Enolase (2-phospho-D-glycerate hydrolase) is an enzymatic component of the glycolytic pathway and has been well conserved throughout evolution. It is encoded by CaENO1 in Candida albicans, the most frequently isolated human fungal pathogen. The protein product can also be found on the cell surface and bind host plasminogen in association with tissue invasion. In order to understand the role other than that in glycolytic pathway, CaENO1 was subjected to mutagenesis analysis by the construction of null mutants via gene-replacement with the SAT1 flipping cassette. Strains lacking CaENO1 were not able to grow on glucose or fructose and it also failed to grow on Difco-yeast nitrogen base medium without amino acid. It was also observed that null mutations affected the susceptibility to amphotericin B and miconazole, in addition to the resistance to NaCl stress. Hence, CaENO1 was involved in drug susceptibility in addition to its role in carbon utilization. And it may also be involved in regulation of cell osmolarity or ion channels. Furthermore, the CaENO1 null mutant was avirulent when tested in a mouse model for systemic infection, and also exhibited defective hyphal formation. These results may help to design new and more effective antifungal agents. In addition, CaREP5 (Regulator of Efflux Pump) and CaREP6 were isolated from C. albicans genomic library due to its ability to increase the β-galactosidase activity of CDR1YM990348 promoter-lacZ fusion construct in Saccharomyces cerevisiae in the presence of miconazole. CDR1 is a drug resistance gene. And just like CaENO1, it is known to affect the pathogenesis of C. albicans. In this study, these genes were subjected to genetic and functional studies. And the results showed there were no significant differences in the phenotypes between the wild type and the Carep5/Carep5 or the Carep6/Carep6 under the conditions tested.