Genotyping strategies for detecting CRISPR mutations in polyploid species: a case study-based approach in hexaploid wheat

Abstract

AbstractAs a versatile tool for genome engineering, CRISPR-Cas9 has been revolutionizing the field of molecular biology, biotechnology, and crop improvement. By precisely targeting pre-selected genomic sites, CRISPR-Cas9 primarily induces insertions or deletions (indels) of variable size. Despite the significant advance in the technology per se, detecting these indels is the major and difficult part of the CRISPR program in polyploid species, like wheat, with relatively low mutation rates. A plethora of methods are available for detecting mutations, but no method is perfect for all mutation types. In this case study, we demonstrated a new, protocol for capturing length polymorphism from small indels using a nested PCR approach. This new method is tractable, efficient, and cost-effective in detecting and genotyping indels >3-bp. We also discussed the major genotyping platforms used in our wheat CRISPR projects, such as mismatch cleavage assay, restriction enzyme assay, ribonucleoprotein assay, and Sanger sequencing, for their advantages and pitfalls in wheat CRISPR mutation detection.