Abstract
BackgroundThe RNA-guided Cas9 system represents a flexible approach for genome editing in plants. This method can create specific mutations that knock-out or alter target gene function. It provides a valuable tool for plant research and offers opportunities for crop improvement.ResultsWe investigate the use and target specificity requirements of RNA-guided Cas9 genome editing in barley (Hordeum vulgare) and Brassica oleracea by targeting multicopy genes. In barley, we target two copies of HvPM19 and observe Cas9-induced mutations in the first generation of 23 % and 10 % of the lines, respectively. In B. oleracea, targeting of BolC.GA4.a leads to Cas9-induced mutations in 10 % of first generation plants screened. In addition, a phenotypic screen identifies T0 plants with the expected dwarf phenotype associated with knock-out of the target gene. In both barley and B. oleracea stable Cas9-induced mutations are transmitted to T2 plants independently of the T-DNA construct. We observe off-target activity in both species, despite the presence of at least one mismatch between the single guide RNA and the non-target gene sequences. In barley, a transgene-free plant has concurrent mutations in the target and non-target copies of HvPM19.ConclusionsWe demonstrate the use of RNA-guided Cas9 to generate mutations in target genes of both barley and B. oleracea and show stable transmission of these mutations thus establishing the potential for rapid characterisation of gene function in these species. In addition, the off-target effects reported offer both potential difficulties and specific opportunities to target members of multigene families in crops.Electronic supplementary materialThe online version of this article (doi:10.1186/s13059-015-0826-7) contains supplementary material, which is available to authorized users.
Highlights
The RNA-guided Cas9 system represents a flexible approach for genome editing in plants
Others [28, 29] have shown that up to two mismatches, as well as small insertions and deletions, are tolerated within this sequence. These results suggest that additional work is needed to decipher the key design rules and experimental parameters relating to onand off-target mutations using the Cas9 system
In this study, we demonstrate the use of RNA-guided Cas9 to induce targeted mutations in two crop species, B. oleracea and barley, and report stable transmission of the mutations across generations
Summary
The RNA-guided Cas system represents a flexible approach for genome editing in plants. This method can create specific mutations that knock-out or alter target gene function. Genetic modification is a key research tool for advancing knowledge of gene function as well as allowing the development of crops with valuable traits. Genetic modification technologies have advanced substantially over the past 30 years, but more recently, a series of exciting developments offer significant opportunities for the Genome editing requires a site-directed nuclease to introduce one or more breaks in the DNA at the target locus. In wheat (Triticum aestivum), RNAguided Cas has been used to mutate a single homoeologue of the mildew resistance locus MLO in stable T0 transgenic plants no information was provided regarding the inheritance of the mutant alleles [12]
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