A GRF–GIF chimeric protein improves the regeneration efficiency of transgenic plants
Author: ["Juan M. Debernardi","David M. Tricoli","Maria F. Ercoli","Sadiye Hayta","Pamela Ronald","Javier F. Palatnik","Jorge Dubcovsky"]
Publication: Nature Biotechnology
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Abstract
The potential of genome editing to improve the agronomic performance of crops is often limited by low plant regeneration efficiencies and few transformable genotypes. Here, we show that expression of a fusion protein combining wheat GROWTH-REGULATING FACTOR 4 (GRF4) and its cofactor GRF-INTERACTING FACTOR 1 (GIF1) substantially increases the efficiency and speed of regeneration in wheat, triticale and rice and increases the number of transformable wheat genotypes. GRF4–GIF1 transgenic plants were fertile and without obvious developmental defects. Moreover, GRF4–GIF1 induced efficient wheat regeneration in the absence of exogenous cytokinins, which facilitates selection of transgenic plants without selectable markers. We also combined GRF4–GIF1 with CRISPR–Cas9 genome editing and generated 30 edited wheat plants with disruptions in the gene Q (AP2L-A5). Finally, we show that a dicot GRF–GIF chimera improves regeneration efficiency in citrus, suggesting that this strategy can be applied to dicot crops. A method to increase plant regeneration efficiency extends gene editing to more species and genotypes.
Cite this article
Debernardi, J.M., Tricoli, D.M., Ercoli, M.F. et al. A GRF–GIF chimeric protein improves the regeneration efficiency of transgenic plants. Nat Biotechnol 38, 1274–1279 (2020). https://doi.org/10.1038/s41587-020-0703-0
