CRISPR/Cas9 RNP-Mediated Gene Fusion to Assess Protein Quantification and Subcellular Localization in Fusarium oxysporum

F. oxysporum is a notorious filamentous pathogenic fungus that causes serious problems in agriculture and animal/human health. Knowing how the fungus interacts throughout the course of an infection is necessary to propose an effective control strategy, and consequently the manipulation of the F. oxysporum genome is essential to investigate the molecular interplay between the host and fungus. To facilitate assessing protein quantification and subcellular localization, we developed a simple, economical CRISPR/Cas9-mediated endogenous gene tagging (EGT) system based on two different strategies, homology-independent targeted integration (HITI) and homology-dependent recombination integration (HDRI). Reporter genes, including GFP and LacZ, can be inserted at the N- or C-terminus of an endogenous gene of interest at the original chromosomal locus, allowing partial characterization of the gene function.