40종류 이상의 식물의 유식물체, 채소 그리고 가공식품의 글루타치온과 그의 산화형 글루타치온(GSSG)함량을 측정하였다. 유식물체를 이용한 실험에서 총글루타치온 함량은, 100 g(생체중)당 0-120 μmol의 범위였으며, 같은 과, 종 및 품종에 있어서도 현저한 차이를 나타내었다. 특히, 시판되고 있는 곡물과 채소를 이용한 실험에서는 콩과의 팥과 강낭콩에서 높은 글루타치온 함량을 나타내었다. 콩을 이용한 가공식품(고추장, 된장, 간장 등)에서는 글루타치온 함량이 거의 검출되지 않았다. 식품에 있어서 고농도의 글루타치온은 식품의 높은 부가가치가 되리라 생각된다.

In this study, we investigated the levels of glutathione (GSH) and its oxidized form (GSSG) in more than 40 kinds of plant materials including seedling plants, grains, vegetables, and processed foods. The glutathione contents in the seedling plants were ranged from 0 to 120 μmol/100 g. In addition, the different levels of glutathione were observed within the same family and between species. In the case of marketed grains and vegetables, azuki and kidney beans of leguminosae contained the high levels of glutathione, whereas glutathione was scarcely detected in the processed bean foods (bean paste, soybean sauce, etc.). Overall, a higher GSH content in food may contribute to a higher added value.

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1 Ellman GL, "Tissue sulfhydryl groups" 82 : 70-77, 1959

2 Jakoby WB, "The glutathione S-transferases: A group of multifunctional detoxification proteins" 46 : 383-414, 1978

3 Tausz M, "Root uptake, transport, and metabolism of externally applied glutathione in Phaseolus vulgaris seedlings" 161 : 347-349, 2004

4 Castro B, "Role of gamma-glutamyltranspeptidase on the response of poorly and moderately differentiated rhabdomyosarcoma cell lines to buthionine sulfoximine-induced inhibition of glutathione synthesis" 13 : 281-291, 2002

5 Shalata A, "Response of the cultivated tomato and its wild salt-tolerant relative Lycopersicon pennellii to salt-dependent oxidative stress: The root antioxidative system" 112 : 487-494, 2001

6 Dalton TP, "Regulation of gene expression by reactive oxygen" 39 : 67-101, 1999

7 Lenzi A, "Placebo- controlled, double-blind, cross-over trial of glutathione therapy in male infertility" 8 : 1657-1662, 1993

8 Foyer CH, "Overexpression of glutathione reductase but not glutathione synthetase leads to increases in antioxidant capacity and resistance to photoinhibition in poplar trees" 109 : 1047-1057, 1995

9 Penninckx MJ, "Metabolism and functions of glutathione in micro-organisms" 32 : 239-240, 1993

10 Noctor G, "Interactions between biosynthesis, compartmentation and transport in the control of glutathione homeostasis and signalling" 53 : 1283-1304, 2002

11 Klapheck S, "Homoglutathione: isolation, quantification and occurrence in legumes" 74 : 727-732, 1988

12 Flagg EW, "Greenberg RS. Dietary glutathione intake in humans and the relationship between intake and plasma total glutathione level" 21 : 33-46, 1994

13 Ogawa K, "Glutathione-associated regulation of plant growth and stress responses" 7 : 973-981, 2005

14 Lenzi A, "Glutathione treatment of dyspermia: Effect on the lipoperoxidation process" 9 : 2044-2050, 1994

15 Bergmann L, "Glutathione metabolism in plants. In: Sulphur Nutrition and Sulphur Assimilation in Higher Plants: Regulatory and Environmental Aspects" SPB Academic Publishing 109-123, 1993

16 Cooper AJL, "Glutathione in the brain: disorders of glutathione metabolism. In: The molecular and genetic basis of neurological disease" Butterworth-Heinemann 1195-1230, 1997

17 Wierzbicka GT, "Glutathione in food" 2 : 327-337, 1989

18 Lee JE, "Glutathione contents in various plant cell lines" 27 : 57-61, 2000

19 Mills BJ, "Glutathione and cyst(e)ine profiles of vegetables using high performance liquid chromatography with dual electrochemical detection" 10 : 90-101, 1997

20 Tchaikovskaya T, "Glutathione S-transferase hGSTM3 and ageing-associated neurodegeneration: relationship to Alzheimer's disease" 126 : 309-315, 2005

21 Steghens JP, "Fast liquid chromatography- mass spectrometry glutathione measurement in whole blood: Micromolar GSSG is a sample preparation artifact" 798 : 343-349, 2003

22 Wang W, "Endogenous glutathione conjugates: Occurrence and biological functions" 50 : 335-356, 1998

23 Smirnova GV, "Effects of menadione and hydrogen peroxide on glutathione status in growing Escherichia coli" 28 : 1009-1016, 2000

24 Barabas KN, "Effects of excess UV-B irradiation on the antioxidant defence mechanisms in wheat (Triticum aestivum L.) seedlings" 153 : 146-153, 1998

25 Sugihara N, "Effect of potassium sorbate on cellular GSH level and lipid peroxidation in cultured rat hepatocytes" 21 : 524-526, 1998

26 Gronwald JW, "Effect of herbicide antidotes on glutathione concentration and glutathione Stransferase activity of sorghum shoots" 29 : 66-76, 1987

27 Kakinuma M, "Distribution of free L-cysteine and glutathione in seaweeds" 67 : 194-196, 2001

28 Flagg EW, "Dietary glutathione intake and the risk of oral and pharyngeal cancer" 139 : 453-465, 1994

29 Reed DJ, "Biosynthesis and regulation of giutathione: Toxicological implications. Vol. 2. In: Reviews in Biochemical Toxicology" Elsevier/North Holland, Inc 213-241, 1980

30 Wildi B, "Antioxidant composition of selected high alpine plant species from different altitudes" 19 : 138-146, 1996

31 Ceriello A, "Anti-oxidants show an anti-hypertensive effect in diabetic and hypertensive subjects" 81 : 739-742, 1991

32 Valls V, "Age-related changes in antioxidant status and oxidative damage to lipids and DNA in mitochondria of rat liver" 40 : 903-908, 2005

33 Higashi T, "A novel physiological role of liver glutathione as reservoir of L-cysteine" 82 : 117-124, 1977