• Journal of the East Asian Society of Dietary Life
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• v.21 no.5
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• pp.661-668
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• 2011

This study was conducted in order to determine the optimum conditions for the production of fermented grapefruit extract showing high cell growth, antioxidant activity and total flavonoid content. Five lactic acid bacterial strains - Lactobacillus plantarum KCTC3104, Lactobacillus brevis KCTC3102, Weisella cibaria KCTC3746, Leuconostoc citreum KCTC3526 and Leuconostoc mesenteroides KCTC3505 - were evaluated first in order to determine the optimum strain able to grow with high efficiency on grapefruit as a substrate and possesses higher antioxidant activity and flavonoids content. Among these strains, L. mesenteroides KCTC3505 was selected as a starter culture. To estimate the available or effective content of grapefruit in basal medium, the effects of 30%, 50%, and 70% grapefruit contents on the performance of fermentation were tested, and it was found that grapefruit can be added at 70% levels to medium. In this study, three factors of fermentation conditions - incubation time, sucrose, and glucose contents - were evaluated for their effects on fermentation performance. Taguchi experiment design was employed and the responses of experiments were calculated using signal and noise ratio calculation with larger-the-best characteristics. Finally, the optimum conditions for the manufacture of fermented grapefruit extract were as follows: grapefruit 70%, sucrose 10 g/L, glucose 10 g/L, sodium acetate 1 g/L, NaCl 1 g/L, dipotassium phosphate 0.1 g/L, magnesium sulfate 0.01 g/L and 16 hr of incubation.

• Journal of the Korean Society of Fashion and Beauty
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• v.3 no.2 s.2
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• pp.18-24
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• 2005

The result of the study for essential oil(Bergamot, Grapefruit essential oil)'s Anaiysis of Blood Serum Epidermis proteins by exposure of nature lays on treatments are as follows. 1. There is no significant difference between control group and the groups treated by essential oil in feed efficiency, but in water intake, there are significant differences between each group. Water intake of the groups treated by Bergamot and Grapefruit essential oil without treatment by sun cream is higher than that of any other group. It is presented that the effect of losing water of the surface of skin is related to the balance effect of water. 2. As a result of serum analysis without applied UV-rays, the total cholesterol in the groups treated by Bergamot essential oil is higher than that of the groups treated by Grapefruit essential oil. It is showed that the dissolution of cellulite of Grapefruit essential oil is stronger than that of Bergamot essential oil. After applied UV-rays, however, the change of total cholesterol of the groups treated by Bergamot essential oil is lower than that of the groups treated by Grapefruit essential oil, namely, the group treated by Bergamot essential oil drops is used to make sebum membrane on the surface of skin, so the quantity of influx into blood vessel was low. With the result that, atherosclerotic index(A.I) also was low in the group treated by Grapefruit essential oil. In the aspect of increasing cholesterol for obesity treatment, it was judged that the effect of treatment with Bergamot essential oil is somewhat slower than that with Grapefruit essential oil, but it is safer than the effect of treatment with Grapefruit essential oil in the aspect of health. 3. As a result of protein analysis, the groups applied UV-rays in the group of treated by Bergamot essential oil, the biggest change of protein's band was appeared under part of 20.0 1Kd in the change pattern of protein. As the trend of changing protein at the groups treated by SPF 15 and 30 was similar to that of the groups of the control, it was showed that the effect of sun cream can prevent the change of the composition of skin. In the groups treated by Grapefruit essential oil, after the groups treated by Grapefruit essential oil applied UV-rays, the biggest change of protein's bend was appeared the upper part of 43Kd in the change pattern of protein. It was also judged that it means the change of the composition of skin. However, the trend of changing protein at the groups treated by SPF 15 and 30 was also similar to that of the groups of the control. Eventually, it was also showed that it can prevent the change of the composition of skin by the effect of sun cream.

• Journal of the Korean Society of Food Science and Nutrition
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• v.24 no.5
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• pp.690-694
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• 1995

Effects of grapefruit seed extract on the lethality, the primary skin irritation, and the acute eye irritation potentials were evaluated in rats. The acute oral $LD_{50}$ of GFSE for Sprague-Dawley derived rats was 3.75g/kg with 95% confidence limits of 2.55 and 5.52g/kg. Patch application to the intact and abraded skin of rabbits led to mild to moderate erythema and no or mild edema. Application to the eyes of rabbits led to severe corneal opacity, iritis, conjunctival erythema, edema, and discharge.

• Food Science and Preservation
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• v.23 no.1
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• pp.63-73
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• 2016

The volatile flavor components of the fruit pulp and peel of orange (Citrus sinensis) and grapefruit (Citrus paradisi) were extracted by simultaneous distillation-extraction (SDE) using a solvent mixture of n-pentane and diethyl ether (1:1, v/v) and analyzed by gas chromatography-mass spectrometry (GC-MS). The total volatile flavor contents in the pulp and peel of orange were 120.55 and 4,510.81 mg/kg, respectively, while those in the pulp and peel of grapefruit were 195.60 and 4,223.68 mg/kg, respectively. The monoterpene limonene was identified as the major voltile flavor compound in both orange and grapefruit, exhibiting contents of 65.32 and 3,008.10 mg/kg in the pulp and peel of orange, respectively, and 105.00 and 1,870.24 mg/kg in the pulp and peel of grapefruit, respectively. Limonene, sabinene, ${\alpha}$-pinene, ${\beta}$-myrcene, linalool, (Z)-limonene oxide, and (E)-limonene oxide were the main volatile flavor components of both orange and grapefruit. The distinctive component of orange was valencene, while grapefruit contained (E)-caryophyllene and nootkatone. $\delta$-3-Carene, ${\alpha}$-terpinolene, borneol, citronellyl acetate, piperitone, and ${\beta}$-copaene were detected in orange but not in grapefruit. Conversely, grapefruit contained ${\beta}$-pinene, ${\alpha}$-terpinyl acetate, bicyclogermacrene, nootkatol, ${\beta}$-cubebene, and sesquisabinene, while orange did not. Phenylacetaldehyde, camphor, limona ketone and (Z)-caryophyllene were identified in the pulp of both fruits, while ${\alpha}$-thujene, citronellal, citronellol, ${\alpha}$-sinensal, ${\gamma}$-muurolene and germacrene D were detected in the peel of both fresh fruit samples.

• Applied Chemistry for Engineering
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• v.16 no.1
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• pp.139-143
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• 2005

We evaluated grapefruit seed extract for antibacterial activity at varying time intervals and concentration levels against heat tolerant and spore-forming Bacillus stearothermophilus, mesophilic Bacillus subtilis, and food poisoning Staphylococcus aureus. Grapefruit seed extract showed growth inhibitory activity against B. stearothemophilus and B. subtilis, and S. aureus at the level of 0.01 tp 0.03% in nutrient broth. However, when applied to soymilk in a market, grapefruit seed extract at the level above 0.2% effectively inhibited the growth of B. stearothermophilus, However, it failed to completely sterilize the test organisms. On the other hand, B. subtilis and S. aureus were completely sterilized at the level of 0.2% within 48 hrs and 72 h, respectively. The higher concentration of grapefruit seed extracts showed more effective antibacterial activities against the test organisms, but caused deteriorated organoleptic quality and emulsion stability. We could conclude, by applying grapefruit seed extract (0.015%) with thermal treatment (10 min at $121^{\circ}C$) that the microbial stability of commercial soymilk was enhanced greatly.

• The Korean Journal of Food And Nutrition
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• v.19 no.4
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• pp.526-531
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• 2006

Minimum inhibition concentration(MIC), growth inhibition activity, and colony forming inhibitory activity of grapefruit seed extract against Bacillus cereus, Bacillus subtilis, Listeria monocytogenes, Escherichia coli, Salmonella enterifidis and Serratia marcescens were tested. MIC of grapefruit seed extract against Bacillus cereus, Bacillus subtilis, Listeria monocytogenes, Escherichia coli, Salmonella enteritidis and Serratia marcescens was 12.5, 12.5, 12.5, 50, 50, 100ppm, respectively. Growth inhibition concentration of grapefruit seed extract against Bacillus cereus, Bacillus subtilis, Listeria monocytogenes, Escherichia coli, Salmonella enteritidis and Serratia marcescens was below 1.0, 6.25, below 1.0, 6.25, 25, 25ppm, respectively. Colony forming inhibitory activity of grapefruit seed extract against Bacillus cereus, Bacillus subtilis, Listeria monocytogenes, Escherichia coli, Salmonella enteritidis and Serratia marcescens was 93.9, 94.0, 99.9, 4.4, 82.7, 86.4%, respectively. Colony forming inhibitory activities of grapefruit seed extract against Gram positive bacteria were higher than that against Gram negative bacteria.

• Journal of Food Hygiene and Safety
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• v.7 no.1
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• pp.15-22
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• 1992

This study was conducted to determine the potential of grapefruit seed extract to support Aspergillus parasilicus growth and aflatoxin production. The grapefruit seed extract inhibited the growth and aflatoxin production of the fungi in the level of more than 4,000 ppm and 3,000 ppm in the medium, respectively. Grapefruit seed extract appears to block the conversion of acetate, averufin and versiconal acetate into aflatoxin in vitro experiments. The addition of grapefruit seed extract to the feeding experiment systems did not inhibit the incorporation of 14C-labeled versicolorin A, versicolorin A hemiacetal and sterigmatocystin into aflatoxin. In the electron microscopic examination the biocidal action of grapefruit seed extract was related to the disturbance of cell menbrane funtion, inhibiting cellular respiration.

• Food Science and Preservation
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• v.1 no.1
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• pp.1-7
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• 1994

To investigate the effect of several bactericides and fungicides against fruit & vegetable decay grapefruit seed extract(GFSE) was tested in a dilution solution. GFSE was shown to be effective against decay and rind breakdown and to extend the shelf-life of fruits and vegetables during storage and tiansport. Antimicrobial efficiency of GFSE on a wide spectra of gram + & - bacteria, moulds and yeasts was demonstrated by the measurement of minimal inhibitory concentrations performed (Bacteria 10-500ppm, Fungi:250-1,000ppm, Yeasts:100-250ppm). GFSE was separated and extracted into water-soluble fraction, water-insoluble and non-dialyzed fraction to isolate the antimicrobial substances. The water-soluble fraction showed the most active antimicrobial effect. The antimicrobial substances were isolated by gas chromatography. As the result of the isolation using GC, Peak-D was found to be the antimicrobial compound in GFSE. The identification of the most antimicrobial substance was carried out by using GC-MS.

• Journal of Food Hygiene and Safety
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• v.10 no.1
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• pp.33-39
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• 1995

The antibacterial and antifungal effect of grapefruit seed extract(GFSE) was investigated for its purpose of application to a diverse spectrum of field as sanitizers, disinfectants and preservatives. GFSE showed coparatively high content of such flavoniods as naringin and hesperidin and ascorbic acid. GFSE containing a low level of organic acids is a heavy viscous and water-soluble liquid. As a result of the antimicrobial test of GFSE, Bacillus subtilis and Aspergillus oryzae did not survive at detectable levels when treated with more than 100 ppm of GFSE. The minimum inhibitory concentrations of GFSE for a wide variety of pathogenic and putrefactive bacteria, fungi and yeasts were 100 ppm and 250 ppm, respectively. In the comparable electron micrograph of microbial cells treated with GFSE or not, we could conclude that GFSE destroy microorganisms by disrupting the functions of the cell wall membrane and microbial spores.

• Journal of the Korean Society of Food Science and Nutrition
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• v.27 no.6
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• pp.1086-1093
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• 1998

The antimicrobial effect of mixed solutions of grapefruit seed extract(250ppm) and ascorbic acid(1%) on the spoilage microorganisms such as Staphylococcus epidermis, Escherichia coli, Pseudomonas syringae, Candida albicans and Corynebacterium xerosis isolated from the spoiled soybean sprouts were investigated. Cell wall and membrane were partially destroyed and the contents of the destroyed cell were exuded after treatment. Packages with 30 m cast polypropylene(CPP), 16 m polyolefin(RD 106) and 10 m high density polyethylene(HDPE) were applied for soybean sprouts dipped in mixed solutions respectively. Oxygen and carbon dioxide concentration inside packages were dependent on the kind of films during storage at 5oC. The antimicrobial activity of mixed solutions was maintained for 5 days at CPP package. Package with HDPE showed a severe browning than the others after 5 days. Ascorbic acid content of mixed solution treatment was higher than that of control for each package.