甘藷定溫加熱過程澱粉糖化反應機制研究

Po-Hsun Wu; 吳柏勳

請用此 Handle URI 來引用此文件： http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/49333

完整後設資料紀錄

DC 欄位	值	語言
dc.contributor.advisor	陳洵毅
dc.contributor.author	Po-Hsun Wu	en
dc.contributor.author	吳柏勳	zh_TW
dc.date.accessioned	2021-06-15T11:24:04Z	-
dc.date.available	2021-08-25
dc.date.copyright	2016-08-25
dc.date.issued	2016
dc.date.submitted	2016-08-17
dc.identifier.citation	1. 行政院衛生福利部食品藥物管理署。2010。食品營養成分資料庫(新版)。台北：行政院衛生署。網址：https://consumer.fda.gov.tw/。上網日期：2016-03-25。 2. 行政院農業委員會。2016。甘藷館。台北：行政院農業委員會。網址：https://kmweb.coa.gov.tw/。上網日期：2016-03-25。 3. 朱珮柔。2007。溫度對甘藷β-澱粉酶活性影響之研究。碩士論文。台北：國立臺灣大學生命科學院微生物與生化學研究所。 4. 谷一中。1995。甘藷不同組織中澱粉水解酶之研究。碩士論文。台北：國立臺灣大學農業化學研究所。 5. 呂牧涵。2009。甘藷熱處理與貯藏研究。碩士論文。台北：國立臺灣大學生物產業機電工程學研究所。 6. 利幸貞、陳一心。2004。澱粉糖化酵素活性簡易測定法於甘藷加工特性之應用。中華農業研究53:18-26。 7. 周浩源。2015。甘藷定溫加熱過程澱粉糖化研究。碩士論文。台北：國立臺灣大學生物產業機電工程學研究所。 8. 高桓毅。2015。甘藷澱粉之理化性質分析及澱粉生合成途徑關鍵酵素基因表達量差異性之研究。碩士論文。台北：中國文化大學農學院生物科技研究所。 9. 陳克廉。1987。甘藷加工利用與質地特性之研究。博士論文。台北：國立臺灣大學食品科技研究所。 10. 陳儀驊。2001。山藥、芋頭及甘藷黏質對澱粉理化性質之影響。碩士論文。台中：靜宜大學食品營養學系。 11. 陳儒寬。2014。臺灣地區台農57號及台農66號地瓜澱粉物理特性與其枝鏈澱粉結構相關性之分析。碩士論文。台北：國立臺灣大學食品科技研究所。 12. 楊景雍、胡中豪。2011。比較三種不同萃取方法所得之小米澱粉特性。國立高雄海洋科大學報25:47-61。 13. Akiko Matsunaga. 1987. Studies on the Retrogradation of starch in starchy Foods. Bulletin of Ibaraki Women's Junior College 14: 78-108. 14. Akiko Matsunaga, Keiji Kainuma. 1981. Studies on the Retrogradation of Starchy Foods (Part 1) Retrogradation of Cooked Rice. Journal of Home Economics of Japan. 32: 653-659. 15. C. Brandam, X.M. Meyer, J. Proth, P. Strehaiano, H. Pingaud. 2003. An original kinetic model for the enzymatic hydrolysis of starch during mashing. 13:43-52. 16. C. I. Pravisani, A. N. Califano, A. Calvelo. 1985. Kinetics of Starch Gelatinization in Potato. Journal of Food Science. 50:657-660. 17. Duswalt, A. 1974. The practice of obtaining kinetic data by differential scanning calorimetry. Thermochimica Acta 8(1): 57-68. 18. Ghiasi, K., R. Hoseney and E. Varriano-Marston. 1982. Gelatinization of wheat starch. III. Comparison by differential scanning calorimetry and light microscopy. Cereal Chem. 59(4): 258. 19. Hagenimana, V. Venzina, L. and R. Simard. 1985. Sweetpotato α and β amylases: characterization and kinetic studies with endogenous inhibitors. Journal of food science 59:373-376. 20. Ingrid Lamberg, Helgot Olsson. 1989. Starch gelatinization temperatures within potato during blanching. International Journal of Food Science & Technology. 24: 487–494. 21. Ito, T., T. Ando and K. Ichikawa. 1968. Effects of Cooking Processes on the Saccharification of Sweet Potato (Part 1):The Relation between Heating Temperature and Increase of Sugar Contents. Journal of Home Economics of Japan 19(3): 170-173. 22. Laura Alessandrini, Santina Romani, Pietro Rocculi, Ingegerd Sjぴoholm, Marco Dalla Rosa. 2011. Effect of steam cooking on the residual enzymatic activity of potatoes cv. Agria. J Sci Food Agric. 91:2140-2145. 23. Ogura, N., Y. Hirato and D. Kazami. 2001. Detection of a heat-stable and insoluble form of β-amylase in sweet potatoes. NIPPON SHOKUHIN KAGAKU KOGAKU KAISHI 48(3): 218-220. 24. Pravisani, C., A. Califano and A. Calvelo. 1985. Kinetics of starch gelatinization in potato. Journal of Food Science 50(3): 657-660. 25. Picha, D. H., 1985. HPLC determination of sugars on raw and baked sweet potatoes. J. Food Sci. 50:1189-1190. 26. Sun J. B., F. R. F. Severson and S. J. Kay. 1994. Effect of heating temperature and microwave pretreatment on the formation of sugars and volatiles in jewel sweetpotato. Journal of food quality 17:447-456. 27. Takahata Y., Noda T., Nagata T. 1994. Effect of β-Amylase Stability and Starch Gelatinization during Heating on Varietal Differences in Maltose Content in Sweetpotatoes. Agric. Food Chem. 42: 2564-2569. 28. Yoshiyuki Nakamura, Akiko Ohara-Takada, Toshikazu Kuranouchi, Ryouichi Masuda, Kenji Katayama. 2015. Mechanism for Maltose Generation by Heating in the Storage Roots of Sweet Potato Cultivar “Quick Sweet” Containing Starch with a Low Pasting Temperature. Nippon Shokuhin Kagaku Kogaku Kaishi. 61:62-69. 29. Yoshiyuki Nakamura, Toshikazu Kuranouchi, Akiko Ohara-Takada, Kenji Katayama. 2015. The Effects of β-Amylase Activity and Starch Pasting Temperature on Maltose Generation in Steamed Storage Roots of Sweet Potato. Nippon Shokuhin Kagaku Kogaku Kaishi. 61: 577-585 30. Zeng, M., C. F. Morris, I. L. Batey and C. W. Wrigley. 1997. Sources of variation for starch gelatinization, pasting, and gelation properties in wheat. Cereal Chemistry 74(1): 63-71.
dc.identifier.uri	http://tdr.lib.ntu.edu.tw/jspui/handle/123456789/49333	-
dc.description.abstract	本研究以不同烘烤溫度(60 oC、70 oC、80 oC、90oC)以及不同烘烤時間(5、10、15、20、25、30分鐘)烘烤甘藷，並分析烘烤甘藷後麥芽糖含量變化情形，並進一步分析溫度對於糖化反應中兩個重要因素─澱粉酶活性以及澱粉糊化程度─的影響。利用Labview系統以及熱電致冷晶片建立的定溫加熱系統提供了快速且穩定的溫度控制，對於需要長時間定溫烘烤的實驗相當有幫助。結果顯示麥芽糖含量在烘烤溫度為60oC時增加的幅度是四個溫度最低的，而最高的則為80 oC；α澱粉酶以及β澱粉活性則是在烘烤過後便呈現衰退的趨勢，但是此趨勢會在經過十分鐘的烘烤後漸漸緩和；澱粉糊化程度實驗結果則顯示當烘烤溫度較低時(60oC)澱粉糊化程度較不顯著，而當烘烤溫度提高到90 oC，即使烘烤時間僅有五分鐘也能夠達到完全糊化。綜合以上實驗結果，推論在甘藷烘烤過程中，澱粉糊化程度對於糖化反應的影響較α澱粉酶以及β澱粉活性大。	zh_TW
dc.description.abstract	The purpose of this thesis was to assess the temperature effect on saccharification reaction. During baking, maltose content of sweet potato is increasing due to saccharification of starch. Saccharification in sweet potato is an amylase reaction on pasted starch and baking temperature and time are key factors that influence the final content of maltose. Heating will increase degree of starch pasting to favorite saccharification but also the deteriorate activity of amylase. In this study, we developed a constant temperature heating apparatus, which is is monitored by the plate thermal couples and the temperature is controlled by PID controller written in Labview software, for heating sweet potato slice. Under the well-controlled process, a better temperature-time relationship of saccharification will be understood. In the experiment, baking temperatures are controlled from 60°to 90°C in 10°C difference and durations of heating are from 5 to 30 minutes in 5 minutes difference. Results show that the highest maltose conversing was observed at 80°C. On the other hand, activity of amylase decrease after 5 minutes baking but the decreasing trend become smooth after 10 minutes. Furthermore, when baking temperature becomes higher, the degree of pasting starch become higher even with short baking time. In conclusion, the degree of pasting starch is more influential than the activity of amylase in saccharification reaction during baking.	en
dc.description.provenance	Made available in DSpace on 2021-06-15T11:24:04Z (GMT). No. of bitstreams: 1 ntu-105-R03631006-1.pdf: 4456925 bytes, checksum: 27f627ec861049010d59ab0037f3112c (MD5) Previous issue date: 2016	en
dc.description.tableofcontents	誌謝 i 摘要 ii Abstract iii 目錄 iv 圖目錄 vi 表目錄 ix 第一章前言 1 1.1 研究背景 1 1.2 研究目的 2 第二章文獻探討 3 2.1 甘藷以及甘藷澱粉 3 2.2 糖化反應 5 2.3 α澱粉酶以及β澱粉酶 10 2.4 澱粉糊化 14 第三章研究方法 21 3.1 試驗材料 21 3.2 實驗設備 22 3.2.1 加熱設備 22 3.2.2 冷凍乾燥機 24 3.2.3 分光光度計 25 3.2.4 差示掃描量熱儀(Differential Scanning Calorimeter,DSC) 26 3.3 還原糖含量分析 27 3.4 溫度對於澱粉酶活性的影響 29 3.4.1 Ceralpha Method 29 3.4.2 Betamyl Method 31 3.4.3 DC Protein Assay 32 3.4.4 α澱粉酶萃取與檢測 32 3.4.5 β澱粉酶萃取與檢測 35 3.5 溫度對於澱粉糊化程度的影響 38 第四章結果與討論 40 4.1 溫度對於還原糖含量的影響 40 4.1.1 葡萄糖含量 40 4.1.2 蔗糖含量 42 4.1.3 麥芽糖含量 44 4.2 溫度對於澱粉酶活性的影響 48 4.3 溫度對於澱粉糊化程度的影響 68 第五章結論 72 參考文獻 73 附錄 77 檢量線 77
dc.language.iso	zh-TW
dc.subject	糊化度	zh_TW
dc.subject	澱粉?	zh_TW
dc.subject	糖化反應	zh_TW
dc.subject	甘藷	zh_TW
dc.subject	Amylase	en
dc.subject	Degree of pasting starch	en
dc.subject	Saccharification Reaction	en
dc.subject	Sweet Potatoes	en
dc.title	甘藷定溫加熱過程澱粉糖化反應機制研究	zh_TW
dc.title	Mechanism of Saccharification Reaction in Baking of Sweet Potato at Constant Temperature	en
dc.type	Thesis
dc.date.schoolyear	104-2
dc.description.degree	碩士
dc.contributor.coadvisor	李允中
dc.contributor.oralexamcommittee	楊景雍
dc.subject.keyword	甘藷,糖化反應,澱粉?,糊化度,	zh_TW
dc.subject.keyword	Sweet Potatoes,Saccharification Reaction,Amylase,Degree of pasting starch,	en
dc.relation.page	77
dc.identifier.doi	10.6342/NTU201603054
dc.rights.note	有償授權
dc.date.accepted	2016-08-18
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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