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Food Reviews International Volume 27, 2011 - Issue 3
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Original Articles

Isolation of Green Tea Catechins and Their Utilization in the Food Industry

Quan V. Vuong School of Environmental and Life Sciences, University of Newcastle, Ourimbah, New South Wales, AustraliaCorrespondence[email protected]
,
Costas E. Stathopoulos School of Environmental and Life Sciences, University of Newcastle, Ourimbah, New South Wales, Australia
,
Minh H. Nguyen School of Environmental and Life Sciences, University of Newcastle, Ourimbah, New South Wales, Australia; School of Natural Sciences, University of Western Sydney, Penrith, New South Wales, Australia
,
John B. Golding School of Environmental and Life Sciences, University of Newcastle, Ourimbah, New South Wales, Australia; Gosford Primary Industries Institute, Industry and Investment NSW, Narara, New South Wales, Australia
&
Paul D. Roach School of Environmental and Life Sciences, University of Newcastle, Ourimbah, New South Wales, Australia
Pages 227-247 | Published online: 23 May 2011

References

  • Graham , H.N. 1992 . Green tea composition, consumption, and polyphenol chemistry . Preventive Medicine , 21 : 334 – 350 .
  • Food and Agriculture Organization. Production of coffee and tea. http://www.fao.org/Fileadmin/templates/ess/ess_test_Folder/Publications/yearbook_2010/b08.xls (http://www.fao.org/Fileadmin/templates/ess/ess_test_Folder/Publications/yearbook_2010/b08.xls) (Accessed: 25 April 2011 ).
  • Food and Agriculture Organization. Current situation and medium term outlook, Report of the intergovernmental group meeting on tea, Hangzhou, China, 14–16 May 2008. http://ftp://ftp.fao.org/docrep/fao/Meeting/013/K2054e.pdf (http://ftp://ftp.fao.org/docrep/fao/Meeting/013/K2054e.pdf) (Accessed: 25 April 2011 ).
  • Shi , J. , Xue , S.J. and Kakuda , Y. 2009 . “ Green tea induced thermogenesis controlling body weight ” . In Tea and Tea Products: Chemistry and Health-Promoting Properties , Edited by: Ho , C.T. , Lin , J.-K. and Shahidi , F. 221 – 232 . Boca Raton, FL : CRC Press .
  • Hara , Y. 2001 . Green Tea: Health Benefits and Application , New York : Marcel Dekker .
  • Khan , N. 2007 . Mukhtar, H. Tea polyphenols for health promotion . Life Sciences , 81 : 519 – 533 .
  • Wheeler , D.S. and Wheeler , W.J. 2004 . The medicinal chemistry of tea . Drug Development Research , 61 : 45 – 65 .
  • Zaveri , N.T. 2006 . Green tea and its polyphenolic catechins: medicinal uses in cancer and noncancer applications . Life Science , 78 : 2073 – 2080 .
  • Erba , D. , Riso , P. , Bordoni , A. , Foti , P. , Biagi , P.L. and Testolin , G. 2005 . Effectiveness of moderate green tea consumption on antioxidative status and lipid profile in humans . Journal of Nutritional Biochemistry , 16 : 144 – 149 .
  • Kuriyama , S. 2008 . The relationship between green tea consumption and cardiovascular disease as evidenced by epidemiological studies . Journal of Nutrition , 138 : 1548S – 1553S .
  • Chu , D.C. and Juneja , L.R. 1997 . “ General chemical composition of green tea and its infusion ” . In Chemistry and Applications of Green Tea , Edited by: Yamamoto , T. , Juneja , L.R. , Chu , D.C. and Kim , M. 13 – 22 . Boca Raton, FL : CRC Press .
  • Ninomiya , M. , Unten , L. and Kim , M. 1997 . “ Chemical and physiochemical properties of green tea polyphenols ” . In Chemistry and Application of Green Tea , Edited by: Yamamoto , T. , Juneja , L.R. , Chu , D.C. and Kim , M. 23 – 36 . Boca Raton, FL : CRC Press .
  • Masukawa , Y. , Matsui , Y. , Shimizu , N. , Kondou , N. , Endou , H. , Kuzukawa , M. and Hase , T. 2006 . Determination of green tea catechins in human plasma using liquid chromatography–electrospray ionization mass spectrometry . Journal of Chromatography B , 834 : 26 – 34 .
  • Balentine , D.A. , Harbowy , M.E. and Graham , H.N. 1998 . “ Tea: the plant and its manufacture; chemistry and consumption of the beverage ” . In Caffeine , Edited by: Spiller , G.A. 35 – 68 . Boca Raton, FL : CRC Press .
  • Yamanishi , T. 1995 . Flavor of tea . Food Reviews International , 11 : 477
  • Penders , M.H.G.M. , Jone , D.P. , Needham , D. and Pealan , E.G. 1998 . Mechanistic study of equilibrium and kinetic behaviour of tea cream formation . Food Hydrocolloids , 12 : 9 – 15 .
  • Siebert , K.J. , Troukhanova , N.V. and Lynn , P.Y. 1996 . Nature of polyphenol−protein interactions . Journal of Agricultural and Food Chemistry , 44 : 80 – 85 .
  • Sekiya , J. , Kajiwara , T. , Monma , T. and Hatanaka , A. 1984 . Interaction of tea catechins with proteins: formation of protein precipitate . Agricultural and Biological Chemistry , 48 : 1963 – 1967 .
  • Zijp , I.M. , Korver , O. and Tijburg , L.B.M. 2000 . Effect of tea and other dietary factors on iron absorption . Critical Reviews in Food Science and Nutrition , 40 : 371 – 398 .
  • Subramanian , N. , Venkatesh , P. , Ganguli , S. and Sinkar , V.P. 1999 . Role of polyphenol oxidase and peroxidase in the generation of black tea theaflavins . Journal of Agricultural and Food Chemistry , 47 : 2571 – 2578 .
  • Gulati , A. , Rawat , R. , Singh , B. and Ravindranath , S.D. 2003 . Application of microwave energy in the manufacture of enhanced-quality green tea . Journal of Agricultural and Food Chemistry , 51 : 4764 – 4768 .
  • Wang , H. and Helliwell , K. 2000 . Epimerisation of catechins in green tea infusions . Food Chemistry , 70 : 337 – 344 .
  • Zhu , Q.Y. , Zhang , A. , Tsang , D. , Huang , Y. and Chen , Z. 1997 . Stability of green tea catechins . Journal of Agricultural and Food Chemistry , 45 : 4624 – 4628 .
  • Wan , X. , Li , D. and Zhang , Z. 2009 . “ Antioxidant properties and mechanisms of tea polyphenols ” . In Tea and Tea Products: Chemistry and Health-Promoting Properties , Edited by: Ho , C.T. , Lin , J.K. and Shahidi , F. 131 – 160 . Boca Raton, FL : CRC Press .
  • Guo , Q. , Zhao , B. , Li , M. , Shen , S. and Xin , W. 1996 . Studies on protective mechanisms of four components of green tea polyphenols against lipid peroxidation in synaptosomes . Biochimica et Biophysica Acta - Lipids and Lipid Metabolism , 1304 : 210 – 222 .
  • Terao , J. , Piskula , M. and Yao , Q. 2002 . Protective effect of epicatechin, epicatechin gallate, and quercetin on lipid peroxidation in phospholipid bilayers . Archives of Biochemistry and Biophysics , 308 : 278 – 284 .
  • Huo , C. , Wan , S.B. , Lam , W.H. , Li , L. , Wang , Z. , Landis-Piwowar , K.R. , Chen , D. , Dou , Q.P. and Chan , T.H. 2008 . The challenge of developing green tea polyphenols as therapeutic agents . Inflammopharmacology , 16 : 248 – 252 .
  • Shi , J. , Nawaz , H. , Pohorly , J. , Mittal , G. , Kakuda , Y. and Jiang , Y. 2005 . Extraction of polyphenolics from plant material for functional foods—engineering and technology . Food Reviews International , 21 : 139 – 166 .
  • Wang , H. , Provan , G.J. and Helliwell , K. 2000 . Tea flavonoid: their functions, utilisation and analysis . Trends in Food Science & Technology , 11 : 152 – 160 .
  • Kumar , N.S. and Rajapaksha , M. 2005 . Separation of catechin constituents from five tea cultivars using high-speed counter-current chromatography . Journal of Chromatography A , 1083 : 223 – 228 .
  • Li , P. , Wang , Y. , Ma , R. and Zhang , X. 2005 . Separation of tea polyphenol from green tea leaves by a combined CATUFM-adsorption resin process . Journal of Food Engineering , 67 : 253 – 260 .
  • Bazinet , L. , Labbé , D. and Tremblay , A. 2007 . Production of green tea EGC and EGCG enriched fractions by two-step extraction procedure . Separation and Purification Technology , 56 : 53 – 56 .
  • Ishizu , T. , Tsutsumia , H. and Sato , T. 2009 . Interaction between gallocatechin gallate and caffeine in crystal structure of 1:2 and 2:2 complexes . Tetrahedron Letters , 50 : 4121 – 4124 .
  • Copeland , E.L. , Clifford , M.N. and Williams , C.M. 1998 . Preparation of epigallocatechin gallate from commercial green tea by caffeine precipitation and solvent partition . Food Chemistry , 61 : 81 – 87 .
  • Jin , Y. , Jin , C.H. and Row , K.H. 2006 . Separation of catechin compounds from different teas . Journal of Biotechnology , 1 : 209 – 213 .
  • Dong , J.J. , Ye , J. , Lu , J.L. , Zheng , X.Q. and Liang , Y.R. 2011 . Isolation of antioxidant catechins from green tea and its decaffeination . Food and Bioproducts Processing , 89 : 62 – 66 .
  • McDonald , M.N. and Vire , D.E. 1992 . Chloroform in the endodontic operatory . Journal of Endodontics , 18 : 301 – 303 .
  • Zhao , R. , Yan , Y. , Li , M. and Yan , H. 2007 . Selective adsorption of tea polyphenols from aqueous solution of the mixture with caffeine on macroporous crosslinked poly(N-vinyl-2-pyrrolidinone) . Reactive and Functional Polymers , 68 : 768 – 774 .
  • Lu , J.L. , Wu , M.Y. , Yang , X.L. , Dong , Z.B. , Ye , J.H. , Borthakur , D. , Sun , Q.-L. and Liang , Y.-R. 2010 . Decaffeination of tea extracts by using poly(acrylamide-co-ethylene glycol dimethylacrylate) as adsorbent . Journal of Food Engineering , 97 : 555 – 562 .
  • Bailey , A.T. , Yuhasz , D. and Zeng , W.B. Method for isolation of caffeine-free catechins from green tea . U.S. Patent No. 09/226477 . 2001 .
  • Takeuchi , T.M. , Pereira , C.G. , Braga , M.E.M. , Maróstica , M.R. , Leal , P.F. and Meireles , M.A.A. 2009 . “ Low-pressure solvent extraction (solid–liquid extraction, microwave assisted, and ultrasound assisted) from condimentary plants ” . In Extracting Bioactive Compounds for Food Products , Edited by: Meireles , M.A.A. 137 – 218 . Boca Raton, FL : CRC Press .
  • Huang , K.J. , Wu , J.J. , Chiu , Y.H. , Lai , C.Y. and Chang , C.M.J. 2007 . Designed polar cosolvent-modified supercritical CO2 removing caffeine from and retaining catechins in green tea powder using response surface methodology . Journal of Agricultural and Food Chemistry , 55 : 9014 – 9020 .
  • Escribano-Balo'n , M.T. and Santos-Buelga , C. 2003 . “ Polyphenols extraction from foods ” . In Methods in Polyphenol Analysis , Edited by: Santos-Buelga , C. and Williamson , G. 1 – 16 . Cambridge, , UK : The Royal Society of Chemistry .
  • Park , H.S. , Lee , H.J. , Shin , M.H. , Lee , K.W. , Lee , H.Y. , Kim , S. and Kim , K.H. 2007 . Effects of cosolvents on the decaffeination of green tea by supercritical carbon dioxide . Food Chemistry , 105 : 1011 – 1017 .
  • Bond , T.J. , Lewis , J.R. , Davis , A. and Davies , A.P. 2003 . “ Analysis and purification of catechins and their transformation products ” . In Methods in Polyphenol Analysis , Edited by: Santos-Buelga , C. and Williamson , G. 229 – 266 . Cambridge, , UK : The Royal Society of Chemistry .
  • Amarowicz , R. and Shahidi , F. 1996 . A rapid chromatographic method for separation of individual catechins from green tea . Food Research International , 29 : 71 – 76 .
  • Cao , X. , Tian , Y. , Zhang , T. and Ito , Y. 2001 . Separation and purification of three individual catechins from tea polyphenol mixture by CCC . Journal of Liquid Chromatography & Related Technologies , 24 : 1723 – 1732 .
  • Kang , J.H. , Chung , S.T. , Go , J.H. and Row , K.H. 2000 . Separation of epigallocatechin gallate from Korean green tea by RP-HPLC . Journal of Liquid Chromatography & Related Technologies , 23 : 2739 – 2749 .
  • Wong , C.C. , Cheng , K.W. , Chao , J. , Peng , X. , Zheng , Z. , Wu , J. , Chen , F. and Wang , M. 2009 . “ Analytical methods for bioactive compounds in teas ” . In Tea and Tea Products: Chemistry and Health-Promoting Properties , Edited by: Ho , C.T. , Lin , J.K. and Shahidi , F. 77 – 110 . Boca Raton, FL : CRC Press .
  • Haak , L. , Raes , K. and Smet , S.D. 2009 . Effect of plant phenolics, tocopherol and ascorbic acid on oxidative stability of pork patties . Journal of the Science of Food and Agriculture , 89 : 1360 – 1365 .
  • Drewnowski , A. and Gomez-Carneros , C. 2000 . Bitter taste, phytonutrients, and the consumer: a review . American Journal of Clinical Nutrition , 72 : 1424 – 1435 .
  • Wang , R. , Zhou , W. and Jiang , X. 2008 . Mathematical modeling of the stability of green tea catechin epigallocatechin gallate (EGCG) during bread baking . Journal of Food Engineering , 87 : 505 – 513 .
  • Sambandam , T. and Mahadevan , A. 1993 . Degradation of catechin and purification and partial characterization of catechin oxygenase from Chaetomium cupreum . World Journal of Microbiology and Biotechnology , 9 : 37 – 44 .
  • Wang , R. , Zhou , W. and Wen , R.A.H. 2006 . Kinetic study of the thermal stability of tea catechins in aqueous systems using a microwave reactor . Journal of Agricultural and Food Chemistry , 54 : 5924 – 5932 .
  • Chen , Z.Y. , Zhu , Q.Y. , Tsang , D. and Huang , Y. 2001 . Degradation of green tea catechins in tea drinks . Journal of Agricultural and Food Chemistry , 49 : 477 – 482 .
  • Chen , Z.Y. , Zhu , Q.Y. , Wong , Y.F. , Zhang , Z. and Chung , H.Y. 1998 . Stabilizing effect of ascorbic acid on green tea catechins . Journal of Agricultural and Food Chemistry , 46 : 2512 – 2516 .
  • Huang , H. , Kwok , K.C. and Liang , H. 2004 . Effects of tea polyphenols on the activities of soybean trypsin inhibitors and trypsin . Journal of the Science of Food and Agriculture , 84 : 121 – 126 .
  • Tang , S. , Sheehan , D. , Buckley , D.J. , Morrissey , P.A. and Kerry , J.P. 2001 . Anti-oxidant activity of added tea catechins on lipid oxidation of raw minced red meat, poultry and fish muscle . International Journal of Food Science and Technology , 36 : 685 – 692 .
  • Varnam , A.H. and Sutherland , J.P. 1995 . Meat and Meat Products: Technology, Chemistry and Microbiology , London : Chapman & Hall .
  • Yilmaz , Y. 2006 . Novel uses of catechins in foods . Trends in Food Science & Technology , 17 : 64 – 71 .
  • Chen , C. , Pearson , A.M. and Gray , J.I. 1992 . Effects of synthetic antioxidants (BHA, BHT and PG) on the mutagenicity of IQ-like compounds . Food Chemistry , 43 : 177 – 183 .
  • Pokorny , J. 1991 . Natural antioxidants for food use . Trends in Food Science & Technology , 9 : 223 – 227 .
  • Salah , N. , Miller , N.J. , Paganga , G. , Tijburg , L. , Bolwell , G.P. and Rice-Evans , C. 1995 . Polyphenolic flavanols as scavengers of aqueous phase radicals and as chain-breaking antioxidants . Archives of Biochemistry and Biophysics , 322 : 339 – 346 .
  • Toda , M. , Okubo , S. , Hiyoshi , R. and Shimamura , T. 1989 . The bactericidal activity of tea and coffee . Letters in Applied Microbiology , 8 : 123 – 125 .
  • Mabe , K. , Yamada , M. , Oguni , I. and Takahashi , T. 1999 . In vitro and in vivo activities of tea catechins against Helicobacter pylori . Antimicrobial Agents in Chemotherapy , 43 : 1788 – 1791 .
  • Hara-Kudo , Y. , Yamasaki , A. , Sasaki , M. , Okubo , T. , Minai , Y. , Haga , M. , Kondo , K. and Sugita-Konishi , Y. 2005 . Antibacterial action on pathogenic bacterial spore by green tea catechins . Journal of the Science of Food and Agriculture , 85 : 2354 – 2361 .
  • Sugita-Konishi , Y. , Hara-Kudo , Y. , Amano , F. , Okubo , T. , Aoi , N. , Iwaki , M. and Kumagai , S. Epigallocatechin gallate and gallocatechin gallate in green tea catechins inhibit extracellular release of Vero toxin from enterohemorrhagic Escherichia coli O157:H7 . Biochimica et Biophysica Acta - General Subjects 1999 , 1472 42 – 50 .
  • Saucier , C.T. and Waterhouse , A.L. 1999 . Synergetic activity of catechin and other antioxidants . Journal of Agricultural and Food Chemistry , 47 : 4491 – 4494 .
  • Weisburger , J.H. , Veliath , E. , Larios , E. , Pittman , B. , Zang , E. and Hara , Y. 2002 . Tea polyphenols inhibit the formation of mutagens during the cooking of meats . Mutation Research , 516 : 19 – 22 .
  • Tang , S. , Kerry , J.P. , Shehan , D. , Buckley , D.J. and Morrissey , P.A. 2001 . Antioxidative effect of added tea catechins on susceptibility of cooked red meat, poultry and fish patties to lipid oxidation . Food Research International , 34 : 651 – 657 .
  • Mitsumoto , M. , O'Grady , M.N. , Kerry , J.P. and Buckley , D.J. 2005 . Addition of tea catechins and vitamin C on sensory evaluation, colour and lipid stability during chilled storage in cooked or raw beef and chicken patties . Meat Science , 69 : 773 – 779 .
  • Martínez , L. , Cilla , I. and Beltrán , J.A. 2005 . Roncalés, P. Antioxidant effect of rosemary, borage, green tea, pu-erh tea and ascorbic acid on fresh pork sausages packaged in a modified atmosphere: influence of the presence of sodium chloride . Journal of the Science of Food and Agriculture , 86 : 1298 – 1307 .
  • Tang , S.Z. , Ou , S.Y. , Huang , X.S. , Li , W. , Kerry , J.P. and Buckley , D.J. 2006 . Effects of added tea catechins on colour stability and lipid oxidation in minced beef patties held under aerobic and modified atmospheric packing conditions . Journal of Food Engineering , 77 : 248 – 253 .
  • Bañón , S. , Díaz , P. , Rodríguez , M. , Garrido , M.A.D. and Price , A. 2007 . Ascorbate, green tea and grape seed extracts increase the shelf life of low sulphite beef patties . Meat Science , 77 : 626 – 633 .
  • Liu , F. , Dai , R. , Zhu , J. and Li , X. 2010 . Optimizing color and lipid stability of beef patties with a mixture design incorporating with tea catechins, carnosine, and a-tocopherol . Journal of Food Engineering , 98 : 170 – 177 .
  • Gomez-Guillen , M.C. and Montero , M.P. 2007 . Polyphenol uses in seafood conservation . American Journal of Food Technology , 2 : 593 – 601 .
  • Koketsu , M. and Satoh , Y. 1997 . Antioxidative activity of green tea polyphenols in edible oils . Journal of Food Lipids , 4 : 1 – 9 .
  • Fan , W. , Chi , Y. and Zhang , S. 2008 . The use of a tea polyphenol dip to extend the shelf life of silver carp (Hypophthalmicthys molitrix) during storage in ice . Food Chemistry , 108 : 148 – 153 .
  • He , Y. and Shahidi , F. 1997 . Antioxidant activity of green tea and its catechins in a fish meat model system . Journal of Agricultural and Food Chemistry , 45 : 4262 – 4266 .
  • Banerjee , S. 2006 . Inhibition of mackerel (Scomber scombrus) muscle lipoxygenase by green tea polyphenols . Food Research International , 39 : 486 – 491 .
  • Saito , M. , Saito , K. , Kunisaki , N. and Kimura , S. 2002 . Green tea polyphenols inhibit metalloproteinase activities in the skin, muscle, and blood of rainbow trout . Journal of Agricultural and Food Chemistry , 50 : 7169 – 7174 .
  • Gram , L. and Dalgaard , P. 2002 . Fish spoilage bacteria—problems and solutions . Current Opinion in Biotechnology , 13 : 262 – 266 .
  • Chen , Z.Y. and Chan , P.T. 1996 . Antioxidative activity of green tea catechins in canola oil . Chemistry and Physics of Lipids , 82 : 163 – 172 .
  • Wu , Y. , Chen , Z. , Li , X. and Li , M. 2008 . Effect of tea polyphenols on the retrogradation of rice starch . Food Research International , 42 : 221 – 225 .
  • Wang , R. and Zhou , W. 2004 . Stability of tea catechins in the breadmaking process . Journal of Agricultural and Food Chemistry , 52 : 8224 – 8229 .
  • Friedman , M. and Jürgens , H.S. 2000 . Effect of pH on the stability of plant phenolic compounds . Journal of Agricultural and Food Chemistry , 48 : 2101 – 2110 .
  • Labbé , D. , Tremblay , A. and Bazinet , L. 2006 . Effect of brewing temperature and duration on green tea catechin solubilization: basis for production of EGC and EGCG-enriched fractions . Separation and Purification Technology , 49 : 1 – 9 .
  • Hu , J. , Zhou , D. and Chen , Y. 2009 . Preparation and antioxidant activity of green tea extract enriched in epigallocatechin (EGC) and epigallocatechin gallate (EGCG) . Journal of Agricultural and Food Chemistry , 57 : 1349 – 1353 .
  • Wan , X. , Zhang , Z. and Li , D. 2009 . “ Chemistry and biological peroperties of theanine ” . In Tea and Tea Products: Chemistry and Health-Promoting Properties , Edited by: Ho , C.T. , Lin , J.K. and Shahidi , F. 255 – 274 . Boca Raton, FL : CRC Press .
  • Bari , V.K.J.L. , Inatsu , Y. , Kawamoto , S. and Friedman , M. 2007 . Control of Clostridium perfringens spores by green tea leaf extracts during cooling of cooked ground beef, chicken, and pork . Journal of Food Protection , 70 : 1429 – 1433 .
  • Gramza , A. , Khokhar , S. and Yoko , S. 2006 . Gliszczynska-Swiglo, A.; Hes, M.; Korczak, J. Antioxidant activity of tea extracts in lipids and correlation with polyphenol content . European Journal of Lipid Science and Technology , 108 : 351 – 362 .
  • Bozkurt , H. 2006 . Utilization of natural antioxidants: green tea extract and Thymbra spicata oil in Turkish dry-fermented sausage . Meat Science , 73 : 442 – 450 .
  • O'Sullivan , A. , Mayr , A. , Shaw , N.B. , Murphy , S.C. and Kerry , J.P. 2005 . Use of natural antioxidants to stabilize fish oil systems . Journal of Aquatic Food Product Technology , 14 : 75 – 94 .
  • Lin , C.C. and Lin , C.S. 2005 . Enhancement of the storage quality of frozen bonito fillets by glazing with tea extracts . Food Control , 16 : 169 – 175 .
  • Martín-Diana , A.B. , Rico , D. and Barry-Ryan , C. 2008 . Green tea extract as a natural antioxidant to extend the shelf-life of fresh-cut lettuce . Innovative Food Science & Emerging Technologies , 9 : 593 – 603 .
  • Jo , C. , Son , J.H. , Son , C.B. and Byun , M.W. 2003 . Functional properties of raw and cooked pork patties with added irradiated, freeze-dried green tea leaf extract powder during storage at 4°C . Meat Science , 64 : 13 – 17 .
  • Seto , Y. , Lin , C.C. , Endo , Y. and Fujimoto , K. 2005 . Retardation of lipid oxidation in blue sprat by hot water tea extracts . Journal of the Science of Food and Agriculture , 85 : 1119 – 1124 .
  • Wanasundara , U.N. and Shahidi , F. 1998 . Antioxidant and pro-oxidant activity of green tea extracts in marine oils . Food Chemistry , 63 : 335 – 342 .
  • McCarthy , T.L. , Kerry , J.P. , Kerry , J.F. , Lynch , P.B. and Buckley , D.J. 2001 . Assessment of the antioxidant potential of natural food and plant extracts in fresh and previously frozen pork patties . Meat Science , 57 : 177 – 184 .
  • Lu , T.M. , Lee , C.C. , Mau , J.L. and Lin , S.D. 2010 . Quality and antioxidant property of green tea sponge cake . Food Chemistry , 119 : 1090 – 1095 .
  • Nirmal , N.P. and Benjakul , S. 2010 . Effect of catechin and ferulic acid on melanosis and quality of Pacific white shrimp subjected to prior freeze-thawing during refrigerated storage . Food Control , 21 : 1263 – 1271 .
  • Lin , C.C. and Liang , J.H. 2002 . Effect of antioxidants on the oxidative stability of chicken breast meat in a dispersion system . Journal of Food Science , 67 : 530 – 533 .
  • Maqsood , S. and Benjakul , S. 2010 . Comparative studies of four different phenolic compounds on in vitro antioxidative activity and the preventive effect on lipid oxidation of fish oil emulsion and fish mince . Food Chemistry. , 119 : 123 – 132 .
  • Ku , K.J. , Hong , Y.H. and Song , K.B. 2008 . Mechanical properties of a Gelidium corneum edible film containing catechin and its application in sausages . Journal of Food Science , 73 : C217 – C221 .
  • Balange , A. and Benjakul , S. 2009 . Enhancement of gel strength of bigeye snapper (Priacanthus tayenus) surimi using oxidised phenolic compounds . Food Chemistry , 113 : 61 – 70 .
  • Hopper , W. and Mahadevan , A. 1997 . Degradation of catechin by Bradyrhizobium japonicum . Biodegradation , 8 : 159 – 165 .

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