• Title/Summary/Keyword: sancho (Zanthoxylum schinifolium) seed oil

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Extending the Storage Periods of Zanthoxylum schinifolium Seed Oil using Sodium Bicarbonate and Ascorbic Acid (중탄산나트륨과 아스코르브산을 이용한 산초유의 저장기간 연장)

  • Kim, Hak Gon;Kang, Seung Mi;Yong, Seong Hyeon;Seol, Yu Won;Kim, Do Hyeon;Park, Jun Ho;Yu, Chan Yeol;Choi, Myung Suk
    • Korean Journal of Medicinal Crop Science
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    • v.28 no.6
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    • pp.421-427
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    • 2020
  • Morus alba, Anti-obesity, C57BL/6 Mice, Expression, Flavonoid, Gene, Mulberry Background: The seed oil of Zanthoxylum schinifolium S. et Z. (sancho) is a traditional cooking oil that has long been sold at a very high price however, depending on the method of extraction and storage, this oil becomes rancid occurs very quickly. Therefore, this study aimed to find a material that prevents rancidity and improves the storage properties of sancho oil. Methods and Results: Sancho oil was extracted using an extraction press, and acid values were compared with commercially available vegetable oils, sancho oil had a higher acid value than other vegetable oils. A very high acid value was observed in sancho oil stored for 6 months, regardless of temperature, requiring an effective storage method. The high acid value and the decrease in turbidity of sancho oil are dependent on the days of sedimentation. Treatment with sodium bicarbonate by concentration resulted in minimal changes in acid value over time. However, minor differences were detected among the treatment concentrations. Ascorbic acid was added to maximize the effect of sodium bicarbonate, and it was observed that ascorbic acid did not improve the antioxidant effect. The sodium bicarbonate and ascorbic acid mixture resulted in minimal change in acid value at temperature up to 25℃. Conclusions: Sancho oil becomes rancid very quicky and requires efficient storage techniques. Sodium bicarbonate and ascorbic acid have been proven to be useful as safe anti-racidity agents without causing harm to humans.

Influence of Red Pepper (Capsicum annuum L.) Seed Oil and Sancho (Zanthoxylum schinifolium) Seed Oil on Serum and Liver Lipids Profiles in Rats (고추종실유 및 산초유의 투여가 흰쥐의 혈청 및 간장 지질농도에 미치는 영향)

  • Yoon, Deuk-Hyo;Choi, Yong-Soon
    • Korean Journal of Food Science and Technology
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    • v.40 no.1
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    • pp.96-100
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    • 2008
  • Pungent oils are fat sources that determine the taste, flavor, and satiety of foods. They are also energy sources and regulators of lipid metabolism in humans. The present study was performed to evaluate the effects of red pepper (Capsicum annuum L.) seed oil (RPO) and sancho (Zanthoxylum schinifolium) seed oil (SCO) as pungent oils on the lipid profiles of rats fed on hypercholesterolemic diets (0.12% cholesterol), as compared to common soybean oil (SBO). There were large differences in the n-6/n-3 fatty acid ratios of the experimental oils (SBO: 8.8, SCO: 1.2, RPO: 70.1). Serum cholesterol concentrations were higher in the RPO groups than in the other groups; whereas ratios of HDL-cholesterol/total cholesterol were lower in the RPO groups. On the other hand, liver cholesterol levels were markedly higher in the SCO groups than in the RPO groups, with the SBO groups having intermediate levels; these largely reflected cholesterol ester content differences in the rat livers. It is possible that the different serum cholesterol responses observed in the RPO and SCO groups might have been related to differences in the n-6/n-3 fatty acid ratio rather than the polyunsaturated fatty acids/saturated fatty acids ratio. Serum triacylglycerol concentrations were lower in the SCO groups as compared to the other groups. Overall, the results showed a hypocholesterolemic effect for sancho seed oil as compared to red pepper seed oil in rats fed diets containing 0.12% cholesterol.

Fatty Acid Composition of Serum and Liver in Mice and Sancho(Zanthoxylum schinifolium) Seed Oil (산초유의 지방산 조성과 마우스 혈청 및 간장의 지방산 조성변화)

  • Cha, Jae-Young;Shin, Seung-Ryeul;Cho, Young-Su
    • Food Science and Preservation
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    • v.7 no.3
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    • pp.308-312
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    • 2000
  • The major fatty acids in the Zanthoxylum schinifolium seed oil were eicosenoic acid 30.88%, oleic acid 29.94%, linoleic acid 23.55% and palmitic acid 10.52%. Fatty acid profiles in the each lipid fractions by TLC of the Z. schinifolium seed oil showed the highest composition of eicosenoic acid in triglyceride fraction and oleic acid in other fractions. Mice (ddY male strain) being starved for 24 hr were injected into gastric directly 500 mg of the Z. schinifolium seed oil, and then blood samples were obtained 0, 3 and 6 hr after dosing. In our results, eicosenoic acid appeared to be significantly increased in the serum obtained from 3 and 6 hr after injection of the Z. schinifolium seed oil. In the control mice, however, the serum samples did not exhibited any change of the Z. schinifolium seed oil. Interestingly, eicosenoic acid was significantly increased in the liver of 6 hr mice after injection. In conclusion, eicosenoic acid was the major fatty acid in the Z. schinifolium seed oil, and this fatty acid was significantly increased in the serum obtained 3 and 6 hr after injection in mice.

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Effects of Blending Oil and Antioxidants to Prevent Rancidity of Sancho Oil (산초유 산패방지를 위한 항산화물질과 혼합유의 영향)

  • Kim, Hak Gon;Kang, Seung Mi;Park, Dong Jin;Yong, Seong Hyeon;Yang, Woo Hyeong;Park, Jun Ho;Yu, Chan Yeol;Solomon, Tamirat;Choi, Myung Suk
    • Korean Journal of Medicinal Crop Science
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    • v.26 no.6
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    • pp.455-463
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    • 2018
  • Background: Sancho (Zanthoxylum schinifolium Siebold and Zucc) oil is used as a traditional medicinal material to treat severs stomach inflammation and as a diuretic. This study was carried out to investigate the effect of addition of antioxidants and blended oil the storage stability and safety of the biomaterial. Methods and Results: The effects of temperature and light on sancho oil were investigated, and the ability of antioxidants in preventing rancidity of the oil was discovered. Under fluorescent light and in darkness, the acidity of the oil was much lower than that under direct sunlight. The addition of antioxidants decreased the acid value of sancho oil; the antioxidant that showed the best results in this regard was 0.5% propolis. The acid value of canola oil, which had the lowest acid value compared with that of other oils, and blended oil, containing 5% canola oil in sancho oil, decreased by 5.5% and 15%, respectively. About one acid value decrease was observed for every 1% increase in blending with canola oil. As the concentration of canola oil increased, the viscosity and the elightness (L valu) of sancho oil increased slightly, while the blueness (b value) decreased. Conclusions: The results of this study may contribute to ensuring food safety during preservation and the industrialization of the presevation of sancho oil.