AMMONIUM-ASSIMILATING ENZYMES AND THEIR REGULATION IN WILD AND NADP-GLUTAMATE DEHYDROGENASE-DEFICIENT STRAINS OF THE ECTOMYCORRHIZAL FUNGUS HEBELOMA-CYLINDROSPORUM

Hebeloma cylindrosporum strain h 17 was grown on media containing either glutamate or ammonium as nitrogen source. Growth tests and in vitro activity measurements revealed that both glutamine synthetase (GS, EC 6.3.1.2) and NADP-specific glutamate dehydrogenase (NADP-GDH, EC 1.4.1.4) are fully functional in wild type mycelia grown on glutamate or ammonium as sole nitrogen source. However, NADP-GDH appeared to be more active than GS in stationary growing mycelia. NADP-GDH is also able to sustain adequate ammonium assimilation in methionine sulfoximine (MSX)-treated mycelia since they grew as well as mycelia fed with ammonium alone. The NADP-GDH also appeared to be L-glutamate inducible whereas GS was repressed by ammonium. The NADP-GDH deficient strain, when transferred from a glutamate containing medium to an ammonium containing medium, exhibited a derepressed GS, although this enzyme did not fully substitute for the deficiency of NADP-GDH in ammonium assimilation. The low NADP-GDH activity of the mutant strain exhibited a reduced mobility on a 6% constant polyacrylamide gel. By contrast, the two enzymes had identical molecular weights, estimated to be ca 295 kDa on gradient polyacrylamide gel. The involvement of NADP-GDH and GS enzymes in nitrogen assimilation is discussed.