Aspergillus nidulans UDP-glucose-4-epimerase UgeA has multiple roles in wall architecture, hyphal morphogenesis, and asexual development.

Aspergillus nidulans UDP-glucose-4-epimerase UgeA interconverts UDP-glucose and UDP-galactose and participates in galactose metabolism. The sugar moiety of UDP-galactose is predominantly found as galactopyranose (Galp, the six-membered ring form), which is the substrate for UDP-galactopyranose mutase (encoded by ugmA) to generate UDP-galactofuranose (Galf, the five-membered ring form) that is found in fungal walls. In A. fumigatus, Galf residues appear to be important for virulence. The A. nidulans ugeA Delta strain is viable, and has defects including wide, slow growing, highly branched hyphae and reduced conidiation that resemble the ugmA Delta strain. As for the ugmA Delta strain, ugeA Delta colonies had substantially reduced sporulation but normal spore viability. Conidia of the ugeA Delta strain could not form colonies on galactose as a sole carbon source, however they produced short, multinucleate germlings suggesting they ceased to grow from starvation. UgeA purified from an expression plasmid had a relative molecular weight of 40.6 kDa, and showed in vitro UDP-glucose-4-epimerase activity. Transmission electron microscope cross-sections of wildtype, ugeA Delta, and ugmA Delta hyphae showed they had similar cytoplasmic contents but the walls of each strain were different in appearance and thickness. Both deletion strains showed increased substrate adhesion. Localization of UgeA-GFP and UgmA-GFP was cytoplasmic, and was similar on glucose and galactose. Neither gene product had a longitudinal polarized distribution. Localization of a UgmA-mRFP in a strain that resembled the ugmA Delta strain was cytoplasmic and lacked a longitudinal polarized distribution. The roles of UgeA in A. nidulans growth and morphogenesis are consistent with the importance of Galf, and are related but not identical to the roles of UgmA.