang
Yong Zhao
Guang-Ya Zhang
SgRNA Expression of CRIPSR-Cas9 System Based on MiRNA Polycistrons as a Versatile Tool to Manipulate Multiple and Tissue-Specific Genome Editing
Scientific Reports
author_facet Chen Xie
Yan-Lian Chen
Dong-Fang Wang
Yi-Lin Wang
Tian-Peng Zhang
Hui Li
Fu Liang
Yong Zhao
Guang-Ya Zhang
author_sort Chen Xie
title SgRNA Expression of CRIPSR-Cas9 System Based on MiRNA Polycistrons as a Versatile Tool to Manipulate Multiple and Tissue-Specific Genome Editing
title_short SgRNA Expression of CRIPSR-Cas9 System Based on MiRNA Polycistrons as a Versatile Tool to Manipulate Multiple and Tissue-Specific Genome Editing
title_full SgRNA Expression of CRIPSR-Cas9 System Based on MiRNA Polycistrons as a Versatile Tool to Manipulate Multiple and Tissue-Specific Genome Editing
title_fullStr SgRNA Expression of CRIPSR-Cas9 System Based on MiRNA Polycistrons as a Versatile Tool to Manipulate Multiple and Tissue-Specific Genome Editing
title_full_unstemmed SgRNA Expression of CRIPSR-Cas9 System Based on MiRNA Polycistrons as a Versatile Tool to Manipulate Multiple and Tissue-Specific Genome Editing
title_sort sgrna expression of cripsr-cas9 system based on mirna polycistrons as a versatile tool to manipulate multiple and tissue-specific genome editing
publisher Nature Publishing Group
series Scientific Reports
issn 2045-2322
publishDate 2017-07-01
description Abstract CRISPR/Cas9-mediated genome editing is a next-generation strategy for genetic modifications. Typically, sgRNA is constitutively expressed relying on RNA polymerase III promoters. Polymerase II promoters initiate transcription in a flexible manner, but sgRNAs generated by RNA polymerase II promoter lost their nuclease activity. To express sgRNAs in a tissue-specific fashion and endow CRISPR with more versatile function, a novel system was established in a polycistron, where miRNAs (or shRNAs) and sgRNAs alternately emerged and co-expressed under the control of a single polymerase II promoter. Effective expression and further processing of functional miRNAs and sgRNAs were achieved. The redundant nucleotides adjacent to sgRNA were degraded, and 5′- cap structure was responsible for the compromised nuclease capacity of sgRNA: Cas9 complex. Furthermore, this strategy fulfilled conducting multiplex genome editing, as well as executing neural- specific genome editing and enhancing the proportion of homologous recombination via inhibiting NHEJ pathway by shRNA. In summary, we designed a new construction for efficient expression of sgRNAs with miRNAs (shRNAs) by virtue of RNA polymerase II promoters, which will spur the development of safer, more controllable/regulable and powerful CRISPR/Cas9 system-mediated genome editing in a wide variety of further biomedical applications.
url https://doi.org/10.1038/s41598-017-06216-w
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