結合茶品單寧及胺基酸含量檢測之螢光流動注射分析系統

Yueh-Tzu Hung; 洪悅慈

請用此 Handle URI 來引用此文件： http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/29331

完整後設資料紀錄

DC 欄位	值	語言
dc.contributor.advisor	鄭宗記(Tzong-Jih Cheng)
dc.contributor.author	Yueh-Tzu Hung	en
dc.contributor.author	洪悅慈	zh_TW
dc.date.accessioned	2021-06-13T01:04:42Z	-
dc.date.available	2007-07-27
dc.date.copyright	2007-07-27
dc.date.issued	2007
dc.date.submitted	2007-07-22
dc.identifier.citation	1 Astill, C., M. R. Birch, C. Dacombe, P. G. Humphrey and P. T. Martin. 2001. Factors affecting the caffeine and polyphenol contents of black and green tea infusions. Journal of Agricultural and Food Chemistry 49 (11): 5340-5347. 2 Aucamp, J. P., Y. Hara and Z. Apostolides. 2000. Simultaneous analysis of tea catechins, caffeine, gallic acid, theanine and ascorbic acid by micellar electrokinetic capillary chromatography. Journal of Chromatography A 876 (1-2): 235-242. 3 Bate-Smith, E. C. and T. Swain. 1963. Flavonoid compounds. In “Comparative biochemistry: a comprehensive treatise vol. 3”, 764. A. M. Florkin and H. S. Mason, eds. New York: Academic Press. 4 Beart, J. E., T. H. Lilley and E. Haslam. 1985. Plant polyphenols-secondary metabolism and chemical defense: some observations. Phytochemistry 24: 33-38. 5 Bittner S. 2006. When quinones meet amino acids: chemical, physical and biological consequences. Amino Acids 30 (3): 205-224. 6 Bokuchava, M. A. and N. I. Skobekeva. 1980. The biochemistry and technology of tea manufacture. Critical Reviews in Food Science and Nutrition 12(4): 303-370. 7 Cen, H. and Y. He. 2007. Theory and applications of near infrared reflectance spectroscopy in determination of food quality. Trends in Food Science and Technology 18: 72-83. 8 Chang, J. H., I. M. Juan and Y. S. Tsai. 1995. The changes of chemical components of tea during the manufacturing process and the effects on tea quality. Special issue of Agricultural Reasearch Insititute 56: 120-148. 9 Chen, C. N., C. M. Liang, J. R. Lai, Y. J. Tsai, J. S. Tsay and J. K. Lin. 2003. Capillary electrophoretic determination of theanine, caffeine, and catechins in fresh tea leaves and oolong tea and their effects on rat neurosphere adhesion and migration. Journal of Agricultural and Food Chemistry 51 (25): 7495-7503. 10 Chen, L. S. 1993. Studies on the tea sensory evaluation. PhD dissertation. National Taiwan University, Department of Agronomy. 11 Chu, D.C., K. Kobayashi, L. R. Juneja and T. Yamamoto. 1997. Theanine- Its synthesis, isolation and physiological activity. In “Chemistry and Applications of Green Tea”, 129-135, T. Yamamoto, ed. Boca Raton: CRC Press. 12 Cui H., Q. Li, R. Meng, H. Zhao and C. He. 1998. Flow injection analysis of tannic acid with inhibited chemiluminescent detection. Analytical Chimica Acta 362: 151-155. 13 Dalluge, J. J. and B. C. Nelson. 2000. Determination of tea catechins. Journal of Chromatography A 881 (1-2): 411-424. 14 De Freitas, V. and N. Mateus. 2002. Nephelometric study of salivary protein-tannin aggregates. Journal of the Science of Food and Agriculture 82(1): 113-119. 15 Dutta, R., E. L. Hines, J. W. Gardner, K. R. Kashwan and A. Bhuyan. 2003. Tea quality prediction using a tin oxide-based electronic nose: an artificial intelligence approach. Sensors and Actuators B-Chemical 94 (2): 228-237. 16 Edelmann, A. and B. Lendl. 2002. Toward the optical tongue: Flow-through sensing of tannin-protein interactions based on FTIR spectroscopy. Journal of the American Chemical Society 124(49): 14741-14747. 17 Ekborg-Ott, K. H., A. Taylor, D. W. Armstrong. 1997. Varietal differences in the total and enantiomeric composition of theanine in tea. Journal of Agricultural and Food Chemistry 45(2): 353-363. 18 Feldheim, W., P. Yongvanit and P. H. Cummings. 1986. Investigation of the presence and significance of theanine in the tea plant. Journal of the Science of the Food and Agriculture 37(6): 527-534. 19 Feng, S., A. Tang, J. Jiang and J. Fan. 2002. Spectrofluorimetric determination of tannins based on their activative effect on the Cu(II) catalytic oxidation of rhodamine 6G by hydrogen peroxide. Analytica Chimica Acta 455(2): 187-191. 20 Florkin, A. M. and H. S. Mason (eds.). 1963. Comparative biochemistry: a comprehensive treatise, vol. 3, pp. 764. Academic Press. New York. 21 Friedman M., S. Y. Kim, S. J. Lee, G. P. Han, J. S. Han, K. R. Lee and N. Kozukue. 2005. Distribution of catechins, theaflavins, caffeine, and theobromine in 77 teas consumed in the United States. Journal of Food Science 70 (9): C550-C559. 22 Glendinning, J. I. 1992. Effect of salivary proline-rich proteins on ingestive responses to tannic acid in mice. Chemical Senses 17(1): 1-12. 23 Guilbault, G. G. and J. E. Hieserman. 1968. Fluorometric assay of amino acids. Analytical Biochemistry 26: 1-11. 24 Hagerman, A. E. and L. G. Butler. 1989. Choosing appropriate methods and standards for assaying tannin. Journal of Chemical Ecology 15(6): 1795-1810. 25 Harbowy, M. E. and D. A. Balentine. 1997. Tea chemistry. Critical Reviews in Plant Sciences 16(5): 415-480. 26 Haslam, E. 2003. Thought of thearubigins. Phytochemistry 64: 61-73. 27 Hilton, P. J. and R. T. Ellis. 1972. Estimation of market value of central African tea by theaflavin analysis. Journal of the Science of Food and Agriculture 23(2): 227-232. 28 Horie, H, T. Ujihara and K. Kohata. 2001. Elution of major tea components in tea infusion. Tea Research Journal (in Japanese) 91: 29-33. 29 Horie, H., S. Fukatsu, S. Mukai, T. Goto, M. Kawanaka and T. Shimohara. 1993. Quality evaluation on green tea. Sensor and Actuators B-Chemical 13(1-3): 451-454. 30 Horne, J., J. Hayes and H. T. Lawless. 2002. Turbidity as a measure of salivary protein reactions with astringent substances. Chemical Senses 27(7): 653-659. 31 Ikegaya, K. 1990. Determination of chemical constituents in processed green tea by Near Infrared analysis. Japan Agricultural Research Quarterly 24(1): 49-53. 32 Iwasa K. 1975. Methods of chemical analysis of green tea. Japan Agricultural Research Quarterly 9(3): 161-164. 33 Iwasa, K. and H. Torii. 1962. A colorimetric determination of tea tannin with ferrous tartrate. Journal of Chemical Ecology 15: 1795-1810. 34 Juneja, L. R., D. C. Chu, T. Okubo, Y. Nagato and H. Yokogoshi. 1999. L-theanine - a unique amino acid of green tea and its relaxation effect in humans. Trends in Food Science and Technology 10 (6-7): 199-204. 35 Kallithraka, S., J. Bakker and M. N. Clifford. 1998. Evidence that salivary proteins are involved in astringency. Journal of Sensory Studies 13 (1): 29-43. 36 Kaneko, S., K. Kumazawa, H. Masuda, A. Henze and T. Hofmann. 2006. Molecular and Sensory Studies on the Umami Taste of Japanese Green Tea. Journal of Agricultural and Food Chemistry 54(7): 2688-2694. 37 Khokhar, S. and S. G. M. Magnusdottir. 2002. Total phenol, catechin, and caffeine contents of teas commonly consumed in the United Kingdom. Journal of Agricultural and Food Chemistry 50 (3): 565-570. 38 Le Gall, G., I. J. Colquhoun and M. Defernez. 2004. Metabolite profiling using H-1 NMR spectroscopy for quality assessment of green tea, Camellia sinensis (L.). Journal of Agricultural and Food Chemistry 52 (4): 692-700. 39 Lee, M. H., R. L. C. Chen and K. Matsumoto. 1996. Fluorometric biosensing of the total amino acid content and the glutamate content of green tea infusions using an automated multi-channel flow system. Bioscience Biotechnology and Biochemistry 60(1): 99-102. 40 Liang, Y. R., J. L. Lu, L. Y. Zhang, S. Wu, Y. Wu. 2003. Estimation of black tea quality by analysis of chemical composition and colour difference of tea infusions. Food Chemistry 80 (2): 283-290. 41 Lindroth, P. and K. Mopper. 1979. High performance liquid chromatographic determination of subpicomole amounts of amino acids by precolumn fluorescence derivatization with o-phthaldialdehyde. Analytical Chemistry 51(11): 1667-1674. 42 McDowell, I., S. Taylor and C. Gay. 1995. The phenolic pigment composition of black tea liquors – part I: predicting quality. Journal of the Science of Food and Agriculture 69(4): 467-474. 43 Nagashima, Z., M. Nakagawa, H. Tokumura and Y. Toriumi. 1957. Studies on free amino acids in the tea. Part IV. Quantitative changes in the manufacture of black and green tea. Journal of Agricultural Chemical Society of Japan 31(3): 169-173. 44 Nakagawa, M. 1975. Chemical Components and Taste of Green Tea. Japan Agricultural Research Quarterly 9(3): 156-160. 45 Nakagawa, Z. and M. Nakagawa. 1957. Studies on free amino acids in the tea. Part III. Determination of theanine with microbioassay. Journal of Agricultural Chemical Society of Japan 30(10): 637-640. 46 Ohta, K., A. Yoshida and K. Harada. 1995. HPLC analysis of free amino-acids and caffeine in green tea cultivated by hydroponics. Journal of the Japan Society for Bioscience, Biotechnology and Agrochemistry 69 (10): 1331-1339. 47 Piccin, E., H. J. Vieira and O. Fatibello. 2005. Flow-injection turbidimetric determination of tannins in tea samples using copper(II)/acetate as precipitant reagent. Analytical Letters 38(3): 511-522. 48 Prinz, J. F. and P. W. Lucas. 2000. Saliva tannin interactions. Journal of Oral Rehabilitation 27: 991-994. 49 Robertson, A. 1992. The chemistry and biochemistry of black tea production – the non-volatiles. In “Tea: cultivation to consumption”, 555. K. C. Willson and M. N. Clifford, eds. New York: Chapman & Hall. 50 Robinson, J. M. and P. O. Owuor. 1992. Tea aroma. In “Tea: cultivation to consumption”, 603. K. C. Willson and M. N. Clifford, eds. New York: Chapman & Hall. 51 Schofield, P., D. M. Mbugua and A. N. Pell. 2001. Analysis of condensed tannins: a review. Animal Feed Science and Technology 91: 21-40. 52 Sun, S. W., Y. C. Lin, Y. M. Weng and M. J. Chen. 2006. Efficiency improvements on Ninhydrin method for amino acid quantification. Journal of Food Composition and Analysis 19: 112-117. 53 Takeo, T. 1992. Green and semi-fermented teas. In “Tea: cultivation to consumption”, 413. K. C. Willson and M. N. Clifford, eds. New York: Chapman & Hall. 54 Tomas, C., M. Celeste, A. Cladera, E. Gomez, J. M. Estela and V. Cerda. 1993. A New flow-injection spectrophotometric method for the determination of tannins in tea and beer using iron(III) and 1,10-phenanthroline. Food Chemistry 47(2): 201-204. 55 Wang, H. F., C. J. Provan, K. Helliwell. 2000. Tea flavonoids: their functions, utilisation and analysis. Trends in Food Science and Technology 11 (4-5): 152-160. 56 Watanabe, T., R. Nishiyama, A. Yamamoto, S. Nagai, S. Terabe. 1998. Simultaneous Analysis of Individual Catechins, Caffeine, and Ascorbic Acid in Commercial Canned Green and Black Teas by Micellar Electrokinetic Chromatography. Analytical Science 14 (2): 435-438. 57 Watson, R. J., E. C. V. Butler, L. A. Clementson and K. M. Berry. 2005. Flow-injection analysis with fluorescence detection for the determination of trace levels of ammonium in seawater. Journal of environmental monitoring 7 (1): 37-42. 58 Wu, C. T. 1985. Classification of Taiwanese teas. Taiwan Tea Research Bulletin 4:155-158. 59 Yan, S. H. 2005. Evaluation of the composition and sensory properties of tea using near infrared spectroscopy and principal component analysis. Journal of Near Infrared Spectroscopy 13(6): 313-325. 60 Ying, Y., J. W. Ho, Z. Y. Chen and J. Wang. 2005. Analysis of theanine in tea leaves by HPLC with fluorescence detection. Journal of Liquid Chromatography and Related Technologies 28(5): 727-7.
dc.identifier.uri	http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/29331	-
dc.description.abstract	本研究開發一套整合單寧與胺基酸含量檢測之螢光流動注射分析系統，檢測原理分別為單寧對3-aminophthalate螢光團之螢光消光特性與鄰苯二甲醛 (o-phthalaldehyde, OPA)和胺基之螢光生成反應。由於兩者均有相同之激發波長(340 nm) 和接收波長 (425 nm)，故可在同一台偵測儀器、同一套系統流路之檢測環境下依序檢測茶品中之單寧及胺基酸含量，開發一套簡便之線上茶品檢測系統。文中探討樣品注射體積、反應流路長度、OPA濃度、2-mercaptoethanol濃度及溶劑pH值等系統參數之最適化情形，並確認單寧酸溶液對OPA試劑之干擾情形與四種主要胺基酸之相對螢光發光響應。本系統對單寧酸和茶胺酸之檢量範圍分別為 50-250 μg mL-1以及0.1-1 μg mL-1，CV 值小於5 % (n = 3)，檢測速度為每小時20個樣品。本系統應用於台茶12號所製作之包種茶，探討製造過程中包括茶葉採摘條件、萎凋時間、冷泡茶方法等變因對茶湯內單寧與胺基酸含量之影響。本研究尚針對四種不同市場價格之台灣烏龍茶進行含量檢測，並與其市場價格進行初步分析探討。	zh_TW
dc.description.abstract	A fluorometric flow-injection analytical system for determining both tannin and total amino acid content is proposed. The sensing principles are based on the quenching effect of tannin on the fluorescence of 3-aminophthalate and the fluorogenic reaction of amino acids with o-phthalaldehyde (OPA), respectively. Both reactions were integrated into a fluorometric flow-injection system with the same excitation and emission wavelength (340/425 nm). A three-way valve was introduced to switch between the reagents for sequential determination of tannin and amino acids. Parameters of operation condition were optimized, and interference of tannic acid on the fluorescence intensity of OPA-amino acids reaction was investigated. The linear dynamic range for tannic acid and theanine were 50-250 μg mL-1 and 0.1-1 μg mL-1 (CV < 5%, n = 3), and the sample throughout was 20 samples h-1. Effects of plucking position of tea plants, withering time and steeping method on tannin and amino acids in consumer tea brew of Pouchong tea in Taiwan were analyzed by the proposed system. Analytical results of commercial oolong tea products in Taiwan were compared to their market prices.	en
dc.description.provenance	Made available in DSpace on 2021-06-13T01:04:42Z (GMT). No. of bitstreams: 1 ntu-96-R94631011-1.pdf: 478758 bytes, checksum: 99da50ad057de55e744751c9d4911796 (MD5) Previous issue date: 2007	en
dc.description.tableofcontents	口試委員審定書致謝中文摘要 ii Abstract iii Index iv List of Figures vi List of Tables vii Chapter 1 Introductions 1 Chapter 2 Literatures Review 4 2.1 Major categories and manufacturing process of tea 4 2.2 Methods for quality evaluation of tea 6 2.3 Tannin and amino acids in tea and their roles in tea manufacture 8 2.3.1 Flavonoid components and tannin in tea 8 2.3.1.1 Flavonoid components and their roles in tea manufacture 8 2.3.1.2 Tannin and its physiological function 11 2.3.2 Theanine and amino acids in tea 13 2.3.2.1 Theanine and its role in tea physiology 13 2.3.2.2 Amino acids in tea and their roles in tea manufacture 15 2.4 Analysis of tannin and amino acids in tea 17 2.4.1 Analysis of individual components in tea 17 2.4.2 Quantitative determination of tannin in tea 19 2.4.3 Fluorometric determination of tannin in tea based on the quenching effect on 3-aminophthalate (3-APA) fluorescence 21 2.4.4 Determination of total amino acid content in tea 23 2.4.5 Fluorometric determination of total amino acid content in tea based on the fluorogenic reaction of o-phthalaldehyde (OPA) with amino acids 25 Chapter 3 Experiments 27 3.1 Chemicals 27 3.2 Preparation of buffers and reagents 27 3.3 Setup of flow-injection manifold 28 3.4 Manufactures of tea samples from fresh tea leaves 30 3.5 Preparation of tea extraction from tea leaves 30 Chapter 4 Results and Discussions 32 4.1 Typical responses and system performance of the proposed system 32 4.1.1 Calibrations of tannic acid and theanine 32 4.1.2 Cross-interference of tannic acid for OPA reagent 34 4.1.3 Relative outputs for major amino acids in tea 36 4.2 Parameters optimization of the proposed system 38 4.2.1 Effects of sample injection volume and the length of mixing coil 38 4.2.2 Effects of chemicals concentration and pH value in OPA reagent 40 4.3 Applications for green tea and partially fermented tea 42 4.3.1 Effect of plucking position on Pi-Lo-Chun green tea infusions 42 4.3.2 Effect of withering time on Pouchong tea infusions 44 4.3.3 Effect of cold-brew method on Pouchong tea infusions 46 4.3.4 Comparison of analytical results and prices of commercial oolong tea 48 Chapter 5 Conclusions and Prospects 50 References 51
dc.language.iso	en
dc.subject	部份發酵茶	zh_TW
dc.subject	單寧酸	zh_TW
dc.subject	發光胺	zh_TW
dc.subject	澀味	zh_TW
dc.subject	甘味	zh_TW
dc.subject	partially fermented tea	en
dc.subject	tannic acid	en
dc.subject	theanine	en
dc.subject	astringency	en
dc.subject	umami	en
dc.subject	luminol	en
dc.title	結合茶品單寧及胺基酸含量檢測之螢光流動注射分析系統	zh_TW
dc.title	Determination of Tannin and Amino Acids in Tea by Fluorescent Flow-Injection Analytical System	en
dc.type	Thesis
dc.date.schoolyear	95-2
dc.description.degree	碩士
dc.contributor.oralexamcommittee	陳力騏(Richie Chen),陳右人(Iou-Zen Chen),鄭正宏(Cheng-Hong Cheng)
dc.subject.keyword	單寧酸,發光胺,澀味,甘味,部份發酵茶,	zh_TW
dc.subject.keyword	tannic acid,theanine,astringency,umami,luminol,partially fermented tea,	en
dc.relation.page	57
dc.rights.note	有償授權
dc.date.accepted	2007-07-24
dc.contributor.author-college	生物資源暨農學院	zh_TW
dc.contributor.author-dept	生物產業機電工程學研究所	zh_TW
顯示於系所單位：	生物機電工程學系

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