Abstract
Virus-induced genome editing (VIGE) is expanding plant functional genomics by enabling precise and heritable genome modification across diverse species. While classical model systems such as Arabidopsis thaliana have provided foundational genetic insights, many ecologically, agriculturally, and chemically important traits reside in species that remain difficult to manipulate genetically. By coupling CRISPR-Cas systems with plant viral vectors, VIGE bypasses key limitations of conventional transformation and enables rapid mutagenesis without repeated tissue culture and plant regeneration. This approach enables researchers to examine gene function in species selected for biological relevance rather than technical convenience. Here, we review the conceptual framework, technical considerations, and applications of VIGE, and discuss its current limitations and future prospects in ecological, evolutionary, and crop research.