• KSBB Journal
• /
• v.15 no.6
• /
• pp.621-629
• /
• 2000

A marine bacterium producing carotenoid was isolated from the Yosu coastal area of South Korea, and has been recorded as MCPBK-1. It was identified as Curtobacterium sp.. The optimum conditions of marine carotenoid fermentation from Cutobacterium sp. were pH 7.0, a temperature of $25^{\circ}C$, 4 mM fructose as a carbon source, 0.07% tryptone as a nitrogen source, 0.5 mM $M^{+2}$ ion as a mineral source and $1{\;}\mu\textrm{M}$ of cyanocobalamine as a growth factor in a $7{\;}\ell$ jar-fermentor. 13.0 mg/ml of the marine carotenoid were produced under optimum conditions. The crude marine carotenoid isolated was composed of 5 different compounds, i.e : tunaxanthin(86.6%), diatoxanthin (7.1%), ${\beta}-carotene$ (2.1%), canthaxanthin(1.9%) and cynthiaxanthin (1.9%). Physiological properties including antibacterial activity, cytotoxic effect, antioxidative effect and free radical scavenging activity were characterized with the crude carotenoid, which exhibited no antibacterial activity against E. coli and Lactobacillus bulgaricus, but a strong cytotoxic effect against cancer cells such as HepG2 (Hepatocellular carcinoma, human, ATCC HB-8065) and HeLa (Cervical carcinoma, human, ATCC CCL-2) cells, the ratios of impediment were 86.4% and 39.2%, respectively. This carotenoid, also, expressed a strong antioxidative effect (83%) against CCL-13 (diploid, monotypic hepatocyte, human, ATCC CCL-13) and exhibited free radical scavenging activity (43.4%) when using at a concentration of $50{\;}\mu\textrm{g}/ml$ of the crude carotenoid.

• Journal of the East Asian Society of Dietary Life
• /
• v.14 no.4
• /
• pp.355-362
• /
• 2004

Studies on extraction and color stability of carotenoids from astringent persimmon(Diospyros kaki) were performed to provide the basic information for the utilization of persimmon pigment as a new source of natural food colorant. The major carotenoids in astringent persimmon were beta-cryptoxanthin, lycopene and beta-carotene. Beta-cryptoxanthin was the first major pigment and lycopene the next. Total carotenoid content in persimmon calculated as beta-carotene equivalent was 107.4 $\mu\textrm{g}$/g. The data indicated that the astringent persimmon was a good source of carotenoid pigment. The physical and chemical stabilities of carotenoid from astringent persimmon were investigated at various conditions of temperature, pH and antioxidant. The effects of oxygen and light on the stability of carotenoid pigment has been investigated. The factors that cause the discoloration were visible light, temperature above 60, pH below 5 and oxygen. Especially, the carotenoid pigment was very sensitive to light and oxygen. Carotenoid stability was much improved with increasing nitrogen concentration in the atmosphere. Persimmon pigments have been found to be most stable at 5∼10. And tocopherol was the most effective inhibitor of the pigment discoloration.

• Journal of the Korean Society of Food Science and Nutrition
• /
• v.30 no.1
• /
• pp.143-151
• /
• 2001

A marine bacterium producing carotenoid was isolated from the Yosu coastal area of South Korea, which was recorded as MCK-1. It was identified as Erythrobacter sp. Optimium conditions of marine carotenoid fermentation from Erythrobacter sp. were pH 6.0, a temperature of $25^{\circ}C$, 16 mM mannitol as a carbon source, 0.5% tryptone as a nitrogen source, 0.1 mM $Fe^{+2}$ ion as a mineral source and 1$\mu$M of cyanocobalamine as a growth factor in a jar-fermentor. Erythrobacter sp. was produced 351.27 mg/100mL of the marine carotenoid in these optimum conditions. This marine carotenoid was composed of 4 different conpounds, like as notoxanthin (61.4%), can thaxanthin (24.6%), fucoxanthin (8.2%), and zeaxanthin (5.8%). Physiological properties including antibacterial activity, cytotoxic effect, antioxidative effect and free radical scavenging activity were characterized with crude carotenoid. Carotenoid exhibited no antibacterial activity against E. coli and lactobacillus bulgaricus, but showed cytotoxic effect against cancer cells such as HepG2 (Hepatocellular carcinoma, human, ATCC HB-8065) and HeLa (Cervical carcinoma, human, ATCC CCL-2) cells. The impediment ratios for HepG2 and HeLa cell were 37.14% and 33.78%, respectively. This carotenoid expressed a strong antioxidative effect (77%) against CCL-13 5 $\mu\textrm{g}$/mL and 50 $\mu\textrm{g}$/mL crude carotenoid, respectively.

• Journal of the Korean Society of Food Science and Nutrition
• /
• v.20 no.4
• /
• pp.369-375
• /
• 1991

Carotenoid pigments from muscle of mussel, Mytilus coruscus, and blue mussel edulis, were separated by thin layer and column chromatography. The isolated carotenoids were identified by comparative test with reference carotenoids, reduction with sodium borohydride, isomerization with iodine and absorption spectrophotometry. The carotenoid content in the muscle of mussel were 0.4mg% in male and 2.7mg% in female, and the carotenoids were composed of 23.4%, 33.4% mytiloxanthin, 26.3%, 22.5% 3, 4, 3'-trihydroxy-7', $8'-didehydro-{\beta}-carotene$, 24.8%, 22.8% pectenoxanthin, 14.0%, 9.9% pectenolone and 5.1%, 6.1% diatoxanthin in male and female, respectively. While, the carotenoid contents in the muscle of blue mussel were 1.1mg% in male and 3.2mg% in female, and the carotenoids were composed of 33.8%, 35.6% mytiloxanthin, 28.4%, 44.7% pectenoxanthin, 18.1%, 5.0% diatoxanthin, 9.7%, 8.7% pectenolone and 5.5%, 3.1%, 3, 4, 3'-trihydroxy-7', $8'-didehydro-{\beta}-carotene$ in male and female, respectively.

• Journal of the Korean Society of Food Science and Nutrition
• /
• v.21 no.4
• /
• pp.407-413
• /
• 1992

Difference of carotenoid pigments in integuments of the wild and cultured flounder, Paralichthys olivaceus and yellowtail, Seriola quinqueradiata were studied. Total carotenoid contents in integuments of the wild and cultured flounder were 1.38mg% and 1.l6mg%, respectively. The main carotenoids in integuments of the wild flonder were zeaxanthin (19.22%), $\beta$-carotene type triol (17.80%), tunaxanthin C (17.77％), lutein (16.44%) and tunaxanthin B (13.70%). In addition, tunaxanthin A (5.42%), $\alpha$-cryptoxanthin (4.80%), astaxanthin (0.69%) and $\beta$-cryptoxanthin (0.24%) were also contained in small amounts. But in the cultured flounder, lutein (38.21%) and zeaxanthin (29.69%) were contained as main carotenoids. In addition, $\beta$-carotene type triol (7.80%), tunaxanthin C (7.05%), $\alpha$-cryptoxanthin (4.34%), tunaxanthin B (4.21%), as-taxanthin (2.40%) and $\beta$-cryptoxanthin (1.30%) were present in small amounts. Consequently, the wild flounder contained higher amounts of tunaxanthin and trios but contained lower amounts of lutein and zeaxanthin than the cultured flonder. The contents of carotenoids from integuments of wild and cultured yellow-tail were 1.08mg% and 0.09mg%. Wild and cultured yellowtail have similar carotenoid patterns, consisting of tunaxanthin C (44.11%, 43.37％), tunaxanthin B (33.56%, 29.23%) and tunaxanthin A (18.22%, 21.68%), respectively.

• Journal of Nutrition and Health
• /
• v.38 no.10
• /
• pp.836-846
• /
• 2005

This study was performed to determine the effect of carotenoid-rich food consumption and smoking on the lipid peroxidation and antioxidant status in human. The subjects consisted of the health 210 middle-aged adults who visited health care center in the Inha University hospital. The blood and urine samples of the subjects were taken to analyze serum lipid profiles, plasma TBARS, total antioxidant status (TAS) and urinary 8-isoprostanes concentration. The anthropometric indices of the subjects were measured. The nutritional intake and the frequency of carotenoid-rich food consumption was determined by semi-quantitative food frequency questionnaire survey. HDL-cholesterol level of the smoking subjects was significantly lower than that of the non-smoking subjects in men. In the analysis of the carotenoid-rich food consumption, the frequency of pepper and tomato consumption of the non-smoking subjects was significantly higher than that of the smoking subjects in men. In women, the Sequency of pear and peach consumption of the non-smoking subjects was significantly higher than that of the smoking subjects. HDL-cholesterol level of the high carotenoid rich food consumption group was significantly higher than that of medium and low group in women. TAS of the high carotenoid rich food consumption group was significantly higher than that of medium and low group. In conclusion, carotenoid intakes seemed to be effective to reduce lipid peroxidation and increase antioxidant status in the body. The frequency of the carotenoid-rich food consumption seemed to be lower in the smokers than in the non-smokers. However, further researches consisted of large-scaled and randomized clinical trials are required to determine whether carotenoids have any other beneficial effect in human. (Korean J Nutrition 38(10): 836$\sim$846,2005)

• Korean journal of food and cookery science
• /
• v.29 no.6
• /
• pp.647-652
• /
• 2013

Solubility profiles of zein and carotenoid in aqueous ethanol were studied. Zein showed minimum turbidity at the aqueous ethanol concentration of 87-92%, indicating least aggregations between protein molecules. Solubilities of zein and carotenoid increased linearly with the content of yellow zein up to 20% in the aqueous ethanol range of 60-95% tested. At room temperature of $20^{\circ}C$, zein showed maximum solubility in broad ethanol concentration ranges of 60-95%, while that for carotenoid was somewhat narrower with ethanol concentration range of 85-95%. However, at incubation temperature of $-20^{\circ}C$, solubilities of both carotenoid and zein were lowered, with dramatic reduction being exhibited at aqueous ethanol concentration of 60% for both compounds, while substantial reduction in solubility was shown at 95% ethanol by zein only. Zein was practically insoluble in absolute ethanol, regardless of temperature range tested, while carotenoid remained largely soluble, though there was pronounced decrease in solubility at the subfreezing temperature.

• Journal of the Korean Society of Food Science and Nutrition
• /
• v.27 no.5
• /
• pp.813-820
• /
• 1998

This study was performed as a part of comparative biochemical studies of carotenoid pigment for the fresh water fish. Carotenoids in integument of Korean dark sleeper, Odontobutis platycephala, and dark sleeper, Odontobutis odontobutis interrupta, which are all the Korean native fresh water fish, were separated by thin layer chromatography, column chromatography and HPLC. The separated carotenoid were then reduced and isomerized by NaBH4 and I2 respectively to investigate UV-Vis spectrophotometeric patterns and chracterized by IR, 1H-NMR and Mass spectrum. The content of total carotenoids in the integument of Korean dark sleeper was 3.01mg% in April, but it was increased to 3.74mg% in September at the near of spawning period. The carotenoid isolated in April consisted of $\beta$-carotene(25.6%), lutein(18.5%) and zeaxanthin(12.0%) as major carotenoids and also contained isocryptoxanthin, diatoxanthin, tunaxanthin, cynthiaxanthin, canthaxanthin and $\alpha$-cryptoxanthin as minor carotenoids. Similarly, in September the carotenoid consisted of $\beta$-carotene(16.5%), zeaxanthin(13.7%) and cynthiaxanthin(13.6%) as major carotenoids and also contained lutein, isocryptoxanthin, tunaxanthin, $\alpha$-cryptoxanthin, diatoxanthin and canthaxanthin as minor carotenoids. At the near of spawning period, the content of cynthiaxanthin and $\alpha$-cryptoxanthin were increased. The content of total carotenoids in the integument of spawning period. T도 carotenoid isolated in April and September consisted of $\beta$-carotene(24.9%, 27.5%), zeaxanthin(14.4%, 20.9%) and lutein(12.6%, 11.4%) as major carotenoids and also contained cynthiaxanthin, tunaxanthin, diatoxanthin, isocryptoxanthin, $\alpha$-cryp-toxanthin and canthaxanthin as minor carotenoids. At the near of spawning period, the content of zeaxanthin was increased, indicating that the carotenoid composition were dependent upon their living conditions and their integument colors. Both Korean dark sleeper and dark sleeper contained high amount of cynthiaxanthin and diatoxanthin which are found as rare carotenoids in the other of fresh water fish. It is interes that they also contained tunaxanthin which is a specific carotenoid in marine fishes.

• Journal of Microbiology and Biotechnology
• /
• v.6 no.2
• /
• pp.103-109
• /
• 1996

Mn(II)+succinate decreased the carotenoid formation of the yeast Phaffia rhodozyma, probably by scavenging $O_2$. When duroquinone (DQ), an internal and external $O_2$ generator, was added to medium, P. rhodozyma produced more amount of carotenoids. The increased carotenoid production was destroyed by oxygen radical (OR) scavengers, ascorbate+Cu(II) and dimethylsulfoxide. When sub-lethal concentrations of $H_2O_2$ , an external OR source, and antimycin, an internal OR inducer, were used, the effect of $H_2O_2$ on carotenoid formation and composition was less significant than that of antimycin. Addition of superoxide dismutase, an external OR remover, rescued cells from death caused by the high concentration of DO. In this condition, the yeast culture showed an increase in carotenoid content. Addition of DQ into P. rhodozyma culture in the stationary phase did not increase carotenoid production. Therefore, carotenoid formation was stimulated by internal ORs in the growing yeast. It was probably due to release of catabolite repression on carotenogenesis in the yeast. Aeration was important for carotenoid production but was not as effective as the internal OR producer, DQ.

• Korean Journal of Fisheries and Aquatic Sciences
• /
• v.32 no.2
• /
• pp.223-231
• /
• 1999

Carotenoid pigments of echiurid, Urechis unicinctus were investigated during March, April and May as a part of comparative biochemical studies of carotenoid pigments for the marine organisms other than pisces. Total carotenoid contents were found to be 1.19 mg/100 g in March, 0.98 mg/100 g in April and 0.84 mg/100 g in May, indicating that total carotenoid content was negatively affected by the temperature of sea water that echiurid resided. The carotenoid isolated in March composed of $16.3\%$ diatoxanthin monoester, $14.8\%$ $\beta$-carotene and $12.6\%$ cynthiaxanthin monoester, $8.4\%$ cynthiaxanthin diester, $8.2\%$ zeaxanthin monoester, $7.3\%$ diatoxanthin diester $4.2\%$ astaxanthin $2.9\%$ diatoxanthin, $2.4\%$ triol, $2.3\%$ cynthiaxanthin, $1.7\%$ isocrytoxanthin, $1.5\%$ zeaxanthin diester, $0.8\%$ zeaxanthin and $0.5\%$ lutein. The carotenoid isolated in April composed of $21.9\%$ diatoxanthin monoester, $17.2\%$ cynthiaxanthin monoester and $16.6\%$ $\beta$-carotene $10.9\%$ zeaxanthin monoester, $5.6\%$ cynthiaxanthin diester, $4.9\%$ diatoxanthin diester, $3.1\%$ astaxanthin, $2.4\%$ triol, $2.3\%$ diatoxanthin, $1.7\%$ isocrytoxanthin, $1.5\%$ lutein, $1.1\%$ zeaxanthin, $1.0\%$ cynthiaxanthin and $1.0\%$ zeaxanthin diester. Similarly, the carotenoid isolated in May composed of $25.3\%$ diatoxanthin monoester, $19.7\%$ cynthiaxanthin monoester, $13.0\%$ $\beta$-carotene, and $12.6\%$ zeaxanthin monoester, $5.8\%$ cynthiaxanthin diester, $5.1\%$ diatoxanthin, $3.0\%$ astaxanthin, $2.4\%$ triol, $2.2\%$ diatoxanthin, $1.3\%$ isocrytoxanthin, $1.2\%$ zeaxanthin, $1.1\%$ zeaxanthin diester, $1.0\%$ lutein and $0.9\%$ cynthiaxanthin. Based on these data, monoester-type carotenoids ($37.1\~57.6\%$) and diester-type carotenoids ($11.5\~17.2\%$) of total carotenoids in echiurid were the major carotenoids. Meanwhile, when the sea water temperature was elevated and the contents of total carotenoid in echiurids were decreased, the contents of zeaxanthin monoester, diatoxanthin monoester and cynthiaxanthin monoester were increased, but the contents of zeaxanthin diester, diatoxanthin diester and cynthiaxanthin diseter were decreased, indicating that changes in ester-type caroteoids were differently affected by the sea water temperature.