Abstract
CRISPR/Cas9 has emerged as the most important tool for genome engineering due to its simplicity, design flexibility, and high efficiency. This technology makes it possible to induce point mutations in one or some target sequences simultaneously, as well as to introduce new genetic variants by homology-directed recombination. However, this approach remains largely unexplored in forest species. In this study, we reported the first example of CRISPR/Cas9-mediated gene editing in Castanea genus. As a proof of concept, we targeted the gene encoding phytoene desaturase (pds), whose mutation disrupts chlorophyll biosynthesis allowing for the visual assessment of knockout efficiency. Globular and early torpedo-stage somatic embryos of Castanea sativa (European chestnut) were cocultured for 5 days with a CRISPR/Cas9 construct targeting two conserved gene regions of pds and subsequently cultured on a selection medium with kanamycin. After 8 weeks of subculture on selection medium, four kanamycin-resistant embryogenetic lines were isolated. Genotyping of these lines through target Sanger sequencing of amplicons revealed successful gene editing. Cotyledonary somatic embryos were maturated on maltose 3% and cold-stored at 4°C for 2 months. Subsequently, embryos were subjected to the germination process to produce albino plants. This study opens the way to the use of the CRISPR/Cas9 system in European chestnut for biotechnological applications
Highlights
European chestnut or sweet chestnut (Castanea sativa Mill.) is a worldwide widely distributed tree species with an important economic role in Spain and Italy
Our results demonstrated that genome editing through CRISPR/Cas9 can be efficiently applied for chestnut genome modification
Castanea sativa pds (Cspds) gene sequence was kindly provided by Dr Susana Serrazina, from the C. sativa transcriptome database (Serrazina et al, 2015)
Summary
European chestnut or sweet chestnut (Castanea sativa Mill.) is a worldwide widely distributed tree species with an important economic role in Spain and Italy. It is highly appreciated for both timber and fruit production (Conedera et al, 2004, 2016). European chestnut populations are seriously threatened by two severe diseases as follows: (1) ink disease mainly caused by the oomycete Phytophthora cinnamomi and (2) chestnut blight provoked by the fungus Cryphonectria parasitica. During the first third of the twentieth century, the crossings between European chestnut and Asian tolerant species (i.e., Castanea crenata and Castanea mollissima) were the only valid option to deal with the ink disease. The spread of hypovirulence has reduced the impact of canker blight in Europe, but the disease is
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