Purification and properties of cobalamin-independent methionine synthase from Candida albicans and Saccharomyces cerevisiae.

In this study, we investigated methionine synthase from Candida albicans (CaMET 6p) and Saccharomyces cerevisiae (ScMET 6p). We describe the cloning of CaMet 6 and ScMet 6, and the expression of both the enzymes in S. cerevisiae. CaMET 6p is able to complement the disruption of met 6 in S. cerevisiae. Following the purification of ScMET 6p and CaMET 6p, kinetic assays were performed to determine substrate specificity. The Michaelis constants for ScMET 6p with CH(3)-H(4)PteGlu(2), CH(3)-H(4)PteGlu(3), CH(3)-H(4)PteGlu(4), and l-homocysteine are 108, 84, 95, and 13 microM, respectively. The Michaelis constants for CaMET 6p with CH(3)-H(4)PteGlu(2), CH(3)-H(4)PteGlu(3), CH(3)-H(4)PteGlu(4), and l-homocysteine are 113, 129, 120, and 14 microM, respectively. Neither enzyme showed activity with CH(3)-H(4)PteGlu(1) as a substrate. We conclude that ScMET 6p and CaMET 6p require a minimum of two glutamates on the methyltetrahydrofolate substrate, similar to the bacterial metE homologs. The cloning, purification, and characterization of these enzymes lay the groundwork for inhibitor-design studies on the cobalamin-independent fungal methionine synthases.