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电解法和微波法联合处理提高甘薯淀粉回生率 被引量:2

Increasing Retrogradation Rate of Sweet Potato Starch by Method of Combined Electrolysis and Microwave Treatment
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摘要 以甘薯淀粉为原料,采用电解、微波复合法制备回生抗性淀粉;以抗性淀粉制备率为考察指标,讨论微波、电解顺序对回生抗性淀粉制备产率的影响。最佳工艺为:淀粉→糊化→高压→微波→电解→老化→酶解→离心→干燥;最佳工艺参数:淀粉乳质量浓度50 g/L,高压温度120℃,高压时间30 min,糊化温度90℃,糊化时间30min,微波功率400 W,处理时间4 min,电解电压90 V,电解时间2 min,老化温度4℃,老化时间12 h。在此工艺条件下,甘薯回生抗性淀粉产率为24%,比空白组12%产率提高了1倍。 Taking sweet potato starch as raw material and retrogradation rate as an inspection target,the effects of sequence of microwave wave and electrolysis treatments on retrogradation rate of sweet potato were discussed in this experiment.The best process sequence was: Starch→ Pasting → Autoclaving → Microwave → Electrolysis → Aging → Hydrolysis → Centrifugal →Drying and the best technical factors were: ratio of starch and water 5%,high-pressured temperature and treating time 120 ℃,30 min,pasting temperature and treating time 90 ℃,30 min,microwave power and treating time 400 W,4 min,Electrolytic voltage and treating time 90 V,2 min,aging temperature 4 ℃,aging time 12 h.The highest retrogradation rate of sweet potato starch at the optimum conditions was 24%,which was 100% higher than that of control group 12%.
作者 连喜军 钱瑞 刘敬 赵娟 肖学勇 刘洋
机构地区 天津商业大学食品科学与工程系天津市食品生物技术重点实验室
出处 《粮食加工》 2011年第5期51-54,共4页 Grain Processing
关键词 甘薯 回生淀粉 微波 电解 sweet potato retrograded starch microwave electrolysis
分类号 TS231 [轻工技术与工程—粮食、油脂及植物蛋白工程]
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参考文献16

  • 1刘延奇,于九皋.微晶淀粉[J].高分子通报,2002(6):24-32. 被引量:29
  • 2洪洁.抗性淀粉对大鼠盲肠内发酵及发酵产物的影响[D].北京:中国预防医学科学院硕士论文.2001.6.
  • 3杨参.甘薯抗性淀粉对大鼠矿物质元素吸收的影响研究[D].重庆:西南农业大学硕士论文,2003,5.
  • 4王竹.抗性淀粉的代谢吸收以及对血糖的调节作用[D].北京:中国协和医科大学硕士论文.2000.10.
  • 5Kim W. K., Chung M. K., Kang N. E., Kim M. H., Park O. J. Effect of resistant starch from corn or rice on glucose control, colonic events, and blood lipid concentrations in streptozotocin-induced diabetic rats[J]. Journal of Nutritional Biochemistry, 2003,14: 166-172.
  • 6Martinez-Puig D., Mourot J., Ferchaud-Roucher V., Anguita M., Garcia F., Krempf M., Pe'rez J.F. Consumption of resistant starch decreases lipogenesis in adipose tissues but not in muscular tissues of growing pigs[J].Livestock Science, 2006, 99:237-247.
  • 7Fernandez, M L., Suheeta Roy, M.S., Vergara-Jimenez M Resistant starch and cholestyramine have distinct effects on hepatic cholesterol metabolism in GUINEA Pigs fed a hypereholesterolemie diet[J]. Nutrition Research, 2000, 20(6) 837-849.
  • 8张丽娜,张梦琴,张云峰.甘薯抗性淀粉的制备[J].中国粮油学报,2007,22(4):63-65. 被引量:9
  • 9杨参.甘薯抗性淀粉对大鼠矿物质元素吸收的影响研究[D].重庆:西南农业大学硕士学位论文,2003,5.
  • 10唐忠厚.甘薯抗性淀粉含量变异与理化特性研究[D].杭州:浙江大学硕士学位论文,2006,5.

二级参考文献108

  • 1李爱萍,唐书泽,张志森,李福谦.大米抗性淀粉定量测定方法比较研究[J].食品工业科技,2006,27(1):195-197. 被引量:21
  • 2郭春锋,李婧妍,张守文.抗性淀粉生理功能研究进展[J].食品科技,2006,31(2):1-3. 被引量:23
  • 3李光磊,李新华.小麦抗性淀粉的制备研究[J].粮油食品科技,2006,14(3):31-33. 被引量:11
  • 4王洪燕,周惠明.抗性淀粉制备方法的研究[J].粮油加工,2006(8):85-87. 被引量:14
  • 5LEWANDOWICZ G, FORNAL J, WALKOWSKI A, Effect of micro- wave radiation on physico-chemical properties and structure of potato and tapioca starchs[J]. Carbohydrate Polymers. 1997, 34: 213-220.
  • 6RASHED K A, JOHNSON J A, ROBINSON R J. Degradation of starch polymers by microwave energy[J]. Cereal Chem, 1979, 56: 303-306.
  • 7ZYLEMA B J, GRIDER J A, GORDON J, et al. Model wheat starch systems heated by microwave irradiation and conduction with equalized heating times[J]. Cereal Chem, 1985, 62: 447-449.
  • 8MILLER L A, GORDON J, DAVIS E A. Dielectric and thermal transition properties of chemically modified starches during heating[J]. Cereal Chem, 1991, 68: 441-445.
  • 9MUZIMBRANDA C, TOMASIK P. Microwave in physical and chemical modifications of starch Starch, 1994, 46: 469-453.
  • 10BELLO-PEREZ L A, COLONNA P, ROGER P, et al. Structural properties of starches dissolved by microwave heating[J]. Starch, 1998, 50: 137-141.

共引文献103

同被引文献34

  • 1连喜军,张燕.不同老化工艺对甘薯回生抗性淀粉制备率的影响[J].粮食加工,2012,37(3):46-48. 被引量:2
  • 2丁文平,李清,夏文水.淀粉酶对大米淀粉回生影响机理的研究[J].粮食与饲料工业,2005(10):16-17. 被引量:9
  • 3Xijun, L., Kunsheng, Z., Qingfeng, L., Xu, Z., Shuyi, Z. The effects of electrolysis at room temperature on retrogradation of sweet potato starch[J]. International Journal of Biological Macromolecules. 2012, 50(1): 38-42.
  • 4连喜军,赵璐,刘学燕,等.微生物发酵法提高甘薯回生抗性淀粉制备率[C].2010年中国农业工程学会农产品加工及贮藏工程分会学术年会.2010.
  • 5Xijun, L., Wei, Z., Yah, W., Lin, L., Xiaoshuang, Z. Effects of soy protein hydrolysates on maize starch retrogradation studied by IR spectra and ESI-MS analysis[J]. International Journal of Biological Macromolecules, 2013,59: 143-150.
  • 6Flores-Morales, A., Jim6nez-Estrada, M., Mora-Escobedo, R. Determination of the structural changes by FT-IR, Ra- man, and CP/MAS 13C NMR spectroscopy on retrograded starch of maize tortillas[J]. Carbohydrate Polymers, 2012, 87 61-68.
  • 7Kacurakova, M., Mathlouthi. FTIR and laser-Raman spec- tra of oligosaccharides in water: characterization of the gly- cosidic bond[J]. Carbohydrate Research, 1996, 284: 145- 157.
  • 8Van Soest, J. J. G., de Wit, T. H., Vliegenthart, J. F. G. Retrogradation of potato starch as studied byFourier transform infrared spectroscopy[J]. Starch/Starke, 1994, 46: 453-457.
  • 9Tester, R. F., Karkalas, J., Xin, Q. Starch-composition, fine structure and architecture[J]. Journal of Cereal Science, 2004, 39: 151-165.
  • 10Sevenou, O., Hill, S. E., Farhat, I. A., Mitchell, J. R. Or- ganisation of the external region of the starch granule as determined by infrared spectroscopy[J]. International Jour- nal of Biological Maemmoleeules, 2002, 31: 79-85.

引证文献2

二级引证文献9

粮食加工
2011年 第5期

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