Purification and characterization of the two molecular forms of Aspergillus oryzae acid protease.

The isolation and partial characterization of the acid proteases A1 and A2 (EC3.4.23.6) from Aspergillus oryzae grown on solid bran culture are described. The purified preparations were essentially homogeneous by several criteria including sedimentation analysis and polyacrylamide gel electrophoresis. The physiochemical properties of the proteases A1 and A2 were as follows (in the order: A1, A2): molecular weight: 63 000 & 32 000; sedimentation coefficient s20, w: 3.93 and 3.16 S; diffusion constant D20, w, 5.63 - 10(-7) and 8.61 - 10(-7) CM2/S, partial specific volume, v: 0.73 ml/g for both; nitrogen content: 16.30 and 13.42%; E1% 1 cm at 280 nm: 5.9 and 11.1. The two enzymes had the same pH optima in the acid pH range, and both activated bovine pancreatic trypsinogen. The enzymes were essentially of the same amino acid composition and immunologically cross-reacted with each other. The protease A2 contained little or no carbohydrate, whereas the protease A1 was glycoprotein, containing 49% carbohydrate comprising glucose, mannose, and galactose. These results suggest that the protein portion of acid protease A1 is the same as that of acid protease A2.     

Purification and characterization of a fibrinolytic protease from Aspergillus oryzae KSK-3

An enzyme from Aspergillus oryzae KSK-3, isolated from commercial rice-koji for miso brewing, showed fibrinolytic activity in liquefied rice culture and was analyzed. A culture filtrate of A. oryzae KSK-3 was concentrated by ultrafiltration and subsequently purified to electrophoretic homogeneity by ammonium sulfate precipitation, ion-exchange chromatography, and gel filtration. The molecular weight of the purified enzyme was estimated to be approximately 30 kDa by SDS-PAGE and high-performance liquid chromatography–size exclusion chromatography. Its maximum fibrinolytic activity was observed at pH 6 and 50°C. The purified protease was stable between pH 4 and 9, at temperatures of up to 50°C. The activity of the enzyme was highest with S-2238 and was considerably inhibited by phenylmethylsufonyl fluoride and pefabloc SC. These results indicate that the enzyme is a serine protease. Moreover, the enzyme is edible and exhibited very high productivity (2,960 U urokinase per milliliter of culture broth). Taken together, the findings of this study indicate that the A. oryzae KSK-3 enzyme may be used as a natural agent for oral fibrinolytic therapy and nutraceutical applications.     

Presence and partial characterization of internal acid protease of Aspergillus oryzae.

A membrane filter procedure is described for the enumeration of Candida albicans in natural waters. Several hundred milliliters of sample can be examined by filtration through 1.2-micrometer membranes. Selectivity is achieved by the use of a defined (yeast-nitrogen base plus maltos-) agar medium inclusion of the antimicrobial agents chloramphenicol and cycloheximide, and incubation at 37 degrees C. C. albicans colonies are differentiated primarily through color by use of a bismuth salt indicator system. Average recovery of various strains of C. albicans stressed in seawater at 4 degrees C was 82%, compared with those of spread plate controls on a noninhibitory medium. With river water and raw sewage, 90% of typical C. albicans colonies were confirmed as such in a simplified germ tube test. Atypical colonies verified as C. albicans were infrequent (3%). C. tropicalis and Torulopsis candida were the most common false-positive colonies.     

Presence and partial characterization of internal acid protease of Aspergillus oryzae.

The presence and partial characterization of the internal acid protease (EC 2.4.23.6) of Aspergillus oryzae has been investigated. Although the majority of the acid protease is external and present in the culture filtrate, a significant amount of the active enzyme is firmly bound to the cells; it is not released by repeated extraction of cells with 0.9% sodium chloride but is liberated into the soluble fraction during disruption of cells. The internal acid protease, as well as the external one, was separated into two major molecular forms (F1 and F2) with molecular weights of 60,000 and 42,000, respectively, by chromatography on Sephadex G-100 and on CM-Sephadex C-50. The partially purified internal enzymes had the same catalytic and immunological properties, as did the external enzyme.     

Evidence for the presence of membrane-bound forms of acid protease in Aspergillus oryzae.

While approximately 85% of the cell-bound acid protease of $\text{Aspergillus oryzae}$ were recovered in the soluble fraction upon disruption of cells, the rest of the enzyme was found to be present tightly associated with the membranes. Two forms of membrane-bound enzyme, which were solubilized with Triton X-100, were similar to the external acid protease found in culture medium in that they had an optimum pH at 3.2, activated trypsinogen at pH 3 and lost their activity upon treatment with 5.1 mM sodium dodecylsulfonate. However, they differed in their hydrophobic properties (i.e. aggregation in the absence of Triton X-100 and activation by the detergent) from both the cell-bound, soluble form and the one excreted into culture medium.     

An efficient two step purification and molecular characterization of beta-galactosidases from Aspergillus oryzae

Beta-galactosidases (beta-D-galactoside-galactohydrolases (EC 3.2.1.23), lactases) are important industrial enzymes used for the hydrolysis of lactose from milk and milk whey. These enzymes are produced by different organisms and purified by multi-step procedures. The multi-step purification schemes are cost and time ineffective which can also lead to poor yield, denaturation and loss of enzymatic activity. In our study, extracellular beta-galactosidase from mutant strain Aspergillus oryzaeH26-10-7 was purified by a two step procedure, Metal-ion Affinity Chromatography (IMAC) followed by size-exclusion separation. Purified enzyme was characterized by sodium dodecyl Sulphate polyacrylamide gel electrophoresis (SDS-PAGE) and zymographic analysis. This fungal beta-galactosidase was characterized as a protein corresponding to 113 kDa. Enzyme from mutant strain was found to have five times higher catalytic activity on the synthetic substrate o-nitrophenyl-beta-D-galactopyranoside (ONPG) compared to the wild type enzyme. Moreover, the mutant enzyme was more thermo resistant compared to the wild type. This highly important technological characteristic can be exploited in food industry. Moreover, based on the IMAC patterns of wild type and mutant enzymes, similarities in their His topography were supposed.     

米曲霉耐热木聚糖酶纯化及酶学特性研究

对米曲霉原始发酵液中耐热木聚糖酶进行纯化和酶学特性研究,利用甘蔗渣为碳源培养米曲霉,通过超滤和阴离子交换柱两步纯化得到木聚糖酶XynH1,分子量35．402kDa,利用飞行时间质谱和SDS—PAGE分析,推断XynH1为XylanaseXynF1,分子量为35．402kDa。XynH1属于糖苷水解酶家族10,酶活为442．2IU／nag,最适pH和温度分别为pH6．0和65℃,80℃以下及pH4．0～10．5范围内较稳定。     

Cloning and characterization of two flavohemoglobins from Aspergillus oryzae

Two flavohemoglobin (FHb) genes, fhb1 and fhb2, were cloned from Aspergillus oryzae. The amino acid sequences of the deduced FHb1 and FHb2 showed high identity to other FHbs except for the predicted mitochondrial targeting signal in the N-terminus of FHb2. The recombinant proteins displayed absorption spectra similar to those of other FHbs. FHb1 and FHb2 were estimated to be a monomer and a dimer in solution, respectively. Both of the isozymes exhibit high NO dioxygenase (NOD) activity. FHb1 utilizes either NADH or NADPH as an electron donor, whereas FHb2 can only use NADH. These results suggest that FHb1 and FHb2 are fungal counterparts of bacterial FHbs and act as NO detoxification enzymes in the cytosol and mitochondria, respectively. This study is the first to show that a microorganism contains two isozymes of FHb and that intracellular localization of the isozymes could differ.     

Purification and characterization of endo-beta-N-acetylglucosaminidase of Aspergillus oryzae

An endo-beta-N-acetylglucosaminidase which hydrolyzes the N,N'-diacetylchitobiosyl linkage in asparagine-linked oligosaccharides was purified from the enzyme product of Aspergillus oryzae. Its substrate specificity was similar to that of endo-beta-N-acetylglucosaminidase H from Streptomyces griseus with respect to the relative activities toward the glycopeptides obtained from ovalbumin and bovine IgG. The present endoglycosidase exhibited a broad optimum pH range and was relatively stable. Metal ions, chelating agents and D-mannose did not have a significant effect on the enzyme activity.     

Purification and characterization of L-amino acid oxidase from the solid-state grown cultures of Aspergillus oryzae ASH

L-Amino acid oxidase (L-AAO) was purified from the solid state-grown cultures of A. oryzae ASH (JX006239.1) by fractional salting out, followed by ion exchange and gel filtration chromatography, to its molecular homogeneity, displaying 3.38-fold purification in comparison with the crude enzyme. SDS-PAGE revealed the enzyme to be a homo-dimer with ～55-kDa subunits, with approximate molecular weight on native PAGE of 105–110 kDa. Two absorption maxima, at 280 nm and 341 nm, for the apoproteinic and FMN prosthetic group of the enzyme, respectively, were observed, with no detected surface glycosyl residues. The enzyme had maximum activity at pH 7.8–8.0, with ionic structural stability within pH range 7.2–7.6 and pH precipitation point (pI) 4.1–5.0. L-AAO exhibited the highest activity at 55°C, with plausible thermal stability below 40°C. The enzyme had T _1/2 values of 21.2, 8.3, 3.6, 3.1, 2.6 h at 30, 35, 40, 50, 60°C with Tm 61.3°C. Kinetically, A. oryzae L-AAO displayed a broad oxidative activity for tested amino acids as substrates. However, the enzyme had a higher affinity towards basic amino acid L-lysine (K _m 3.3 mM, K _cat 0.04 s^?1) followed by aromatic amino acids L-tyrosine (K _m 5.3 mM, K _cat 0.036 s^?1) and L-phenylalanine (K _m 6.6 mM), with 1ow affinity for the S-amino acid L-methionine (K _m 15.6 mM). The higher specificity of A. oryzae L-AAO to L-lysine as substrate seems to be a unique property comparing to this enzyme from other microbes. The enzyme was significantly inhibited by hydroxylamine and SDS, with slight inhibition by EDTA. The enzyme had a little effect on AST and ALT, with no effect on platelet aggregation and blood hemolysis in vivo with an obvious cytotoxic effect towards HepG2 (IC₅₀ 832.2 μg/mL) and MCF-7 (IC₅₀, 370.6 μg/mL) tumor cells in vitro.     

DNA ligases from rat liver. Purification and partial characterization of two molecular forms

The differential ability of mammalian DNA ligases to use oligo(dT).poly(rA) as a substrate has been used to detect, and thereby extensively purify, two immunologically distinct forms of DNA ligase from rat liver. The activity of DNA ligase I, which is unable to use this template, is uniquely increased during liver regeneration, while that of DNA ligase II remains at a low level. Both enzymes require ATP and Mg2+ for activity and form an adenylylated intermediate which is stable and reactive. After SDS-PAGE, such radiolabeled complexes correspond to polypeptides of 130,000 and 80,000 Da for DNA ligase I and to 100,000 Da for DNA ligase II. That these labeled polypeptides do indeed correspond to active polypeptides of two different forms of DNA ligase is shown by the removal of the radiolabeled AMP, only when the intermediate is incubated with an appropriate substrate. In contrast to other eukaryotic DNA ligases, rat liver DNA ligase II has a lower Km for ATP (1.2 X 10(-5) M) than DNA ligase I (6 X 10(-5) M). Also, DNA ligase II can use ATP alpha S as a cofactor in the ligation reaction much more efficiently than DNA ligase I, further discriminating the ATP binding sites of these enzymes. Finally, antibodies raised against the 130,000-Da polypeptide of DNA ligase I specifically recognize this species in an immunoblot and inhibit only the activity of DNA ligase I.     

Purification and characterization of a biodegradable plastic-degrading enzyme from Aspergillus oryzae

We used biodegradable plastics as fermentation substrates for the filamentous fungus Aspergillus oryzae. This fungus could grow under culture conditions that contained emulsified poly-(butylene succinate) (PBS) and emulsified poly-(butylene succinate-co-adipate) (PBSA) as the sole carbon source, and could digest PBS and PBSA, as indicated by clearing of the culture supernatant. We purified the PBS-degrading enzyme from the culture supernatant, and its molecular mass was determined as 21.6 kDa. The enzyme was identified as cutinase based on internal amino acid sequences. Specific activities against PBS, PBSA and poly-(lactic acid) (PLA) were determined as 0.42 U/mg, 11 U/mg and 0.067 U/mg, respectively. To obtain a better understanding of how the enzyme recognizes and hydrolyzes PBS/PBSA, we investigated the environment of the catalytic pocket, which is divided into carboxylic acid and alcohol recognition sites. The affinities for different substrates depended on the carbon chain length of the carboxylic acid in the substrate. Competitive inhibition modes were exhibited by carboxylic acids and alcohols that consisted of C₄-C₆ and C₃-C₈ chain lengths, respectively. Determination of the affinities for different chemicals indicated that the most preferred substrate for the enzyme would consist of butyric acid and n-hexanol.This revised version was published online in February 2005 with corrections to Table 1.     

Purification and characterization of a prolyl endopeptidase isolated from Aspergillus oryzae

A new fungal strain that was isolated from our library was identified as an Aspergillus oryzae and noted to produce a novel proly endopeptidase. The enzyme was isolated, purified, and characterized. The molecular mass of the prolyl endopeptidase was estimated to be 60 kDa by using SDS-PAGE. Further biochemical characterization assays revealed that the enzyme attained optimal activity at pH 4.0 with acid pH stability from 3.0 to 5.0. Its optimum temperature was 30 °C and residual activity after 30 min incubation at 55 °C was higher than 80 %. The enzyme was activated and stabilized by Ca²⁺ but inhibited by EDTA (10 mM) and Cu²⁺. The K _m and k _cat values of the purified enzyme for different length substrates were also evaluated, and the results imply that the enzyme from A. oryzae possesses higher affinity for the larger substrates. Furthermore, this paper demonstrates for the first time that a prolyl endopeptidase purified from A. oryzae is able to hydrolyze intact casein.     

Purification and characterization of protease from a newly isolated Rhizopus oryzae

A newly isolated Rhizopus oryzae was found to exhibit some unusual phenomenon of secreting alkaline protease which was purified and characterized. The molecular weight was determined to be 28,600 dalton in gel electrophoresis. The enzyme is stable in the pH range from 3 to 11 and most active at pH 8. The temperature optimum of this thermostable biocatalyst is at 60 °C. The enzyme is sensitive to metal chelators, most of the metal ions (excepting a few monovalent cations) and inhibitor like PMSF. This indicates that the protease of isolated Rhizopus oryzae falls under alkaline serine group.     

Purification and partial characterization of NAD aminohydrolase from Aspergillus oryzae NRRL447

Aspergillus oryzae aminohydrolase free acid phosphodiesterase catalyzes nicotinamide adenine dinucleotide to deamino-NAD and ammonia. The enzyme was purified to homogeneity by a combination of acetone precipitation, anion exchange chromatography and gel filtration chromatography. The enzyme was purified 230.5 fold. Sodium dodecyl sulfate-polyacrylamide gel electrophoresis of the purified enzyme showed a single protein band of MW 94 kDa. The enzyme displayed maximum activity at pH 5 and 40 °C with NAD as substrate. The enzyme activity appeared to be stable up to 40 °C. The enzyme activity was enhanced slightly by addition of Na⁺ and K⁺, whereas inhibited strongly by addition of Ag⁺, Mn²⁺, Hg²⁺ and Cu²⁺ to the reaction mixtures. The enzyme hydrolyzes several substrates, suggesting a probable non-specific nature. The enzyme catalyzes the hydrolytic cleavage of amino group of NAD, adenosine, AMP, CMP, GMP, adenosine, cytidine and cytosine to the corresponding nucleotides, nucleosides or bases and ammonia. The substrate concentration–activity relationship is the hyperbolic type and the apparent K_m and K_cat for the tested substrates were calculated.     

Purification and characterization of an intracellular beta-glucosidase from the protoplast fusant of Aspergillus oryzae and Aspergillus niger

Protoplasts of Aspergillus oryzae 3.481 and Aspergillus niger 3.316 were prepared using cellulose and snail enzyme with 0.6 M NaCl as osmotic stabilizer. Protoplast fusion has been performed using 35% polyethylene glycol 4.000 with 0.01 mM CaCl2. The fused protoplasts have been regenerated on regeneration medium and fusants were selected for further studies. An intracellular beta-glucosidase (EC 3.2.1.21) was purified from the protoplast fusant of Aspergillus oryzae 3.481 and Aspergillus niger 3.316 and characterized. The enzyme was purified 138.85-fold by ammonium sulphate precipitation, DE-22 ion exchange and Sephadex G-150 gel filtration chromatography with a specific activity of 297.14 U/mg of protein. The molecular mass of the purified enzyme was determined to be about 125 kDa by sodium dodecyl sulphate-polyacrylamide gel electrophoresis. The enzyme had an optimum pH of 5.4 and temperature of 65 degrees C, respectively. This enzyme showed relatively high stability against pH and temperature and was stable in the pH range of 3.0-6.6. Na+, K+, Ca2+, Mg2+ and EDTA completely inhibited the enzyme activity at a concentration of 10 mM. The enzyme activity was accelerated by Fe3+. The enzyme activity was strongly inhibited by glucose, the end product ofglucoside hydrolysis. The K(m) and V(max) values against salicin as substrate were 0.035 mM and 1.7215 micromol min(-1), respectively.     

Purification and properties of glutaminase from Aspergillus oryzae

Glutaminase activity was found in a water extract of a wheat bran koji (extracellular fraction) of Aspergillus oryzae strains Lee-1, H-16 and MA-27-IM isolated from a commercial koji ssed for soy sauce fermentation, as well as in thier mycelia (intracellular fraction). Both the intracellular and the extracellular glutaminases were purified from strain MA-27-IM. Polyacrylamide gel electrophoresis of each purified preparation gave a single band with identical electrophoretic mobility. The molecular weight of the intracellular and the extracellular glutaminases were estimated to be approximately 113, 000. Both preparations hydrolyzed various γ-glutamyl compounds besides l-glutamine but did not exhibit asparaginase activity. Further investigation of these preparations inidicated that these glutaminases possessed almost the same properties, suggesting their similarity.