Recent developments in genome editing and applications in plant breeding

Increasing genetic variation beyond natural variation is an important aim in plant breeding. In the past 70years, random mutagenesis by irradiation or by chemicals has created numerous mutants which have been frequently used in breeding. However, their application is hampered by the mutational load due to many background mutations. In the past 10years, new techniques for site-directed mutagenesis have been introduced to plant breeding which are commonly referred to as genome editing. Among these, the CRISPR/Cas9 system turned out to be the most efficient and easy to apply. DNA is cleaved by a nuclease precisely at a target site where a mutation is likely to be beneficial. The DNA is healed by the cellular repair system either by error-prone non-homologous end joining or by homologous recombination, by which small DNA fragments can be inserted at the target site. In this review, we describe the application of targeted mutagenesis to crop plants and the modification of agronomically important traits, which could have direct impacts on plant breeding.