CSU57 encodes a novel repressor of sorbose utilization in opportunistic human fungal pathogen Candida albicans.

Abstract

Human fungal pathogen Candida albicans cannot utilize L-sorbose as a sole carbon source. However, chromosome 5 monosomic strains can grow on sorbose as repressors present on this chromosome get diminished allowing the expression of sorbose utilization gene (SOU1) located on chromosome 4. Functional identification of these repressors has been a difficult task as they are scattered on a large portion of the right arm of chromosome 5. Herein, we have applied the telomere-mediated chromosomal truncation approach to identify a novel repressor for sorbose utilization in this pathogen. Multiple systematic chromosomal truncations were performed on the right arm of Chr5 in the background of csu51∆/CSU51 to minimize the functional region to 6-kb chromosomal stretch. Further, truncation that removes the part of Orf19.3942 strongly suggested its role in sorbose utilization. However, compelling evidence comes from the observation that truncation at 1,044.288-kb position of Chr5 in the strain csu51∆/CSU51 orf19.3942∆/Orf.19.3942 produced Sou+ phenotype; otherwise, the strain remains Sou- . This confirms beyond doubt the role of Orf.19.3942 in the regulation of sorbose utilization and designated as CSU57. Comparison of SOU1 gene expression of Sou+ strains with wild type suggested its role at transcriptional level. Strain carrying double disruption of CSU57 remains Sou- . Co-overexpression of SOU1 and CSU57 together does not make the recipient strain Sou- ; however, multiple tandem copies of CSU57 produced diminished growth compared with control suggesting that it is a weak repressor. Taken together, we report that CSU57 encodes a novel repressor of L-sorbose utilization in this pathogen. TAKE AWAY: CSU57 encodes a repressor for L-sorbose utilization in Candida albicans. Csu57p acts in combination with Csu51p and other regulators. Csu57p exerts its repressing effect at transcriptional level of SOU1 gene. Utilization of sorbose positively correlates to the expression of SOU1 gene. Multiple copies of CSU57 can partially suppress Sou+ phenotype.