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18 results on '"Tae-Eui Lee"'

1. Biotransformation of C20- and C22-polyunsaturated fatty acids to 11S- and 13S-hydroxy fatty acids by Escherichia coli expressing 11S-lipoxygenase from Enhygromyxa salina

Author

Jin Lee, Tae-Hun Kim, Kyung-Chul Shin, Tae-Eui Lee, Min-Ju Kim, and Deok-Kun Oh

Subjects
Fatty Acids, Hydroxyeicosatetraenoic Acids, Lipoxygenase, Escherichia coli, Fatty Acids, Unsaturated, Bioengineering, Cysteine, Myxococcales, General Medicine, Arachidonate Lipoxygenases, Applied Microbiology and Biotechnology, Biotransformation, Biotechnology
Abstract

Peroxidation and reduction of 11S- and 13S-positions on C20 and C22 polyunsaturated fatty acids (PUFAs) by Escherichia coli expressing highly active arachidonate (ARA) 11S-lipoxygenase (11S-LOX) from Enhygromyxa salina with the reducing agent cysteine.The specific activity and catalytic efficiency of ARA 11S-LOX from E. salina were 4.1- and 91-fold higher than those of only reported ARA 11S-LOX from Myxococcus xanthus, respectively. The hydroxy fatty acids (HFAs) obtained by the biotransformation of ARA, eicosapentaenoic acid (EPA), docosapentaenoic acid (DPA), and docosahexanoic acid (DHA) by Escherichia coli expressing 11S-LOX from E. salina in the presence of cysteine were identified as 11S-hydroxyeicosatetraenoic acid (11S-HETE), 11S-hydroxyeicosapentaenoic acid (11S-HEPE), 13S-hydroxydocosapentaenoic acid (13S-HDPA), and 13S-hydroxydocosahexaenoic acid (13S-HDHA), respectively. The recombinant cells converted 3 mM of ARA, EPA, DPA, and DHA into 2.9 mM of 11S-HETE, 2.4 mM 11S-HEPE, 1. 9 mM 13S-HDPA, and 2.2 mM 13S-HDHA in 60, 80, 120, and 120 min, corresponding to productivities of 72.5, 40.4, 18.5, and 22.4 μM minWe report the highest concentrations, conversion yields, and productivities of 11S- and 13S-hydroxy fatty acids from C20- and C22-PUFAs achieved via E. coli expressing highly active E. salina 11S-LOX.

Published
2022
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6. Improved Bioactivity of 3-O-β-D-Glucopyranosyl Platycosides in Biotransformed Platycodon grandiflorum Root Extract by Pectinase from Aspergillus aculeatus

Author

Tae-Eui Lee, Jung-Hun Ju, Tae-Hun Kim, Deok-Kun Oh, Jin Lee, and Kyung-Chul Shin

Subjects
Antioxidant, biology, DPPH, Tyrosinase, medicine.medical_treatment, Aspergillus aculeatus, General Medicine, biology.organism_classification, Applied Microbiology and Biotechnology, Baicalein, carbohydrates (lipids), chemistry.chemical_compound, Hydrolysis, Aglycone, chemistry, medicine, Food science, Pectinase, Biotechnology
Abstract

Platycodon grandiflorum (balloon flower) root (Platycodi radix, PR) is used as a health supplement owing to its beneficial bioactive properties. In the present study, the anti-inflammatory, antioxidant, and whitening effects of deglycosylated platycosides (saponins) from PR biotransformed by pectinase from Aspergillus aculeatus were investigated. The bioactivities of the platycosides improved when the number of sugar moieties attached to the aglycone platycosides was decreased. The deglycosylated saponins exhibited higher lipoxygenase inhibitory activities (anti-inflammatory activities) than the precursor platycosides and the anti-inflammatory compound baicalein. The 2,2-diphenyl-1-picrylhydrazyl (DPPH) radical scavenging activity of the pectinase-treated PR extract was higher than that of the non-treated PR extract. The trolox-equivalent antioxidant capacity (TEAC) assay showed improved values as the saponins were hydrolyzed. The tyrosinase inhibitory activities (whitening effects) of deglycosylated platycosides were higher than those of the precursor platycosides. Furthermore, 3-O-β-D-glucopyranosyl platycosides showed higher anti-inflammatory, antioxidant, and whitening activities than their precursor glycosylated platycosides. Therefore, 3-O-β-D-glucopyranosyl platycosides may improve the beneficial effects of nutritional supplements and cosmetic products.

Published
2021
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7. Development of Tagaturonate 3-Epimerase into Tagatose 4-Epimerase with a Biocatalytic Route from Fructose to Tagatose

Author

Lin-Woo Kang, Tae-Eui Lee, Dae Wook Kim, Kyung-Chul Shin, Min-Ju Seo, and Deok-Kun Oh

Subjects
D-tagatose, chemistry.chemical_classification, digestive, oral, and skin physiology, D fructose, food and beverages, Fructose, General Chemistry, Catalysis, chemistry.chemical_compound, Enzyme, chemistry, Biochemistry, Galactose, Lactose, Tagatose
Abstract

d-Tagatose, a low-calorie functional sweetener, is biotransformed from lactose via galactose. The discovery of an enzyme with 4-epimerization activity toward d-fructose to produce d-tagatose has be...

Published
2020
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9. Enzymatic Formation of Protectin Dx and Its Production by Whole-Cell Reaction Using Recombinant Lipoxygenases

Author

Kyung-Chul Shin, Tae-Eui Lee, Su-Eun Kim, Yoon-Joo Ko, Min-Ju Seo, and Deok-Kun Oh

Subjects
Physical and Theoretical Chemistry, Catalysis, protectin Dx, docosahexaenoic acid, docosahexaenoic acid-enriched fish oil, 8S-lipoxygenase, 15S-lipoxygenase, mouse, Burkholderia thailandensis, General Environmental Science
Abstract

In the human body, docosahexaenoic acid (DHA) contained in fish oil is converted to trace amounts of specialized pro-resolving mediators (SPMs) as the principal bioactive metabolites for their pharmacological effects. Protectin Dx (PDX), an SPM, is an important medicinal compound with biological activities such as modulation of endogenous antioxidant systems, inflammation pro-resolving action, and inhibition of influenza virus replication. Although it can be biotechnologically synthesized from DHA, it has not yet been produced quantitatively. Here, we found that 15S-lipoxygenase from Burkholderia thailandensis (BT 15SLOX) converted 10S-hydroxydocosahexaenoic acid (10S-HDHA) to PDX using enzymatic reactions, which was confirmed by LC-MS/MS and NMR analyses. Thus, whole-cell reactions of Escherichia coli cells expressing BT 15SLOX were performed in flasks to produce PDX from lipase-treated DHA-enriched fish oil along with E. coli cells expressing Mus musculus (mouse) 8S-lipoxygenase (MO 8SLOX) that converted DHA to 10S-HDHA. First, 1 mM DHA (DHA-enriched fish oil hydrolysate, DFOH) was obtained from 455 mg/L DHA-enriched fish oil by lipase for 1 h. Second, E. coli cells expressing MO 8SLOX converted 1 mM DHA in DFOH to 0.43 mM 10S-HDHA for 6 h. Finally, E. coli cells expressing BT 15SLOX converted 0.43 mM 10S-HDHA in MO 8SLOX-treated DFOH to 0.30 mM (108 mg/L) PDX for 5 h. Consequently, DHA-enriched fish oil at 455 mg/L was converted to 108 mg/L PDX after a total of 12 h (conversion yield: 24% (w/w); productivity: 4.5 mg/L/h). This study is the first report on the quantitative production of PDX via biotechnological approaches.

Published
2022
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10. Production of Bioactive Deapiosylated Platycosides from Glycosylated Platycosides in Balloon Flower Root Using the Crude Enzyme from the Food-Available Fungus

Author

Tae-Eui Lee, Tae-Geun Kil, Kyung-Chul Shin, and Deok-Kun Oh

Subjects
Meju, Antioxidant, food.ingredient, Glycosylation, Platycodon, medicine.medical_treatment, Rhizopus oryzae, 01 natural sciences, chemistry.chemical_compound, 0404 agricultural biotechnology, food, Functional food, Generally recognized as safe, medicine, Food science, Oleanolic Acid, biology, Chemistry, Platycodin D, Food additive, 010401 analytical chemistry, Fungi, 04 agricultural and veterinary sciences, General Chemistry, Saponins, biology.organism_classification, 040401 food science, 0104 chemical sciences, carbohydrates (lipids), Fermentation, General Agricultural and Biological Sciences, Rhizopus
Abstract

Extract from balloon flower root (Platycodi radix) containing platycosides as saponins is a beneficial food additive and is used for their savory taste and the alleviation of respiratory diseases. Deglycosylated platycosides show greater pharmacological effects than glycosylated platycosides. However, there are no reports on the conversion of glycosylated platycosides into deapiosylated platycosides. In this study, we showed that the crude enzyme from Rhizopus oryzae, a generally recognized as safe (GRAS) fungus isolated from meju (fermented soybean brick), completely converted glycosylated platycosides in Platycodi radix extract into deapiosylated platycosides: deapiosylated platycodin D (deapi-PD), deapiosylated platycodin A (deapi-PA), deapiosylated polygalacin D (deapi-PGD), and deapiosylated platyconic acid A (deapi-PCA). Among these, deapi-PA and deapi-PCA were first identified using liquid chromatography/mass spectrometry. The anti-inflammatory and antioxidant effects of deapiosylated platycosides were greater than those of the precursor glycosylated platycosides. These deapiosylated platycosides could improve the properties of functional food additives.

Published
2021

12. Numerical analysis of the Internal Flow of 8kW Grade Diesel Generator Muffler

Author

Chung Seob Yi, Chi Woo Lee, and Tae Eui Lee

Subjects
Muffler, 010407 polymers, 0209 industrial biotechnology, Materials science, Internal flow, Numerical analysis, Mechanical engineering, 02 engineering and technology, 01 natural sciences, 0104 chemical sciences, law.invention, 020901 industrial engineering & automation, law, Diesel generator
Published
2018
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13. Biotransformation of Fructose to Allose by a One-Pot Reaction Using Flavonifractor plautii D-Allulose 3-Epimerase and Clostridium thermocellum Ribose 5-Phosphate Isomerase

Author

Tae-Eui Lee, Kyung-Chul Shin, and Deok-Kun Oh

Subjects
0301 basic medicine, biology, Stereochemistry, Fructose, General Medicine, Isomerase, Flavonifractor, biology.organism_classification, Applied Microbiology and Biotechnology, 03 medical and health sciences, chemistry.chemical_compound, 030104 developmental biology, Ribose-5-phosphate isomerase, chemistry, Biotransformation, Ribose, Allose, Clostridium thermocellum, Biotechnology
Abstract

D-Allose is a potential medical sugar because it has anticancer, antihypertensive, anti-inflammatory, antioxidative, and immunosuppressant activities. Allose production from fructose as a cheap substrate was performed by a one-pot reaction using Flavonifractor plautiiD-allulose 3-epimerase (FP-DAE) and Clostridium thermocellum ribose 5-phosphate isomerase (CT-RPI). The optimal reaction conditions for allose production were pH 7.5, 60°C, 0.1 g/l FP-DAE, 12 g/l CT-RPI, and 600 g/l fructose in the presence of 1 mM Co2+. Under these optimized conditions, FP-DAE and CT-RPI produced 79 g/l allose for 2 h, with a conversion yield of 13%. This is the first biotransformation of fructose to allose by a two-enzyme system. The production of allose by a one-pot reaction using FP-DAE and CT-RPI was 1.3-fold higher than that by a two-step reaction using the two enzymes.

Published
2018
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14. Biotransformation of Fructose to Allose by a One-Pot Reaction Using

Author

Tae-Eui, Lee, Kyung-Chul, Shin, and Deok-Kun, Oh

Subjects
Clostridium thermocellum, Clostridiales, Glucose, Bacterial Proteins, Escherichia coli, Temperature, Fructose, Gene Expression Regulation, Bacterial, Hydrogen-Ion Concentration, Carbohydrate Epimerases, Aldose-Ketose Isomerases, Biotransformation, Recombinant Proteins
Published
2018

18. The effect of bundling on the stable coalition in the composite goods market

Author

Gyu Ho Wang and Tae Eui Lee

Subjects
Economics, Social Welfare, International economics
Abstract

We investigate the effect of bundling on the stable coalition in the composite goods market. We show that, first, the grand coali-tion and the horizontal coalition are always stable. Second, when bundling is not allowed and consent is required from the firms inside the coalition for the new firm to join the coalition, with high degree of substitutability among the products, the vertical coalition is also stable. Third, bundling reduces the social welfare. Finally, depending upon the degree of substitutability among the products, allowing coalition may increase or decrease the social welfare.

Published
2009
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