A circularly permuted CasRx platform for efficient, site-specific RNA editing
Inactive Cas13 orthologs have been fused to a mutant human ADAR2 deaminase domain at the C terminus to enable programmable adenosine-to-inosine (A-to-I) RNA editing in selected transcripts. Although promising, existing RNA-editing tools generally suffer from a trade-off between efficacy and specific...
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sg-ntu-dr.10356-1819532025-01-10T15:32:29Z A circularly permuted CasRx platform for efficient, site-specific RNA editing Wang, Yuanming Liu, Ivy Kaiwen Liu, Mandy Mengying Ooi, Kean Hean Nguyen, Tram Anh Chee, Jiunn En Teo, Danny Shun Xiang He, Shan Tay, Douglas Jie Wen Teo, Seok Yee Liew, Kai Shin Ge, Xiao Yu Ng, Zhi Jian Avagyan, Hasmik Liu, Hao Yi, Zirong Chang, Keziah Kok, Louis Eng Piew Chen, Runjia Yau, Chun En Koh, Jun Wei Wan, Yue Tan, Meng How School of Chemistry, Chemical Engineering and Biotechnology School of Biological Sciences Genome Institute of Singapore, A*STAR HP-NTU Digital Manufacturing Corporate Lab Chemistry RNA editing Biochemical engineering Inactive Cas13 orthologs have been fused to a mutant human ADAR2 deaminase domain at the C terminus to enable programmable adenosine-to-inosine (A-to-I) RNA editing in selected transcripts. Although promising, existing RNA-editing tools generally suffer from a trade-off between efficacy and specificity, and off-target editing remains an unsolved problem. Here we describe the development of an optimized RNA-editing platform by rational protein engineering, CasRx-based Programmable Editing of RNA Technology (xPERT). We demonstrate that the topological rearrangement of a CasRx K940L mutant by circular permutation results in a robust scaffold for the tethering of a deaminase domain. We benchmark our tool against the REPAIR system and show that xPERT exhibits strong on-target activity like REPAIRv1 but low off-target editing like REPAIRv2. Our xPERT platform can be used to alter RNA sequence information without risking genome damage, effect temporary cellular changes and customize protein function. Agency for Science, Technology and Research (A*STAR) Ministry of Education (MOE) Nanyang Technological University National Medical Research Council (NMRC) National Research Foundation (NRF) Submitted/Accepted version M.H.T. is supported by National Research Foundation Singapore (grant NRF2017-NRF-ISF002-2673), Ministry of Education Singapore Academic Research Fund Tier 2 (grant T2EP30223-0028), Ministry of Education Singapore Academic Research Fund Tier 1 (grant RG50/17), National Medical Research Council Open Fund—Individual Research Grant (NMRC/OFIRG/0017/2016), SINERGY Seed Grant (SSG 2021- 03), EMBO Global Investigatorship, ASPIRE League seed grant from Nanyang Technological University and funds for Final Year Project and the International Genetically Engineering Machine competition from the School of Chemistry, Chemical Engineering and Biotechnology (CCEB). M.M.L. and J.E.C. are supported by PhD research scholarships from CCEB. S.X.D.T. is supported by an A*STAR Graduate Scholarship. We also acknowledge funding support for this project from Nanyang Technological University under the Undergraduate Research Experience on Campus (URECA) program. 2025-01-04T06:41:34Z 2025-01-04T06:41:34Z 2024 Journal Article Wang, Y., Liu, I. K., Liu, M. M., Ooi, K. H., Nguyen, T. A., Chee, J. E., Teo, D. S. X., He, S., Tay, D. J. W., Teo, S. Y., Liew, K. S., Ge, X. Y., Ng, Z. J., Avagyan, H., Liu, H., Yi, Z., Chang, K., Kok, L. E. P., Chen, R., ...Tan, M. H. (2024). A circularly permuted CasRx platform for efficient, site-specific RNA editing. Nature Biotechnology. https://dx.doi.org/10.1038/s41587-024-02430-w 1087-0156 https://hdl.handle.net/10356/181953 10.1038/s41587-024-02430-w 39385008 2-s2.0-85206385578 en NRF2017-NRF-ISF002-2673 T2EP30223-0028 RG50/17 NMRC/OFIRG/0017/2016 SSG 2021- 03 Nature Biotechnology © 2024 The Author(s), under exclusive licence to Springer Nature America, Inc. All rights reserved. This article may be downloaded for personal use only. Any other use requires prior permission of the copyright holder. The Version of Record is available online at http://doi.org/10.1038/s41587-024-02430-w. application/pdf |
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Chemistry RNA editing Biochemical engineering |
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Chemistry RNA editing Biochemical engineering Wang, Yuanming Liu, Ivy Kaiwen Liu, Mandy Mengying Ooi, Kean Hean Nguyen, Tram Anh Chee, Jiunn En Teo, Danny Shun Xiang He, Shan Tay, Douglas Jie Wen Teo, Seok Yee Liew, Kai Shin Ge, Xiao Yu Ng, Zhi Jian Avagyan, Hasmik Liu, Hao Yi, Zirong Chang, Keziah Kok, Louis Eng Piew Chen, Runjia Yau, Chun En Koh, Jun Wei Wan, Yue Tan, Meng How A circularly permuted CasRx platform for efficient, site-specific RNA editing |
| description |
Inactive Cas13 orthologs have been fused to a mutant human ADAR2 deaminase domain at the C terminus to enable programmable adenosine-to-inosine (A-to-I) RNA editing in selected transcripts. Although promising, existing RNA-editing tools generally suffer from a trade-off between efficacy and specificity, and off-target editing remains an unsolved problem. Here we describe the development of an optimized RNA-editing platform by rational protein engineering, CasRx-based Programmable Editing of RNA Technology (xPERT). We demonstrate that the topological rearrangement of a CasRx K940L mutant by circular permutation results in a robust scaffold for the tethering of a deaminase domain. We benchmark our tool against the REPAIR system and show that xPERT exhibits strong on-target activity like REPAIRv1 but low off-target editing like REPAIRv2. Our xPERT platform can be used to alter RNA sequence information without risking genome damage, effect temporary cellular changes and customize protein function. |
| author2 |
School of Chemistry, Chemical Engineering and Biotechnology |
| author_facet |
School of Chemistry, Chemical Engineering and Biotechnology Wang, Yuanming Liu, Ivy Kaiwen Liu, Mandy Mengying Ooi, Kean Hean Nguyen, Tram Anh Chee, Jiunn En Teo, Danny Shun Xiang He, Shan Tay, Douglas Jie Wen Teo, Seok Yee Liew, Kai Shin Ge, Xiao Yu Ng, Zhi Jian Avagyan, Hasmik Liu, Hao Yi, Zirong Chang, Keziah Kok, Louis Eng Piew Chen, Runjia Yau, Chun En Koh, Jun Wei Wan, Yue Tan, Meng How |
| format |
Article |
| author |
Wang, Yuanming Liu, Ivy Kaiwen Liu, Mandy Mengying Ooi, Kean Hean Nguyen, Tram Anh Chee, Jiunn En Teo, Danny Shun Xiang He, Shan Tay, Douglas Jie Wen Teo, Seok Yee Liew, Kai Shin Ge, Xiao Yu Ng, Zhi Jian Avagyan, Hasmik Liu, Hao Yi, Zirong Chang, Keziah Kok, Louis Eng Piew Chen, Runjia Yau, Chun En Koh, Jun Wei Wan, Yue Tan, Meng How |
| author_sort |
Wang, Yuanming |
| title |
A circularly permuted CasRx platform for efficient, site-specific RNA editing |
| title_short |
A circularly permuted CasRx platform for efficient, site-specific RNA editing |
| title_full |
A circularly permuted CasRx platform for efficient, site-specific RNA editing |
| title_fullStr |
A circularly permuted CasRx platform for efficient, site-specific RNA editing |
| title_full_unstemmed |
A circularly permuted CasRx platform for efficient, site-specific RNA editing |
| title_sort |
circularly permuted casrx platform for efficient, site-specific rna editing |
| publishDate |
2025 |
| url |
https://hdl.handle.net/10356/181953 |
| _version_ |
1821237107995181056 |