Enhancing plant genome editing through the use of a flexible CRISPR-Combo system |
Plant genome engineering has greatly benefited from the use of CRISPR-Cas9, its derived base editors, and CRISPR activation systems. However, since these systems are typically used independently, their combined potential is largely unrealized. We create a flexible CRISPR-Combo platform for simultaneous genome editing (targeted mutagenesis or base editing) and gene activation in plants here, based on a single Cas9 protein |
Amartya Nandi , Aman M. Kewlani ScienceOpen; 2 December 2022 (electronic print) ABSTRACTPlant genome engineering has greatly benefited from the use of CRISPR-Cas9, its derived base editors, and CRISPR activation systems. However, since these systems are typically used independently, their combined potential is largely unrealized. We create a flexible CRISPR-Combo platform for simultaneous genome editing (targeted mutagenesis or base editing) and gene activation in plants here, based on a single Cas9 protein. We highlight the effective CRISPR-Combo applications for enhancing plant genome editing. By activating the florigen gene in Arabidopsis, CRISPR-Combo is used to shorten the plant life cycle and reduce the effort required to screen transgene-free genome-edited plants. We then use the activation of morphogenic genes in poplar to show how genome-edited plants can regenerate and reproduce more quickly. Additionally, we use CRISPR-Combo, which is recognized as a new technique to primarily enrich heritable targeted mutations, to achieve rice regeneration without the use of exogenous plant hormones. As a versatile tool for genome engineering, CRISPR-Combo has potential uses in crop breeding.
See https://www.scienceopen.com/hosted-document?doi=10.14293/S2199-1006.1.SOR-.PPTSMD2.v1
Figure 1: Cas9-Act3.0-induced simultaneous targeted mutagenesis and activation. |
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