Virus-induced plant genome editing

Plant viruses have been engineered to express heterologous proteins and RNAs in plants for several decades. This viral system can now be applied to editing plant genomes. Virus vectors can deliver Cas proteins and guide RNAs, two key components of the CRISPR gene-editing system, into a plant cell without a complicated experimental procedure. In some cases, plant viruses move to meristematic cells and express gene-editing components in the cell, which results in the production of mutant seeds. Here, we focus on three main issues of the virus-induced genome editing (VIGE) technology in plants: (1) how to express the relatively large size of Cas proteins, (2) how to express guide RNA, and (3) how to increase the efficiency with which viruses are delivered into meristematic cells. We highlight recent advances in how plant virus vectors can be used efficiently in plant-genome editing.

Automated summary

Plant viruses can be utilized as vectors to deliver Cas proteins and guide RNAs into plant cells for genome editing, resulting in the production of mutant seeds. Efforts are focused on expressing large Cas proteins, guide RNAs, and improving the efficiency of virus delivery to meristematic cells in plants for effective genome editing.