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乳清分离蛋白-甜菜果胶共价复合物理化特性分析 被引量:2

Physicochemical Properties of Whey Protein Isolate-Beet Pectin Conjugate
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摘要 蛋白质-多糖通过Maillard反应生成共价复合物,其乳化稳定性等功能特性得到提高,为研究与开发新型食品添加剂提供了一条新的途径,但共价复合物的乳化稳定性提高机理尚不明确。本研究通过界面张力仪测定界面张力、红外光谱分析二级结构,并结合GPC-动态光散射法考察其分子量分布,初步探讨乳清分离蛋白(WPI)-甜菜果胶(BP)共价复合物乳化稳定提高原因。研究结果表明:WPI-BP共价复合物与混合物相比,界面张力降低;WPI-BP共价复合作用使得蛋白质分子中的羟基含量增加,亲水性增强;共价复合物的分子量增大,dn/dc降低,分子量分布更集中,提高其在乳状液界面上的空间位阻作用,从而提高其乳化稳定性。因此,界面张力降低、亲水性增强与空间位阻增大是WPI-BP共价复合物乳化稳定性提高的主要原因。 The protein-polysaccharide conjugate via Maillard reaction showed improved emulsification property, which can be served as new mutifunctional food additives. To make clear of the mechanism, the interracial tension, secondary slructure and molecular weight distribution of whey protein isolate (WPI)- beet pectin (BP) mixture and conjugate 'were studied by the interracial tensionmeter, FTIR and GPC-dynamic light scattering, respectively. Compared with mixture, WPI-BP conjugate showed lower interfacial tension and an increase in hydrogen bonds of the secondary structure. A higher molecular weight and more homogeneous distribution of the conjugate were also observed by the analysis of GPC-dynamic light mattering. Therefore, the improved emulsification property of WPI-BP conjugate might be due to the decreased interfacial tension, increased hydrogen bonds and steric hindrance.
作者 许朵霞 曹雁平 袁芳 高彦祥
机构地区 北京工商大学食品学院 北京工商大学食品添加剂与配料 北京工商大学北京市食品风味化学重点实验室 中国农业大学食品科学与营养工程学院
出处 《现代食品科技》 EI CAS 北大核心 2013年第9期2102-2105,共4页 Modern Food Science and Technology
基金 北京工商大学2013年度青年基金(QNJJ2013-18)
关键词 蛋白质-多糖共价复合物 界面张力 羟基 分子量分布 protein-polysacchaddc conjugate interfacial tension hydrogen bonds molecular weight distribution
分类号 TS201.2 [轻工技术与工程—食品科学]
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参考文献9

  • 1Ercelebi E A, lbanoglu E. Characterization of phase separation behavior, emulsion stability, rheology, and microstructure of egg white protein-polysaccharide mixtures [J]. Journal of Food Science, 2009, 74(6): C506-C512.
  • 2郜现良,易美华.罗非鱼油乳状液体系稳定性影响因素的研究[J].中国食品学报,2009,9(4):124-129. 被引量:4
  • 3Lopez-Fandino R. Effect of the dry-heating conditions on the glycosylation of beta-lactoglobulin with dextran through the Maillard reaction [J]. Food Hydrocolloids, 2005, 19(5): 831- 837.
  • 4Gu F, Kim, J M, Hayat K, Xia S, et al. Characteristics and antioxidant activity of ultrafiltrated Maillard reaction products from a casein-glucose model system [J]. Food Chemistry, 2009, 117(1): 48-54.
  • 5Miralles B, Martinez-Rodriguez A, Santiago A, et al. The occurrence of a Maillard-type protein-potysaccharide reaction between beta-lactoglobulin and ehitosan [J]. Food Chemistry, 2007, 100(3): 1071-1075.
  • 6Wooster T J, Augustin M A. Rheology of whey protein- dextran conjugate films at the air/water interface [J]. Food Hydrocolloids, 2007, 21(7): 1072-1080.
  • 7Xu D, Wang X, Jiang J, et al. Impact of whey protein-beet pectin conjugation on the physicochemical stability of beta-carotene emulsions [J]. Food Hydrocolloids, 2012, 28(2): 258-266.
  • 8许朵霞,王小亚,尤嘉,蒋俊平,姜雪,袁芳,高彦祥.蛋白质-多糖复合物对β-胡萝卜素乳液的影响[J].食品研究与开发,2012,33(4):9-13. 被引量:10
  • 9Speiciene V, Guilmineau F, Kulozik U, et al. The effect of chitosan on the properties of emulsions stabilized by whey proteins [J]. Food Chemistry, 2007, 102(4): 1048-1054.

二级参考文献16

  • 1Stig Are Gundersen, "ystein S .ther, Johan Sjo" blom. Salt ef2fects on lignosulfonate and Kraft lignin stabilized OPW2emul2sions studied by means of electrical conductivity and video2en2hanced microscopy[J]. Colloids and Surfaces: A : Physico2chemical and Engineering Aspects,2001, (186) : 141-153.
  • 2Like Mao, Duoxia Xu, Jia Yang, et al. Effects of small and large molecule emulsifiers on the characteristics of 13-carotene nanoemul- sions prepared by high pressure homogenization[J]. Food technology biotechnoly, 2009, 47(3): 336-342.
  • 3Villamiel M, Jimenez-Castano L, Lopez-Fandino R. Study on 13- lactoglobulin glycosylation with dextran: effect on solubility and heat stability [J]. Food chemistry, 2005, 93(4): 689-695.
  • 4Nakamura S, Kato A, Kobayashi K. Bifunctional lysozyme-galac- tomannan conjugate having excellent emulsifying properties and bactericidal effect [J]. Journal of agricultural and food chemistry, 1992, 40(5): 735-739.
  • 5Einhorn-Stoll U. Formation of milk protein-pectin conjugates with improved emulsifying properties by controlled dry heating [J].Food hydrocolloids, 2005, 19(2): 329-340.
  • 6Dickinson E, Galazka V. Emulsion stabilization by ionic and cova- lent complexes of [3-1actoglobulin with polysaccharides[J].Food hydrocolloids, 1991, 5(3): 281-296.
  • 7Akhtar M, Dickinson E. Emulsifying properties of whey protein- dextran conjugates at low pH and different salt concentrations[J]. Colloids and surfaces B: Biointerfaces, 2003, 31(1): 125-132.
  • 8Tim J, Wooster, Augustin M. 13-Lactoglobulin-dextran Maillard conjugates: Their effect on interfacial thickness and emulsion stabil- ity [J]. Journal of colloid and interface science, 2006, 303 (2): 564- 572.
  • 9Dickinson E. Hydrocolloids at interfaces and the influence on the properties of dispersed systems [J]. Food hydrocolloids, 2003, 17(1): 25-39.
  • 10毛立科,许朵霞,杨佳,高彦祥.不同乳化剂制备β-胡萝卜素纳米乳液研究[J].食品工业科技,2008,29(4):64-67. 被引量:18

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现代食品科技
2013年 第9期

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