Biological activity, nutrients and caffeine analysis of fermented tea |
Kim, Taehee
(Department of Forest Biomaterials Engineering, Kangwon National University)
Kwon, Yeeun (Department of Forest Biomaterials Engineering, Kangwon National University) Park, Sunmin (Department of Forest Biomaterials Engineering, Kangwon National University) Kim, Meong-Ju (Department of Intergrative Medical Sciences, Nambu University) Ahn, Sunmi (Materials Science Research Institute, LABIO) Hong, Eunkyung (Materials Science Research Institute, LABIO) Ki, Hosam (Materials Science Research Institute, LABIO) Choi, Sun-Eun (Department of Forest Biomaterials Engineering, Kangwon National University) |
1 | T. Mosmann. (1983). Rapid colorimetric assay for the cellular growth and survival. Journal of Immunological Methods, 65, 55-63. DOI |
2 | M. Feelisch & J. Stamler. (1996). Methods in nitric oxide research. Chichester, United Kingdom : John Wiley & Sons, 492-497. |
3 | S. Y. Park, S. S. Hong, X. H. Han, J. S. Ro & B. Y. Hwang. (2005). Inhibitory constituents of LPS-induced nitric oxide production from Arctium lappa. Natural Product Sciences, 11, 85-88. |
4 | R. G. D. Steel & J. H. Torrie. (1980). Principle and procedures of statistics. 1st ed. Kogakusha, Tokyo, Japan : McGraw-Hill, 187-221. |
5 | S. A. Kharitonov, D. Yates, R. A. Robbins, R. Logan-Sinclair, E. A. Shinebourne & P. J. Barnes. (1994). Increased nitric oxide in exhaled air of asthmatic patients, The Lancet, 343, 1 DOI |
6 | Y. J. Cho, B. J. An & C. Choi. (1993). Inhibition effect of against angiotensin converting enzyme of flavan-3-ols isolated Korean green tea. Korean J. Food Sci. Technol, 25, 238-242. |
7 | T. Matsuzaki & Y. Hara. (1985). Antioxidant activity of tea leaf catechins. Nippon Nogeikagaku Kaishi 59, 129-134. DOI |
8 | Y. Hara, S. Maysuzaki & K. Nakamura. (1989). Antitumor activity of tea catechins. Nippon Eiyo Shokuryo Gakkaishi, 42, 39-45. DOI |
9 | K. Fukai, T. Ishigami & Y. Hara. (1991). Antibacterial activity of tea polyphenols against phytopathogenic bacterial. Agric. Biol. Chem. 55, 1985-1897. DOI |
10 | J. Cao. (1995). External test and clinical observation and evaluation of the caries preventive effect of tea. Food Science and Industry, 28(4), 59-63. |
11 | J. K. Kim, W. S. Cha, J. K. Park, S. Y. Oh, Y. J. Cho, S. S. Chun & C. Choi. (1997). Inhibition effect against tyrosinase of condensed tannins from Korean green tea. Korean J. Food Sci. Technol. 29, 173-174. |
12 | M. J. Kim. (2020). Tea and Curing through Analysis of Yin-Yang Theory. Journal of Industrial nvergence, 18(1), 97-107. DOI |
13 | I. S. Jung. (2010). A Comparative Study on Chemical Components and Physiological Active Function of Green Tea and Black Tea. Wonkwang University master degree thesis. |
14 | T. Hatano, R. Edamatsu, M. Hiramatsu, A. Mori, Y. Fujita, T. Yasuhara, T. Yoshida & T. Okuda. (1989). Effects of the interaction of tannins with co-existing substances. VI. Effects of tannins and ralated polyphenols on superoxide anion radical, and on 1,1-diphenyl-2-picrylhydrazyl radical. Chemical and Parmaceutical Bulletin, 37, 2016-2021. DOI |
15 | R. Re, N. Pellegrini, A. Proteggente, A. Pannala, M. Yan & C. Rice-Evans. (1999). Antioxidant activity applying an improved ABTS radical cation decolorization assay. Free Radical Biology & Medicine, 26, 1231-1237. DOI |
16 | O. Folin & W. Denis. (1912). On phosphotungstic -phosphomolybdic compounds as color reagent. Journal of Biological Chemistry, 12, 239-243. DOI |
17 | K. H. Cho. (2017). Active Components and Physiological Activity of Black Tea Extracts. |
18 | B. Y. Rim. (2006). Comparison of Major Components and Bio-activities from Tea Products. |
19 | K. Azuma, M. Nakayama, M. Koshika, K. Lppoushi, Y. Yamaguchi, K. Kohata, Y. Yamaguchi, H. Ito & H. Higashio. (1999). Phenolic antioxidants from the leaves of Corchorus olitorius L. J Agric Food Chem, 47, 3963-3966. DOI |
20 | S. S. Ham, J. K. Hong & J. H. Lee. (1997). Antimutagenic effects of juices from edible Korean wild herbs. J Food Sci Nutr, 2, 155-161. |
21 | T. P. Labuza. (1971). Kinetic of lipid oxidation in foods. CRC Crit Rev Food Technol, 2, 335-405. |
22 | H. Asai, K. Ogawa, Y. Hara & K. Nakamura. (1987). Effect of alumina-tea catechin complex on the blood sugar in spontaneous diabetic mice. Clin. Report, 21, 163-166. |