• Biotechnology and Bioprocess Engineering:BBE
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• v.7 no.3
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• pp.155-162
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• 2002

The cyclic amidohydrolase family enzymes, which include allantoinase, dihydroorotase, dihydropyrimidinase and (phenyl)hydantoinase, are metal-dependent hydrolases and play a crucial role in the metabolism of purine and pyrimidine in vivo. Each enzyme has been independently characterized, and thus well documented, but studies on the higher structural traits shared by members of this enzyme family are rare due to the lack of comparative study. Here, we report upon the expression in E. coli cells of maltose-binding protein (MBP)- and glutathione S-transferase (GST)-fused cyclic amidohydrolase family enzymes, facilitating also for both simple purification and high-level expression. Interestingly, the native quaternary structure of each enzyme was maintained even when fused with MBP and GST. We also found that in fusion proteins the favorable biochemical properties of family enzymes such as, their optimal pHs, specific activities and kinetic properties were conserved compared to the native enzymes. In addition, MBP-fused enzymes showed remarkable folding ability in-vitro. Our findings, therefore, suggest that a previously unrecognized trait of this family, namely the ability to functional fusion with some other protein but yet to retain innate properties, is conserved. We described here the structural and evolutionary implications of the properties in this family enzyme.

• Journal of Korea Technical Association of The Pulp and Paper Industry
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• v.33 no.1
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• pp.30-37
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• 2001

The effects of enzymatic treatment of recycled fiber were investigated to obtain the basic informations which can be used to improve the papermaking properties of recycled fiber. The recycled fibers were prepared by the repeated handsheet making and disintegrating of hardwood of hardwood and softwood kraft pulp. Novozym 342, Dinimax and Pulpzyme HC were used for enzymatic treatment. The change of fiber length distribution, freeness, contact angle and crystallinity of pulp were measured. The brightness, opacity, breaking and tear index of paper were also measured. The enzymatic treatment decreased long fiber fraction of recycled hardwood fiber, but increased long fiber fraction of recycled softwood fiber. Freeness was decreased with 0.1% enzyme and then increased again with the increase of th enzyme dosage. The improvement of flexibility of recycled fiber was obtained through the decrease of contact angle that is resulted from the decrease of crystallinity of fiber. Brightness and opacity were affected by the type of pulp and enzyme, and dosage of enzyme. Breaking length of recycled hardwood fiber was improved with enzyme treatment, but breaking length of recycled softwood fiber was decreased except for 0.01% Pulpzyme treatment. Tear index was decreased with enzymatic treatment and the lowest decrease was observed with the treatment to Pulpzyme.

• Preventive Nutrition and Food Science
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• v.2 no.1
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• pp.71-76
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• 1997

Pullulanase was produced from the Klebisella pneumonias NFB_320 with the conmposition of 0.1% pullualn 1.5% yeast extract, 0.2% $K_2$HPO$_4$ and 0.02% MgSO$_4$.7$H_2O$(pH5.5). The optimum temperature for activity of the pulluanase was 3$0^{\circ}C$ and the highest yield of the enzyme was obtained after cell growth at 3$0^{\circ}C$ for 18hr, and maintained until 24hr cultivation. The pullulanase was successively purified 52.6 folds with 7.8% yield by acetone precipitation. DEAE-cellulose column chromatography and gel fitrations. The purified enzyme hydrolyzed pullulan into maltotriose exclusively. Chemical and physical properties of purified pullulanase from Klebisella pneumonias NFB-320 were examined. The optimum pH and temperature for enzyme activity were 5.0 and 6$0^{\circ}C$, respectively. The enzyme was stable between pH4 and 7, and up 5$0^{\circ}C$. The effect of mo-dification on the rate of enzyme reaction was studies with various chemicals and metal ions. The enzyme has been found to be inactivated by I$_2$ and N-bromosussinimide(NBS), which probably indicated the involve- ment of tryptophan residues in the active center of the enzyme.

• Bulletin of the Korean Chemical Society
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• v.30 no.1
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• pp.57-60
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• 2009

Alcohol oxidase catalyzes the oxidation of short lines alcohol to aldehyde. In this study, alcohol oxidase from Hansenula polymorpha (HpAOD) was induced by addition of 0.5% methanol as the carbon source and purified to electrophoretic homogeneity by column chromatographies. The purified HpAOD was immobilized with DEAE-cellulose particles and its biochemical properties were compared with those of free enzyme. The substrate specificity and the optimum pH of immobilized enzyme were similar to those of free enzyme. On the other hand, the Km values of free and immobilized enzymes for ethanol were 6.66 and 14.65 mM, respectively. The optimum temperature for free enzyme was ${50^{\circ}C}$, whereas that for immobilized enzyme was ${65^{\circ}C}$. Immobilized enzyme showed high stability against long storage. Immobilized enzyme was also tested for the enzymatic determination of ethanol by the colorimetric method. We detected 1 mg/liter ethanol ($1{\times}10^{-4}$% ethanol) by 2,6- dichloroindophenol system. Therefore, the present study demonstrated that immobilized HpAOD has high substrate specificity toward ethanol and storage stability, which may be of considerable interest for alcohol biosensor and industrial application.

• Applied Chemistry for Engineering
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• v.31 no.4
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• pp.352-359
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• 2020

Inorganic nanoparticles have been actively applied to the bio-medical field by utilizing their physical properties derived from the nanometer size regime, such as optical and magnetic properties. In recent years, diagnostic detection methods have been developed by employing chemical activity, particularly enzyme-mimetic activities, as well as physical properties of inorganic nanoparticles. After the initial study of verifying the enzyme-mimetic activities, the scope of research has been expanded to the direct use of therapeutic effects with active control of activity through understanding of the catalytic mechanism. This review summarizes recent research works on the active control of the enzyme-mimetic activities and newly demonstrated applications on the diagnosis and treatment of diseases, focusing on inorganic nanoparticles, so-called "nanozyme". It is expected that the enzyme-mimetic activity of inorganic nanoparticles will be combined with their inherent physical properties, leading to the development of new diagnostic and therapeutic methods.

• The Korean Journal of Food And Nutrition
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• v.36 no.6
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• pp.526-534
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• 2023

To improve usability of super sweet corn, extracts were prepared with hydrolytic enzyme and changes in physicochemical and antioxidant properties were analyzed. Soluble solids and reducing sugars contents were higher in all enzyme treatment groups than in the control. When enzyme treatment time increased, contents of soluble solids and reducing sugars were also increased. There was no significant difference in lightness between treatment groups, with redness showing the highest value in the control and yellowness showing the highest value in the invertase treatment group. Free sugar content in the control was the lowest. However free sugar content in the enzyme combination treatment group was increased by more than four times compared to that in the control. Contents of ascorbic acid, flavonoids and polyphenols were higher in the enzyme treatment group than in the control. In particular, the enzyme combination treatment group showed the highest content. DPPH and ABTS radical scavenging abilities were significantly higher in all enzyme treatment groups than in the control. Radical scavenging abilities of cellulase treatment group and enzyme combination treatment group showed high activity. The activity increased when enzyme treatment time increased. The combined enzyme treatment method for super sweet corn was suitable for food processing.

• Microbiology and Biotechnology Letters
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• v.6 no.1
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• pp.33-40
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• 1978

Immobilization of alkaline protease was investigated by absorbing the enzyme on adsorbents. Alkaline protease was adsorbed on silica gel selected as a carrier to immobilize the enzyme. In this study, properties of the immobilized enzyme were compared with those of the soluble enzyme. 1) The optimum pH (10.0) of the enzyme was not changed, but the activity was increased at alkaline pH by immobilization. 2) The optimum temperature of the immobilized enzyme was shifted from 50$^{\circ}C$ to 45$^{\circ}C$, while the temperature-activity Profile became broader than those of the soluble enzyme. 3) The pH stability of the immobilized enzyme was significantely increased at pH 4.0, althouth it did not change in the neutral and alkaline pH region. 4) The heat stability of the enzyme was enhanced in the temperature range of 55$^{\circ}C$∼65$^{\circ}C$ by the immobilization. 5) The immobilized enzyme retained 40％ of its original activity after repetitive use for 6 times. 6) The enzyme stability was greately improved for a prolonged storage at 4$^{\circ}C$.

• Food Science of Animal Resources
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• v.41 no.4
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• pp.608-622
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• 2021

Bioactive peptides have great potentials as nutraceutical and pharmaceutical agents that can improve human health. The objectives of this research were to produce functional peptides from ovotransferrin, a major egg white protein, using single enzyme treatments, and to analyze the properties of the hydrolysates produced. Lyophilized ovotransferrin was dissolved in distilled water at 20 mg/mL, treated with protease, elastase, papain, trypsin, or α-chymotrypsin at 1% (w/v) level of substrate, and incubated for 0-24 h at the optimal temperature of each enzyme (protease 55℃, papain 37℃, elastase 25℃, trypsin 37℃, α-chymotrypsin 37℃). The hydrolysates were tested for antioxidant, metal-chelating, and antimicrobial activities. Protease, papain, trypsin, and α-chymotrypsin hydrolyzed ovotransferrin relatively well after 3 h of incubation, but it took 24 h with elastase to reach a similar degree of hydrolysis. The hydrolysates obtained after 3 h of incubation with protease, papain, trypsin, α-chymotrypsin, and after 24 h with elastase were selected as the best products to analyze their functional properties. None of the hydrolysates exhibited antioxidant properties in the oil emulsion nor antimicrobial property at 20 mg/mL concentration. However, ovotransferrin with α-chymotrypsin and with elastase had higher Fe³⁺-chelating activities (1.06±0.88%, 1.25±0.24%) than the native ovotransferrin (0.46±0.60%). Overall, the results indicated that the single-enzyme treatments of ovotransferrin were not effective to produce peptides with antioxidant, antimicrobial, or Fe³⁺-chelating activity. Further research on the effects of enzyme combinations may be needed.

• Korean Journal of Food Science and Technology
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• v.15 no.4
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• pp.404-408
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• 1983

Some properties of malic enzyme (EC 1.1.1.40) prepared from malate-decomposition yeast, Schizosac-charomyces japonicus var. japonicus St-3 were investigated. The activity of malic enzyme was maximum when it was cultured for 24 hours. The optimum conditions for the enzyme reaction were pH 10.0 and temperature of $25^{\circ}C$. The crude enzyme was very stable at the range of pH 7.0-8.4, and almost 50 percent of enzyme activity was lost by heating at $60^{\circ}C$ for 10 minutes. The malic enzyme activity was enhanced by the addition of $Mn^{++}$. But the enzyme activity was not affected by the addition of organic acids, amino acids and ethanol, respectively.

• Proceedings of the Korean Society for Applied Microbiology Conference
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• 1986.12a
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• pp.524.3-524
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• 1986

Carboxymethyl cellulase (CMCase) produced by cloned B. megaterium was found to contain 5.2% carbohydrate but no metal ion. The enzyme was isoelectric at pH 7.23 and was high is basic amino acids. The N-terminal of the enzyme was glutamic acid. The cellulolytic activity of this enzyme was extended to the small molecular substrates such as from cellotriose to cellopentaose. In additon, the enzyme showed transglycoslation activity. The pK values of the enzyme we estimated to be 4.4 and 6.7, andthat of the enzyme-substrate complex were 4.2 and 7.2, respectively. The enzyme was not affected by the treatment with iodoacetic acid, but the modification of enzyme with carbodiimide and diethyl pyrocarbonate resulted in a marked loss of the enzyme activity. These results suggest that the active site of enzyme essentially contains carboxylic and imidazole group of amino acid residues.