CRISPR-Mediated Genome Editing in the Human Fungal Pathogen C. albicans.

Cas9-mediated genome editing is one tool investigators can use to study fungal pathogens. Such methodologies allow the investigator to examine how fungal cells differ from human cells and thus potentially identify novel therapeutic targets. In this chapter, we describe how CRISPR-mediated genome editing can be used to edit the genome of the most prevalent human fungal pathogen C. albicans. A cassette encoding a fungal optimized Cas9 nuclease and guide RNA is integrated into the C. albicans genome. The guide RNA targets Cas9 to the complementary genome sequence, and Cas9 cleaves the DNA. A repair template encoding whatever changes the investigator wished to make to the genome is co-transformed with the cassette and repairs the break via homologous recombination, thus introducing the change to the genome. The method we describe enables the researcher to edit the C. albicans genome and then efficiently remove the editing machinery and antibiotic resistance markers. This allows one to sequentially edit the C. albicans genome when multiple changes are desired. In addition, we provide notes that provide guidance on how the described protocols can be altered to meet the demands of the researcher. In these notes, we also describe the recent development of a more flexible CRISPR system that has a relaxed PAM site specificity. These and other advancements make CRISPR-mediated genome editing a practical approach when one needs to genetically alter C. albicans.