Exploring C-To-G Base Editing in Rice, Tomato, and Poplar

Exploring C-To-G Base Editing in Rice, Tomato, and Poplar

As a precise genome editing technology, base editing is broadly used in both basic and applied plant research. Cytosine base editors (CBEs) and adenine base editors (ABEs) represent the two commonly used base editor types that mediate C-to-T and A-to-G base transition changes at the target sites, re...

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Main Authors: Simon Sretenovic, Shishi Liu, Gen Li, Yanhao Cheng, Tingting Fan, Yang Xu, Jianping Zhou, Xuelian Zheng, Gary Coleman, Yong Zhang, Yiping Qi
Format: Article
Language:English
Published: Frontiers Media S.A. 2021-09-01
Series:Frontiers in Genome Editing
Subjects:
C-to-G base editors
PAM-less
SPRY
rice
tomato
poplar
Online Access:https://www.frontiersin.org/articles/10.3389/fgeed.2021.756766/full
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spelling doaj-58539973d462469c9535d1dc7bfd4b212021-09-15T04:19:28ZengFrontiers Media S.A.Frontiers in Genome Editing2673-34392021-09-01310.3389/fgeed.2021.756766756766Exploring C-To-G Base Editing in Rice, Tomato, and PoplarSimon Sretenovic0Shishi Liu1Gen Li2Yanhao Cheng3Tingting Fan4Yang Xu5Jianping Zhou6Xuelian Zheng7Gary Coleman8Gary Coleman9Yong Zhang10Yiping Qi11Yiping Qi12Department of Plant Science and Landscape Architecture, University of Maryland, College Park, MD, United StatesDepartment of Biotechnology, School of Life Science and Technology, University of Electronic Science and Technology of China, Center for Informational Biology, Chengdu, ChinaDepartment of Plant Science and Landscape Architecture, University of Maryland, College Park, MD, United StatesDepartment of Plant Science and Landscape Architecture, University of Maryland, College Park, MD, United StatesDepartment of Biotechnology, School of Life Science and Technology, University of Electronic Science and Technology of China, Center for Informational Biology, Chengdu, ChinaDepartment of Biotechnology, School of Life Science and Technology, University of Electronic Science and Technology of China, Center for Informational Biology, Chengdu, ChinaDepartment of Biotechnology, School of Life Science and Technology, University of Electronic Science and Technology of China, Center for Informational Biology, Chengdu, ChinaDepartment of Biotechnology, School of Life Science and Technology, University of Electronic Science and Technology of China, Center for Informational Biology, Chengdu, ChinaDepartment of Plant Science and Landscape Architecture, University of Maryland, College Park, MD, United StatesInstitute for Bioscience and Biotechnology Research, University of Maryland, Rockville, MD, United StatesDepartment of Biotechnology, School of Life Science and Technology, University of Electronic Science and Technology of China, Center for Informational Biology, Chengdu, ChinaDepartment of Plant Science and Landscape Architecture, University of Maryland, College Park, MD, United StatesInstitute for Bioscience and Biotechnology Research, University of Maryland, Rockville, MD, United StatesAs a precise genome editing technology, base editing is broadly used in both basic and applied plant research. Cytosine base editors (CBEs) and adenine base editors (ABEs) represent the two commonly used base editor types that mediate C-to-T and A-to-G base transition changes at the target sites, respectively. To date, no transversion base editors have been described in plants. Here, we assessed three C-to-G base editors (CGBEs) for targeting sequences with SpCas9’s canonical NGG protospacer adjacent motifs (PAMs) as well as three PAM-less SpRY-based CGBEs for targeting sequences with relaxed PAM requirements. The analyses in rice and tomato protoplasts showed that these CGBEs could make C-to-G conversions at the target sites, and they preferentially edited the C6 position in the 20-nucleotide target sequence. C-to-T edits, insertions and deletions (indels) were major byproducts induced by these CGBEs in the protoplast systems. Further assessment of these CGBEs in stably transformed rice and poplar plants revealed the preference for editing of non-GC sites, and C-to-T edits are major byproducts. Successful C-to-G editing in stably transgenic rice plants was achieved by rXRCC1-based CGBEs with monoallelic editing efficiencies up to 38% in T0 lines. The UNG-rAPOBEC1 (R33A)-based CGBE resulted in successful C-to-G editing in polar, with monoallelic editing efficiencies up to 6.25% in T0 lines. Overall, this study revealed that different CGBEs have different preference on preferred editing sequence context, which could be influenced by cell cycles, DNA repair pathways, and plant species.https://www.frontiersin.org/articles/10.3389/fgeed.2021.756766/fullC-to-G base editorsPAM-lessSPRYricetomatopoplar
collection DOAJ
language English
format Article
sources DOAJ
author Simon Sretenovic
Shishi Liu
Gen Li
Yanhao Cheng
Tingting Fan
Yang Xu
Jianping Zhou
Xuelian Zheng
Gary Coleman
Gary Coleman
Yong Zhang
Yiping Qi
Yiping Qi
spellingShingle Simon Sretenovic
Shishi Liu
Gen Li
Yanhao Cheng
Tingting Fan
Yang Xu
Jianping Zhou
Xuelian Zheng
Gary Coleman
Gary Coleman
Yong Zhang
Yiping Qi
Yiping Qi
Exploring C-To-G Base Editing in Rice, Tomato, and Poplar
Frontiers in Genome Editing
C-to-G base editors
PAM-less
SPRY
rice
tomato
poplar
author_facet Simon Sretenovic
Shishi Liu
Gen Li
Yanhao Cheng
Tingting Fan
Yang Xu
Jianping Zhou
Xuelian Zheng
Gary Coleman
Gary Coleman
Yong Zhang
Yiping Qi
Yiping Qi
author_sort Simon Sretenovic
title Exploring C-To-G Base Editing in Rice, Tomato, and Poplar
title_short Exploring C-To-G Base Editing in Rice, Tomato, and Poplar
title_full Exploring C-To-G Base Editing in Rice, Tomato, and Poplar
title_fullStr Exploring C-To-G Base Editing in Rice, Tomato, and Poplar
title_full_unstemmed Exploring C-To-G Base Editing in Rice, Tomato, and Poplar
title_sort exploring c-to-g base editing in rice, tomato, and poplar
publisher Frontiers Media S.A.
series Frontiers in Genome Editing
issn 2673-3439
publishDate 2021-09-01
description As a precise genome editing technology, base editing is broadly used in both basic and applied plant research. Cytosine base editors (CBEs) and adenine base editors (ABEs) represent the two commonly used base editor types that mediate C-to-T and A-to-G base transition changes at the target sites, respectively. To date, no transversion base editors have been described in plants. Here, we assessed three C-to-G base editors (CGBEs) for targeting sequences with SpCas9’s canonical NGG protospacer adjacent motifs (PAMs) as well as three PAM-less SpRY-based CGBEs for targeting sequences with relaxed PAM requirements. The analyses in rice and tomato protoplasts showed that these CGBEs could make C-to-G conversions at the target sites, and they preferentially edited the C6 position in the 20-nucleotide target sequence. C-to-T edits, insertions and deletions (indels) were major byproducts induced by these CGBEs in the protoplast systems. Further assessment of these CGBEs in stably transformed rice and poplar plants revealed the preference for editing of non-GC sites, and C-to-T edits are major byproducts. Successful C-to-G editing in stably transgenic rice plants was achieved by rXRCC1-based CGBEs with monoallelic editing efficiencies up to 38% in T0 lines. The UNG-rAPOBEC1 (R33A)-based CGBE resulted in successful C-to-G editing in polar, with monoallelic editing efficiencies up to 6.25% in T0 lines. Overall, this study revealed that different CGBEs have different preference on preferred editing sequence context, which could be influenced by cell cycles, DNA repair pathways, and plant species.
topic C-to-G base editors
PAM-less
SPRY
rice
tomato
poplar
url https://www.frontiersin.org/articles/10.3389/fgeed.2021.756766/full
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