AI Article Synopsis
- Genome editing in plants using the homology-directed repair (HDR) pathway is typically less efficient than nonhomologous end joining (NHEJ), but researchers improved HDR efficiency by threefold using a new CRISPR system in tomatoes.
- The efficiency of this HDR method was influenced by environmental factors, with optimal results achieved at 31 °C under a specific light/dark cycle after transformation.
- The successful creation of a salt-tolerant allele without integrating antibiotic markers suggests potential for transgene-free genome editing in both asexually and sexually reproducing plants.
Article Abstract
Genome editing via the homology-directed repair (HDR) pathway in somatic plant cells is very inefficient compared with error-prone repair by nonhomologous end joining (NHEJ). Here, we increased HDR-based genome editing efficiency approximately threefold compared with a Cas9-based single-replicon system via the use of de novo multi-replicon systems equipped with CRISPR/LbCpf1 in tomato and obtained replicon-free but stable HDR alleles. The efficiency of CRISPR/LbCpf1-based HDR was significantly modulated by physical culture conditions such as temperature and light. Ten days of incubation at 31 °C under a light/dark cycle after Agrobacterium-mediated transformation resulted in the best performance among the tested conditions. Furthermore, we developed our single-replicon system into a multi-replicon system that effectively increased HDR efficiency. Although this approach is still challenging, we showed the feasibility of HDR-based genome editing of a salt-tolerant SlHKT1;2 allele without genomic integration of antibiotic markers or any phenotypic selection. Self-pollinated offspring plants carrying the HKT1;2 HDR allele showed stable inheritance and germination tolerance in the presence of 100 mm NaCl. Our work may pave the way for transgene-free editing of alleles of interest in asexually and sexually reproducing plants.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC7540044 | PMC |
| http://dx.doi.org/10.1111/pbi.13373 | DOI Listing |
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