Browse > Article
http://dx.doi.org/10.3746/jfn.2003.8.1.075

γ -Aminobutyric Acid (GABA) Content of Selected Uncooked Foods  

Oh, Suk-Heung (Department of Biotechnology, Woosuk University)
Moon, Yeon-Jong (Department of Biotechnology, Woosuk University)
Oh, Chan-Ho (Department of Biotechnology, Woosuk University)
Publication Information
Preventive Nutrition and Food Science / v.8, no.1, 2003 , pp. 75-78 More about this Journal
Abstract
We analyzed the ${\gamma}$-aminobutyric acid (GABA) content of a selection of uncooked foods. Foods with GABA concentrations in excess of 100 nmole per g dry weight included: brown rice germ, brown rice sprouts, barley sprouts, bean sprouts, beans, corn, barley, brown rice, spinach, potatoes, sweet potatoes, yams, kale and chestnuts. Cereals included: brown rice germ, brown rice sprouts, barley sprouts, bean sprouts, beans, corn, barley, and brown rice and had GABA concentrations of 718, 389, 326, 302, 250, 199, 190, and 123 nmole per g dry weight (DW), respectively. The vegetables: spinach, potatoes, sweet potatoes, yams and kale contained 414, 166, 137, 129, 122 nmole GABA per g DW, respectively. The GABA concentration of chestnut was 188 nmole per g DW. However, oatmeal, adlay, broccoli, squash, carrots, onion, apples, lentinus edodes, green laver, and lactobacillus had GABA concentrations of less than 100 nmole per g DW. These results show that brown rice germ, sprouted cereals and spinach are good sources of plant-derived GABA. These data will be useful in selecting foods for the manufacturing of uncooked foods containing a relatively high concentrations of GABA.
Keywords
GABA; uncooked foods; cereals; vegetables;
Citations & Related Records
연도 인용수 순위
  • Reference
1 Bao J, Cheung WY, Wu JY. 1995. Brain L-glutamate de-carboxylase. J Biol Chem 270: 6464-6467   DOI   ScienceOn
2 Omori M, Yano T, Okamoto T, Tsushida T, Murai T,Higuchi M. 1987. Effect of anaerobically treated tea (Gabarontea) on blood pressure of spontaneously hypertensive rats.Nippon Nogikagaku Kaishi 61: 1449-1451   DOI
3 Nakagawa K, Onota A. 1996. Accumulation of $\gamma\; -amino-butyric$ acid (GABA) in the rice germ. Shokuhin Kaihatsu31: 43-46
4 Oh SH, Cha YS. 2001. Effects of diets supplemented withpharbitis seed powder on serum and hepatic lipid levels andenzyme activities of rats administered with ethanol chron-ically. J Biochem Mol Biol 34: 166-171
5 Yoon OH. 2002. The effect of uncooked food for humanhealth. Food Industrv Nutr 7: 4-10
6 Shelp BJ, Bown AW, McLean MD. 1999. Metabolism andfunctions of gamma-aminobutyric acid. Trends Plant Sci 4:446-452   DOI   ScienceOn
7 Krogsgaard-Larsen P. 1989. GABA receptors. In ReceptorPharmacology and Function. Williams M, Glennon RA, Tim-mermans PMWM, eds. Marcel Dekker, Inc., New York. p349-383
8 Oh SH, Choi WG. 2001. Changes in the levels of $\gamma\; -\; aminobutyric$ acid and glutamate decarboxylase in devel-oping soybean seedlings. J Plant Res 114: 309-313   DOI   ScienceOn
9 Oh SH, Kim SH, Moon YJ, Choi WG. 2002. Changes inthe levels of $\gamma\; -\; aminobutyric$ acid and some amino acidsby application of glutamic acid solution for the genninationof brown rices. Korean J Biotechnol Bioeng 17: 49-53
10 Oh SH. 2003. Stirnulation of $\gamma\; -\; aminobutyric$ acid synthesis activity in brown rice by a chitosan/glutamic acid germi-nation solution and by calcium/calmodulin. J Biochem Mol Biot 36: in press
11 Streeter JG, Thompson JF. 1972. Anaerobic accumulationof $\gamma\; -\; aminobutyric$ acid and alanine in radish leaves (Rap-hanus sativus L). PIant Physiol 49: 572-578   DOI   ScienceOn
12 Cha YS, Oh SH. 2000. Investigation of $\gamma\; -\; aminobutyric$ acidin Chinese cabbages and effects of the cabbage diets on lipidmetabolism and liver function of rats administered with eth-anol. J Korean Soc Food Sci Nutr 29: 500-505
13 Bown A, Shelp B. 1989. The metabolism and physiologicalroles of 4-aminobutyric acid. Biochem Life Sci Adv 8: 21-25
14 Stayanarayan V, Nair PM. 1990. Metabolism, enzymologyand possible roles of 4-aminobutyrate in higher plants. Phy-tochem 29: 367-375
15 Serraj R, Shelp BJ, Sinclair TR. 1998. Accumulation of $\gamma\; - \;aminobutyric$ acid in nodulated soybean in response to drought stress. Physiologia Plantarum 102: 79-86   DOI   ScienceOn
16 Snedden WA, Fromm H. 1998. Calmodulin, calmodulin-related proteins and plant responses to the environment.Trends Plant Sci 3: 299-304   DOI   ScienceOn
17 Baum G, Lev-Yadun S, Fridmann Y, Arazi T, KatsnelsonH, Zik M, Fromm H. 1996. Calmodulin binding to glutamatedecarboxylase is required for regulation of glutamate andGABA metabolism and normal development in plants.EMBO J 15: 2988-2996
18 Hwang JK. 2002. Function of uncooked foods. Food In-dustrv Nutr 7: 16-19
19 Yun SJ, Choi KG, Kim JK. 1998. Effect of anaerobic treat-ment on carbohydrate-hydrolytic enzyme activities and freeamino acid contents in barley malt. Kor J Crop Sci 19-22
20 Oh SH, Choi YG. 2000. Production of the quality germinatedbrown rices containing high $\gamma\; -aminobutyric$acid by chitosanapplication. Kor J Biotechnol Bioeng 15: 615-620
21 Kim MJ, Higashiguchi S, Iwamoto Y, Lee SY, Hong SY, Hurh BS, Lee YH. 2002. Production of $\gamma\; -\; aminobutyric$ acidby lactic acid bacteria and its physiological effects in human volunteer test. Proc Sympo Korean Soc Microbiol Biotechnolp 15-17
22 Bown AW, Shelp BJ. 1997. The metabolism and functions $\gamma\; -\; aminobutyric$ acid. Plant Phvsiol 115: 1-5   DOI
23 Selman IW, Cooper P. 1978. Changes in free amino com-pounds in young tomato plants in light and darkness with particular references to $\gamma\; -\; aminobutyric$ acid. Ann Bot 42:627-636   DOI
24 Ramputh A, Bown AW. 1996. Rapid $\gamma\; -\; aminobutyric$ acidsynthesis and inhibition of the growth and development of oblique-banded leaf-roller larvae. Ptant Phvsiol 111: 1349-1353   DOI
25 Kang MS. 2002. GABA production by Lactobacillus sakeiisolated from kimchi. Proc Sympo Korean Soc Microbiol Biotechnol p 176