• Title/Summary/Keyword: beef homogenate

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Antioxidant Activity of Rhus verniciflua Stokes Extract in Model Systems and Cooked Beef (모델시스템과 가열우육에서 옻나무 추출물의 항산화 효과)

  • Liang Cheng Yun;Kang Sun Moon;Kim Yong Sun;Lee Sung Ki
    • Food Science of Animal Resources
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    • v.25 no.2
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    • pp.189-195
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    • 2005
  • This study was carried out to investigate the antioxidant effect of Rhus verniciflua Stokes (RVS) extracts. The antioxidant activity of ethanol and water extract from RVS was examined on model systems and cooked beef, respectively. As concentration of RVS ethanol extract increased (1, 10, 100, and 1,000 ppm), the reductive activity of DPPH (2, 2-diphenyl-1-picrylhydrazyl) was significantly increased (14.79, 75.08, 82.02, and $83.97\%$ respectively) (p<0.05). The RVS ethanol extract (10 ppm) was showed higher antioxidant activity than control in liposome and meat homogenate (p<0.05). It had more antioxidative effect in 10 ppm RVS ethanol extract with 2 ppm $\alpha-tocopherol$ treatment The maximum antioxidant activity appeared at pH 6.0 in meat homogenate and at pH $5.0\~6.0$ in liposome. Cooked beef mixed with Rhus verniciflua Stokes water extract showed significantly lower TBARS value, POV during storage for 4 days at $4^{\circ}C$ (p<0.05). And the RVS water extract also showed strong antioxidant activity in cooked beef which accelerated NaCl-catalyzed oxidation. Therefore, the results suggest that RVS extract may be used in commercial meat products as natural antioxidant in the near future.

Antioxidant Activity of Vegetables and Their Blends in Iron -Catalyzed Model Systems

  • Lee, Beom-jun;Lee, Yong-Soon;Cho, Myung-Haing
    • Preventive Nutrition and Food Science
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    • v.3 no.4
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    • pp.309-314
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    • 1998
  • Vegetables are known to contain high amounts of natural antioxidants such as ascorbate, $\alpha$-tocopherol, $\beta$-carotene, and flavinoids. The antioxidant activities of several vegetables including broccoli, carrot , green pepper, spinach and tomato, and their blends were investigated using various iron-catalyzed lipid peroxidation systems. In linoleic acid micelles, carrot and spinach significantly inhibited lipid peroxidation by 29.0% and 35.8% , respectively (p<0.05).Blends of two, three , or four vegetables indluding spinach increased the inhibitory effect on lipid peroxidation, mainly due to high level of antioxidants in spinach. In beef homogenates, tomato significantly inhibited lipid peroxidation by 19.9%(p<0.05), whereas spinach and broccoli significantly stimulated lipid peroxidation by 67.3% and 11.5%, respectively (p<0.05). In the presence of 100$\mu$M ferrous ions, all vegetables inhibited degradation of deoxy-ribose by 43.6~77.6%(p<0.05). In the presence of 100$\mu$M ferric ions , broccoli and spinach stimulated deoxyribose degradation by 39.8% and 55.8%, respectively. These results indicate that the antioxidant activity of vegetables varied with the different model systems and depended on the provided environment such as iron content and substrates. The activity of the various combinations (blends) of vegetables was strongly related to that of the individual vegetable.

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Multiresidue matrix solid phase dispersion (MSPD) extraction and HPLC determination of tetracyclines in animal muscle tissue (시료고체상분산(matrix solid phase dispersion)전처리법을 이용한 식육중 테트라사이클린계 항생물질 동시정량분석)

  • Kang, Hwan-goo;Son, Seong-wan;Cho, Byung-hoon;Lee, Hye-sook;Park, Shin-ja;Kim, Jae-hak;Cho, Myung-haing
    • Korean Journal of Veterinary Research
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    • v.36 no.3
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    • pp.541-550
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    • 1996
  • Tetracycline antibiotics have been widely used not only therapeutics but feed additives. There are many methods for the isolation and determination of tetracycline antibiotics in animal muscle tissue. But those methods take much time and labor, so it is difficult to analyse many samples simultaneously. A rapid isolation method and liquid chromatographic determination of tetracycline antibiotics in animal muscle tissue (bovine, porcine, chicken) is presented. Blank control and tetracyclines fortified samples (0.5g) were blended with $C_{18}$ containing 0.05g each of oxalic acid and disodium ethylenediaminetetraacetate. After homogenize, homogenate was transferred to glass column made from 10ml glass syringe and compressed to 4~4.5ml volume. A column made from the $C_{18}$/meat matrix was washed with hexane (8ml) and dichloromethane (8ml, if needed), following which the tetracyclines were eluted,vith methanol or 0.01M methanolic oxalic acid (8ml). The eluates containing tetracyclines analytes were free from interfering compounds when analysed by HPLC with UV detection (photodiode array at 360nm). Standard curve for each tetracycline showed a linear response at the range of $0.05{\sim}1.0{\mu}g/ml$ and tetracycline antibiotics were eluted within 4ml of eluted volume. All tetracycline antibiotics except tetracycline were stable during the concentration process at $40^{\circ}C$ and time required for concentration was 3~4 hours. Fortified samples containing oxalic aicd and EDTA represented more good recoveries than those of not-contained sample. Recoveries were 91.8~110.1% (oxytetracycline; OTC), 57.7~79.5% (tetracycline; TC), 78.1~88.6% (chlortetracyclines; CTC) and 88.4~100.6% (doxycycline; DC) in pork tissue, 101.1~126.8% (OTC), 66.4~75.4% (TC), 79.2~88.1% (CTC) and 69.3~86.7% (DC) in beef tissue, and 90.8~95.6% (OTC), 66.2~84.4% (TC), 75.7~77.2% (CTC) and 55.6~80.7% (DC) in chicken muscle tissue. The detection limits validated in muscle tissue by this method were $0.05{\mu}g/g$ for OTC and TC, and $0.1{\mu}g/g$ for CTC and DC.

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