AIMS: Aspartyl aminopeptidase (DAP) has a high degree of substrate specificity, degrading only amino-terminal acidic amino acids from peptides. Therefore, attention is focused here on the efficient production of this enzyme by a recombinant Aspergillus oryzae and characterization of its biochemical properties. METHODS AND RESULTS: The gene encoding DAP was overexpressed under a taka-amylase gene promoter, with His-tag linker in A. oryzae, during cultivation in a Co(2+)-containing medium. The enzyme was extracted from the mycelia and purified with immobilized nickel ion absorption chromatography using a buffer containing cobalt ion and imidazole. The active fraction was further purified with gel filtration chromatography. The resultant, electrophoretically pure enzyme displayed a molecular mass of 520 kDa. This enzyme displayed high reactivity towards peptide substrate rather than synthetic substrates. CONCLUSIONS: Recombinant A. oryzae DAP was purified to homogeneity with an increased specific activity, when cultivated in a Co(2+)-rich medium. Moreover, the use of suitable metal ions in microbial cultivation and purification processes may help in increasing the specific activity of other metalloproteases and their functional analysis. SIGNIFICANCE AND IMPACT OF THE STUDY: Recombinant DAP produced using a cobalt ion in culture media of A. oryzae and purification process allow high yield of the enzyme activity.
AIMS: Aspartyl aminopeptidase (DAP) has a high degree of substrate specificity, degrading only amino-terminal acidic amino acids from peptides. Therefore, attention is focused here on the efficient production of this enzyme by a recombinant Aspergillus oryzae and characterization of its biochemical properties. METHODS AND RESULTS: The gene encoding DAP was overexpressed under a taka-amylase gene promoter, with His-tag linker in A. oryzae, during cultivation in a Co(2+)-containing medium. The enzyme was extracted from the mycelia and purified with immobilized nickel ion absorption chromatography using a buffer containing cobalt ion and imidazole. The active fraction was further purified with gel filtration chromatography. The resultant, electrophoretically pure enzyme displayed a molecular mass of 520 kDa. This enzyme displayed high reactivity towards peptide substrate rather than synthetic substrates. CONCLUSIONS: Recombinant A. oryzaeDAP was purified to homogeneity with an increased specific activity, when cultivated in a Co(2+)-rich medium. Moreover, the use of suitable metal ions in microbial cultivation and purification processes may help in increasing the specific activity of other metalloproteases and their functional analysis. SIGNIFICANCE AND IMPACT OF THE STUDY: Recombinant DAP produced using a cobalt ion in culture media of A. oryzae and purification process allow high yield of the enzyme activity.
Authors: Apirat Chaikuad; Ewa S Pilka; Antonio De Riso; Frank von Delft; Kathryn L Kavanagh; Catherine Vénien-Bryan; Udo Oppermann; Wyatt W Yue Journal: BMC Struct Biol Date: 2012-06-21