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pH对阿拉伯糖-半胱氨酸模型体系致香成分形成的影响 被引量:4

Effect of pH on the Formation of Volatile Substances in the Model System of Arabinose/Cysteine
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摘要 利用顶空-固相微萃取-气质联用法,分析和比较不同pH条件对阿拉伯糖/半胱氨酸模型体系挥发性风味物质形成的影响。发现在本实验条件下中性偏酸性条件更有利于挥发性风味物质的形成,pH5时的挥发性物质总量最多且各类风味化合物的相对量也较大,pH7时总挥发物量较少但各类风味化合物的相对量高;强酸性条件下形成的风味物质相对含量低;碱性条件虽对含氮、硫、氧等杂原子的杂环化合物形成较有利但其总挥发性成分的量低,各组分的绝对量不高,且pH9时生成大量的苯系物,其中有具有毒害作用的物质,在具体的生产实践中应加以注意。 Effect of pH on the formation of volatile and semi-volatile substances in the maillard reaction systems of arabinose/cysteine was analyzed and compared by the method of headspace-solid microextraction associated with gas chromatography-mass spectrography. It was found that neutral and weak acid conditions were convenient to the production of aroma compounds. The relative yield of aroma compounds is lower in strong acid condition than former. The basic condition is convenient to produce heterocyclic compound which contain nitrogen, oxygen or sulfur atom. As for the yield of volatiles of pH9 system is the lowest, so the absolute yield of every aroma compound is not high. In addition, we should pay attention to that there are a large number of benzene derivatives in the system ofpH9, some of which are harmful.
作者 邓宇 陈正行 罗昌荣 华泽钊
机构地区 江西中烟工业公司 江南大学食品学院 上海理工大学动力学院
出处 《食品工业》 北大核心 2009年第1期4-8,共5页 The Food Industry
关键词 阿拉伯糖/半胱氨酸模型体系 PH 挥发性物质 风味化合物 arabinose/cysteine model system pH volatile substances aroma compound
分类号 TS202.3 [轻工技术与工程—食品科学]
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参考文献15

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同被引文献79

  • 1Cerny C, Briffod M. Effect of pH on the maillard reaction of [ C-13 (5) ] xylose, cysteine, and thiamin [ J ]. Agric Food Chem,2007,55 (4) :1552 - 1556.
  • 2Madrugaa M S, Mottramb D S. The effect of pH on the formation of volatile compounds produced by heating a model system containing 5 '-imp and cysteine [ J ]. Braz Chem Soc, 1998,9 ( 3 ) : 261 - 271.
  • 3Mottram D S, Nobrega I C C. Formation of sulfur aroma compounds in reaction mixtures containing cysteine and three different forms of ribose[ J]. Agric Food Chem,2002,50(14) :4080 -4086.
  • 4Yu A N,Zhang A D. Aroma compounds generated from thermalreaction of L-ascorbic acid with L-cysteine [ J 1. Food Chemistry, 2010,121 : 1060 - 1065.
  • 5Cheuk W L, Finne G. Enzymatic determination of urea and ammonia in refrigerated seafood products [ J 1. Agric Food Chem, 1984,32 : 14 - 18.
  • 6Matsudo T, Sakaki M. Determination of urea and citrulline in fermented foods and beverages [ J ]. Biosci Biotechnol Biochem, 1995,59:827 - 830.
  • 7Fadel H H M,Mageed M A A,Lotfy S N. Quality and flavour stability of coffee substitute prepared by extrusion of wheat germ and chicory roots [ J ]. Amino Acids,2008,34 : 307 - 314.
  • 8Klesk K, Qian M, Martin R R. Aroma extract dilution analysis of cv. meeker ( Rubus idaeus L. ) red raspberries from Oregon and Washington[ J]. Agric Food Chem,2004,52:5155 - 5161.
  • 9Karagtil-Yticeer Y, Cadwallader K R, Drake M A. Volatile flavor components of stored nonfat dry milk [ J 1. Agric Food Chem, 2002,50:305 - 312.
  • 10Methven L,Tsoukka M, Oruna-Concha M J,et al. Influence of sulfur amino acids on the volatile and nonvolatile components of cooked salmon ( Salmo salar) [ J 1. Agric Food Chem, 2007,55 : 1427 - 1436.

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食品工业
2009年 第1期

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