L-rhamnose (6-deoxy-mannose) occurs in nature mainly as a component of certain plant structural polysaccharides and bioactive metabolites but has also been found in some microorganisms and animals. The release of L-rhamnose from these substrates is catalysed by extracellular enzymes including α-L-rhamnosidases, the production of which is induced in its presence. The free sugar enters cells via specific uptake systems where it can be metabolized. Of two L-rhamnose catabolic pathways currently known in microorganisms a non-phosphorylated pathway has been identified in fungi and some bacteria but little is known of the regulatory mechanisms governing it in fungi. In this study two genes (lraA and lraB) are predicted to be involved in the catabolism of L-rhamnose, along with lraC, in the filamentous fungus Aspergillus nidulans. Transcription of all three is co-regulated with that of the genes encoding α-L-rhamnosidases, i.e. induction mediated by the L-rhamnose-responsive transcription factor RhaR and repression of induction in the presence of glucose via a CreA-independent mechanism. The participation of lraA/AN4186 (encoding L-rhamnose dehydrogenase) in L-rhamnose catabolism was revealed by the phenotypes of knock-out mutants and their complemented strains. lraA deletion negatively affects both growth on L-rhamnose and the synthesis of α-L-rhamnosidases, indicating not only the indispensability of this pathway for L-rhamnose utilization but also that a metabolite derived from this sugar is the true physiological inducer.
Keywords: Aspergillus nidulans; CCR; CreA-independent; L-rhamnose catabolism; L-rhamnose dehydrogenase; LRA; RT-qPCR; RhaR; Transcriptional regulation; lraA/AN4186; α-L-rhamnosidases.