An Adjuvant-Based Approach Enables the Use of Dominant and Selectable Markers in Candida albicans.

Candida albicans is a pathobiont fungus that can colonize multiple niches in the human body but is also a frequent cause of both mucosal and systemic disease. Despite its clinical importance, a paucity of dominant selectable markers has hindered the development of tools for genetic manipulation of the species. One factor limiting the utilization of dominant selectable markers is that C. albicans is inherently more resistant to antibiotics used for selection in other species. Here, we showed that the inclusion of suitable adjuvants can enable the use of two aminoglycoside antibiotics, hygromycin B and G418, for positive selection in C. albicans. Combining these antibiotics with an adjuvant, such as quinine or molybdate, substantially suppressed the background growth of C. albicans, thereby enabling transformants expressing or markers to be readily identified. We verified that these adjuvants were not mutagenic to C. albicans and that and markers were orthogonal to the existing marker , and so provide complementary tools for the genetic manipulation of C. albicans strains. Our study also established that adjuvant-based approaches can enable the use of selectable markers that would otherwise be limited by high background growth from susceptible cells. Only a single dominant selectable marker has been widely adopted for use in the opportunistic fungal pathogen Candida albicans. This is in stark contrast to model fungi where a repertoire of dominant markers is readily available. A limiting factor for C. albicans has been the high levels of background growth obtained with multiple antibiotics, thereby limiting their use for distinguishing cells that carry an antibiotic-resistance gene from those that do not. Here, we demonstrated that the inclusion of adjuvants can reduce background growth and enable the robust use of both and markers for genetic selection in C. albicans.