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中国精品科技期刊2020
符慧靖,李彦,沈德熊,等. 真空浓缩对河蟹酶解液蟹味挥发性风味物质的影响[J]. 食品工业科技,2023,44(16):280−287. doi: 10.13386/j.issn1002-0306.2022080291.
引用本文: 符慧靖,李彦,沈德熊,等. 真空浓缩对河蟹酶解液蟹味挥发性风味物质的影响[J]. 食品工业科技,2023,44(16):280−287. doi: 10.13386/j.issn1002-0306.2022080291.
FU Huijing, LI Yan, SHEN Dexiong, et al. Effect of Vacuum Concentration on the Volatile Flavor Substances of Crab Flavor of Hydrolysate of River Crab[J]. Science and Technology of Food Industry, 2023, 44(16): 280−287. (in Chinese with English abstract). doi: 10.13386/j.issn1002-0306.2022080291.
Citation: FU Huijing, LI Yan, SHEN Dexiong, et al. Effect of Vacuum Concentration on the Volatile Flavor Substances of Crab Flavor of Hydrolysate of River Crab[J]. Science and Technology of Food Industry, 2023, 44(16): 280−287. (in Chinese with English abstract). doi: 10.13386/j.issn1002-0306.2022080291.

真空浓缩对河蟹酶解液蟹味挥发性风味物质的影响

Effect of Vacuum Concentration on the Volatile Flavor Substances of Crab Flavor of Hydrolysate of River Crab

  • 摘要: 为了解加热对河蟹酶解液(River crab enzymolysis liquid,RCEL)蟹味变化的影响,本试验以河蟹高压浸提液(High pressure extract of low valueriver crab,HPEC)为底物,利用风味蛋白酶进行酶解得到RCEL,将RCEL经真空浓缩后,收集酶解液的浓缩液(Concentration of the enzymatic solution,CES)和蒸发的水(Evaporated water,EW),分别设置不同的真空浓缩温度(20、30、40、50、60、70 ℃)和浓缩体积(浓缩至原体积的3/4、1/2、1/4)。将收集到的9个CES和9个EW样品分别进行电子鼻PCA分析。采用顶空-固相微萃取和气相色谱-质谱联用技术(HS-SPME-GC-MS)分析HPEC、RCEL和真空浓缩温度为50 ℃时的50CES和50EW样品的挥发性风味物质变化。电子鼻分析结果表明,河蟹酶解液只要经过真空浓缩处理,无论温度和体积如何变化,CES与RCEL之间的距离都相对较远,即两者整体气味差异越大。相比较而言,真空浓缩温度比浓缩体积的变化对蟹味的影响更大。GC-MS分析结果表明,4组样品中的挥发性风味物质的相对质量浓度大小关系为RCEL>50CES>HPEC>50EW,其值分别为13.9753、8.3862、6.2235、1.0855 μg/L,真空浓缩后50CES样品的风味物质明显减少。GC-MS分析表明,形成蟹味的风味物质可能是由醛类(苯甲醛、大茴香醛、3-乙基苯甲醛和2,4,5-三甲基苯甲醛)、酯类(N-苯甲酰基甘氨酸甲酯)、酮类(丁酰基丙酮和苯亚甲基苯乙酮)、烃类(2,2-二甲基十四烷、十一烷、9-辛基-二十烷和正二十烷)、醚类(4-烯丙基苯甲醚)和杂环类(2,5-二甲基吡嗪)等构成的。

     

    Abstract: In order to understand the effect of heating on the crab taste change of river crab enzymolysis liquid (RCEL), this experiment used high pressure extract of low value river crab (HPEC) as substrate, hydrolyzed with flavor protease to obtain RCEL, and concentrated RCEL in vacuum. Firstly, the concentrated solution (CES) and evaporated water (EW) of enzymatic hydrolysis products were collected, and different vacuum concentration temperatures (20, 30, 40, 50, 60, 70 ℃) and concentration volumes (3/4, 1/2, 1/4 of the original volume) were set. Secondly, different CES and EW samples were collected for electronic nose PCA analysis. Headspace-solid phase microextraction and gas chromatography-mass spectrometry (HS-SPME-GC-MS) were used to analyze the changes of volatile flavor substances in HPEC, RCEL and 50CES and 50EW samples at 50 ℃ vacuum concentration temperature. The results of electronic nose analysis showed that the distance between CES and RCEL would obviously increase no matter how the temperature and volume changed, as long as the enzymatic hydrolysate of crab was concentrated in vacuum. Comparatively speaking, the vacuum concentration temperature had a greater impact on crab taste than the concentration volume. The results of GC-MS analysis showed that the relative mass concentration of volatile flavor substances in four groups of samples was RCEL>50CES>HPEC>50EW, and their values were 13.9753, 8.3862, 6.2235, and 1.0855 μg/L, respectively. It could be seen the obviously reduced flavor substances with sample of 50CES after vacuum concentration. GC-MS showed that the important flavor substances forming crab flavor might be aldehydes (benzaldehyde, anisaldehyde, 3-ethylbenzaldehyde and 2,4,5-trimethylbenzaldehyde), esters (n-benzoyl glycine methyl ester), ketones (butyrylacetone and benzylidene acetophenone), hydrocarbons (2,2-dimethyl tetradecane, undecane, 9-octyl icosane and n-nenenebd eicosane), ethers (an ether of 4-allylanisole)and heterocyclic class (2,5-dimethylpyrazine), etc.

     

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