Zahra Ebrahimi , Bahram Kazemi , Mohammad Salehi , Vahid Jajarmi
{"title":"利用基于 TFO 的靶向模板设计,在单个 DNA 断点成功实现 CRISPR/Cas9 介导的 HDR","authors":"Zahra Ebrahimi , Bahram Kazemi , Mohammad Salehi , Vahid Jajarmi","doi":"10.1016/j.ejbt.2024.01.001","DOIUrl":null,"url":null,"abstract":"<div><h3>Background</h3><p>Targeted insertion of the repair template into the genome is a common strategy for high-precision base replacements; however, the main challenge likely remains regarding the limited efficiency of homologous-directed repair (HDR). A precise genome cut achieved by CRISPR-Cas9 system combining with a single-stranded oligodeoxynucleotide (ssODN), as the donor template, improves significantly the rate of HDR. It is well-established that the spatial availability of the donor template to the repair system effectively enhances knock-in events in CRISPR-Cas9. PolyPurine Reverse Hoogsteen hairpins (PPRHs), as an alternative repairing strategy, benefits from a Triplex-forming oligonucleotide (TFO) for the repair template providing the ease of access. The main objective of the study was to evaluate the HDR frequency as a result of improvement of the spatial accessibility of the donor template adjacent to the cutting site. Hence, a flanking purine-rich hairpin complementary to the genomic DNA adjacent to the repairing site was fused to the ssODN with the incorporated bases for the alteration of EGFP to EBFP.</p></div><div><h3>Results</h3><p>Results from the comparison between the donor templates, ssODN and TFO-tailed ssODN, demonstrated an increased rate of knock-in from 18.2% ± 1.09 to 38.3% ± 4.54, respectively. From another perspective, findings indicated that the targeted Cas9-mediated DNA cleavage improves the efficiency of the repair-PPRH approach four-fold, as well.</p></div><div><h3>Conclusions</h3><p>The present study provides a viewpoint that highlights the significance of the designing of the donor template in terms of the structural features and positional access for the HDR-based repairing CRISPR-Cas9 systems.</p><p><strong>How to cite:</strong> Ebrahimi Z, Kazemi B, Salehi M, et al. Successful CRISPR/Cas9-mediated HDR at individual DNA breakpoints using TFO-based targeted template design. Electron J Biotechnol 2024, 68. <span>https://doi.org/10.1016/j.ejbt.2024.01.001</span><svg><path></path></svg>.</p></div>","PeriodicalId":11529,"journal":{"name":"Electronic Journal of Biotechnology","volume":"68 ","pages":"Pages 41-46"},"PeriodicalIF":2.3000,"publicationDate":"2024-03-01","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"https://www.sciencedirect.com/science/article/pii/S0717345824000022/pdfft?md5=d512893c87ad03ed29de50a2dfd35e87&pid=1-s2.0-S0717345824000022-main.pdf","citationCount":"0","resultStr":"{\"title\":\"Successful CRISPR/Cas9-mediated HDR at individual DNA breakpoints using TFO-based targeted template design\",\"authors\":\"Zahra Ebrahimi , Bahram Kazemi , Mohammad Salehi , Vahid Jajarmi\",\"doi\":\"10.1016/j.ejbt.2024.01.001\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"<div><h3>Background</h3><p>Targeted insertion of the repair template into the genome is a common strategy for high-precision base replacements; however, the main challenge likely remains regarding the limited efficiency of homologous-directed repair (HDR). A precise genome cut achieved by CRISPR-Cas9 system combining with a single-stranded oligodeoxynucleotide (ssODN), as the donor template, improves significantly the rate of HDR. It is well-established that the spatial availability of the donor template to the repair system effectively enhances knock-in events in CRISPR-Cas9. PolyPurine Reverse Hoogsteen hairpins (PPRHs), as an alternative repairing strategy, benefits from a Triplex-forming oligonucleotide (TFO) for the repair template providing the ease of access. The main objective of the study was to evaluate the HDR frequency as a result of improvement of the spatial accessibility of the donor template adjacent to the cutting site. Hence, a flanking purine-rich hairpin complementary to the genomic DNA adjacent to the repairing site was fused to the ssODN with the incorporated bases for the alteration of EGFP to EBFP.</p></div><div><h3>Results</h3><p>Results from the comparison between the donor templates, ssODN and TFO-tailed ssODN, demonstrated an increased rate of knock-in from 18.2% ± 1.09 to 38.3% ± 4.54, respectively. From another perspective, findings indicated that the targeted Cas9-mediated DNA cleavage improves the efficiency of the repair-PPRH approach four-fold, as well.</p></div><div><h3>Conclusions</h3><p>The present study provides a viewpoint that highlights the significance of the designing of the donor template in terms of the structural features and positional access for the HDR-based repairing CRISPR-Cas9 systems.</p><p><strong>How to cite:</strong> Ebrahimi Z, Kazemi B, Salehi M, et al. Successful CRISPR/Cas9-mediated HDR at individual DNA breakpoints using TFO-based targeted template design. 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Successful CRISPR/Cas9-mediated HDR at individual DNA breakpoints using TFO-based targeted template design
Background
Targeted insertion of the repair template into the genome is a common strategy for high-precision base replacements; however, the main challenge likely remains regarding the limited efficiency of homologous-directed repair (HDR). A precise genome cut achieved by CRISPR-Cas9 system combining with a single-stranded oligodeoxynucleotide (ssODN), as the donor template, improves significantly the rate of HDR. It is well-established that the spatial availability of the donor template to the repair system effectively enhances knock-in events in CRISPR-Cas9. PolyPurine Reverse Hoogsteen hairpins (PPRHs), as an alternative repairing strategy, benefits from a Triplex-forming oligonucleotide (TFO) for the repair template providing the ease of access. The main objective of the study was to evaluate the HDR frequency as a result of improvement of the spatial accessibility of the donor template adjacent to the cutting site. Hence, a flanking purine-rich hairpin complementary to the genomic DNA adjacent to the repairing site was fused to the ssODN with the incorporated bases for the alteration of EGFP to EBFP.
Results
Results from the comparison between the donor templates, ssODN and TFO-tailed ssODN, demonstrated an increased rate of knock-in from 18.2% ± 1.09 to 38.3% ± 4.54, respectively. From another perspective, findings indicated that the targeted Cas9-mediated DNA cleavage improves the efficiency of the repair-PPRH approach four-fold, as well.
Conclusions
The present study provides a viewpoint that highlights the significance of the designing of the donor template in terms of the structural features and positional access for the HDR-based repairing CRISPR-Cas9 systems.
How to cite: Ebrahimi Z, Kazemi B, Salehi M, et al. Successful CRISPR/Cas9-mediated HDR at individual DNA breakpoints using TFO-based targeted template design. Electron J Biotechnol 2024, 68. https://doi.org/10.1016/j.ejbt.2024.01.001.
期刊介绍:
Electronic Journal of Biotechnology is an international scientific electronic journal, which publishes papers from all areas related to Biotechnology. It covers from molecular biology and the chemistry of biological processes to aquatic and earth environmental aspects, computational applications, policy and ethical issues directly related to Biotechnology.
The journal provides an effective way to publish research and review articles and short communications, video material, animation sequences and 3D are also accepted to support and enhance articles. The articles will be examined by a scientific committee and anonymous evaluators and published every two months in HTML and PDF formats (January 15th , March 15th, May 15th, July 15th, September 15th, November 15th).
The following areas are covered in the Journal:
• Animal Biotechnology
• Biofilms
• Bioinformatics
• Biomedicine
• Biopolicies of International Cooperation
• Biosafety
• Biotechnology Industry
• Biotechnology of Human Disorders
• Chemical Engineering
• Environmental Biotechnology
• Food Biotechnology
• Marine Biotechnology
• Microbial Biotechnology
• Molecular Biology and Genetics
•Nanobiotechnology
• Omics
• Plant Biotechnology
• Process Biotechnology
• Process Chemistry and Technology
• Tissue Engineering
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