Abstract
The rapid development of CRISPR/CRISPR-associated (Cas) systems has revolutionized the ability to produce genetic mutations in a desired locus, particularly in organisms with low rates of homologous recombination. Histoplasma is an important respiratory and systemic fungal pathogen that has few reverse genetic options. We describe an optimized CRISPR/Cas system for the efficient generation of mutations in desired genes. The limited requirements for CRISPR/Cas, namely a gene-targeting guide RNA (gRNA) and expression of a Cas endonuclease, enabled both the gRNA and the Streptococcus pyogenes Cas9 gene to be expressed from a single episomal vector. The gRNAs are expressed from a strong Pol(II) promoter, a critical parameter for increasing the recovery of mutated genes, and processed into the mature gRNA by ribozymes in the mRNA. Expression of dual-tandem gRNAs facilitates the generation of gene deletions at a good frequency which can be detected by PCR-based screening of pooled isolates resulting in the isolation of marker-less deletion mutants. The CRISPR/Cas system is encoded on an episomal telomeric vector facilitating curing strains of the CRISPR/Cas vector upon generation of the mutant. We demonstrate the successful application of this CRISPR/Cas system in diverse Histoplasma species and applicable for multiple genes. The optimized system shows promise for accelerating reverse genetic studies in Histoplasma spp. IMPORTANCE The ability to eliminate gene product functions is central to understanding molecular mechanisms. In the fungal pathogen Histoplasma, methods to inactivate or deplete gene products are inefficient, which hampers progress in defining Histoplasma's virulence mechanisms. We describe an efficient CRISPR/Cas-based system for generating gene deletions in Histoplasma and show its validation on multiple genes with selectable and non-selectable phenotypes.
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