Identification of fungal dihydrouracil-oxidase genes by expression in Saccharomyces cerevisiae

Abstract: Analysis of predicted fungal proteomes revealed a large family of sequences that showed similarity to the Saccharomyces cerevisiae Class-I dihydroorotate dehydrogenase Ura1, which supports synthesis of pyrimidines under aerobic and anaerobic conditions. However, expression of codon-optimised representatives of this gene family, from the ascomycete Alternaria alternata and the basidiomycete Schizophyllum commune, only supported growth of an S. cerevisiae ura1Δ mutant when synthetic media were supplemented with … Show more

“…Intriguingly, all dematiaceous enzymes complemented ura1Δ growth using DHU, implicating them as DHUO, but pyrimidine prototrophy was not identical for each DHUO at equivalent copper levels, suggestive of variation in oxidase activity between enzymes of different species. In line with previous findings [ 53 ], none of the dematiaceous mould enzymes could use DHU to rescue pyrimidine auxotrophy in anaerobic conditions ( Fig 7B ). These data show that these putative enzymes use DHU and oxygen to produce uracil, implicating them as DHUO rather than DHODH.…”

“…The previously characterised A . alternata DHUO [ 53 ] rescued the auxotrophy well at 250 μM copper and above. Intriguingly, all dematiaceous enzymes complemented ura1Δ growth using DHU, implicating them as DHUO, but pyrimidine prototrophy was not identical for each DHUO at equivalent copper levels, suggestive of variation in oxidase activity between enzymes of different species.…”

“…While our work was underway, a study used yeast complementation and lysate assays to demonstrate that the Ura1-like gene from A . alternata encodes a DHUO: a redox enzyme that utilises oxygen to convert DHU or dihydrothymine into uracil or thymine, plus hydrogen peroxide [ 53 ]. In line with this work, we subsequently found that the putative dematiaceous enzymes facilitated pyrimidine prototrophy in yeast when supplemented with DHU but only under aerobic conditions.…”

“…Our observations corroborate this; both dematiaceous enzymes bind FMN and cannot rescue yeast growth in anaerobic conditions even in the presence of DHU. Expanding on preliminary sequence analysis [ 53 ], all class 1A DHODH and DHUO proteins assessed in this study shared a highly conserved active site that is likely a large contribution to the in silico assignment of the latter as the former in protein databases. Further, we provide the first insight into the mechanism of DHU oxidation through the identification of a catalytic cysteine in the A .…”

“…Work published during the course of this study revealed a class 1A DHODH-like gene in A . alternata to be a dihydrouracil oxidase (DHUO) [ 53 ], a poorly characterised type of enzyme described in only one other genus of fungi [ 54 ]. DHUO have been seen to convert dihydrouracil (DHU) and dihydrothymine to uracil and thymine, respectively, resembling a step that is the reverse of the initial reaction in the reductive pathway of pyrimidine degradation.…”

Characterisation of putative class 1A DHODH-like proteins from Mucorales and dematiaceous mould species

“…Intriguingly, all dematiaceous enzymes complemented ura1Δ growth using DHU, implicating them as DHUO, but pyrimidine prototrophy was not identical for each DHUO at equivalent copper levels, suggestive of variation in oxidase activity between enzymes of different species. In line with previous findings [ 53 ], none of the dematiaceous mould enzymes could use DHU to rescue pyrimidine auxotrophy in anaerobic conditions ( Fig 7B ). These data show that these putative enzymes use DHU and oxygen to produce uracil, implicating them as DHUO rather than DHODH.…”

“…The previously characterised A . alternata DHUO [ 53 ] rescued the auxotrophy well at 250 μM copper and above. Intriguingly, all dematiaceous enzymes complemented ura1Δ growth using DHU, implicating them as DHUO, but pyrimidine prototrophy was not identical for each DHUO at equivalent copper levels, suggestive of variation in oxidase activity between enzymes of different species.…”

“…While our work was underway, a study used yeast complementation and lysate assays to demonstrate that the Ura1-like gene from A . alternata encodes a DHUO: a redox enzyme that utilises oxygen to convert DHU or dihydrothymine into uracil or thymine, plus hydrogen peroxide [ 53 ]. In line with this work, we subsequently found that the putative dematiaceous enzymes facilitated pyrimidine prototrophy in yeast when supplemented with DHU but only under aerobic conditions.…”

“…Our observations corroborate this; both dematiaceous enzymes bind FMN and cannot rescue yeast growth in anaerobic conditions even in the presence of DHU. Expanding on preliminary sequence analysis [ 53 ], all class 1A DHODH and DHUO proteins assessed in this study shared a highly conserved active site that is likely a large contribution to the in silico assignment of the latter as the former in protein databases. Further, we provide the first insight into the mechanism of DHU oxidation through the identification of a catalytic cysteine in the A .…”

“…Work published during the course of this study revealed a class 1A DHODH-like gene in A . alternata to be a dihydrouracil oxidase (DHUO) [ 53 ], a poorly characterised type of enzyme described in only one other genus of fungi [ 54 ]. DHUO have been seen to convert dihydrouracil (DHU) and dihydrothymine to uracil and thymine, respectively, resembling a step that is the reverse of the initial reaction in the reductive pathway of pyrimidine degradation.…”

Characterisation of putative class 1A DHODH-like proteins from Mucorales and dematiaceous mould species