Multiplex genetic engineering exploiting pyrimidine salvage pathway-based self-encoded selectable markers

Selectable markers are indispensable for genetic engineering, yet their number and variety is limited. Most selection procedures for prototrophic cells rely on the introduction of antibiotic resistance genes. New minimally invasive tools are needed to facilitate sophisticated genetic manipulations. Here, we characterized three endogenous genes in the human fungal pathogen Aspergillus fumigatus for their potential as markers for targeted genomic insertions of DNAs-of-interest (DOI). Since these genes are involved in uptake and metabolization of pyrimidines, resistance to the toxic effects of prodrugs 5-fluorocytosine and 5-fluorouracil can be used to select successfully integrated DOI. We show that DOI integration, resulting in the inactivation of these genes, caused no adverse effects with respect to nutrient requirements, growth or virulence. Beside the individual use of markers for site-directed integration of reporter cassettes including the 17-kb penicillin biosynthetic cluster, we demonstrate their sequential use inserting three fluorescent protein encoding genes into a single strain for simultaneous multicolor localization microscopy. In addition to A. fumigatus, we validated the applicability of this novel toolbox in Penicillium chrysogenum and Fusarium oxysporum. Enabling multiple targeted insertions of DOI without the necessity for exogenous markers, this technology has the potential to significantly advance genetic engineering.