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中国精品科技期刊2020
卢琪,杨德,薛淑静. 冻融循环对食用菌预制菌汤品质的影响[J]. 华体会体育,2024,45(1):54−62. doi: 10.13386/j.issn1002-0306.2023020040.
引用本文: 卢琪,杨德,薛淑静. 冻融循环对食用菌预制菌汤品质的影响[J]. 华体会体育,2024,45(1):54−62. doi: 10.13386/j.issn1002-0306.2023020040.
LU Qi, YANG De, XUE Shujing. Effect of Freezing-thawing Cycle on the Quality of Prefabricated Mushroom Soup[J]. Science and Technology of Food Industry, 2024, 45(1): 54−62. (in Chinese with English abstract). doi: 10.13386/j.issn1002-0306.2023020040.
Citation: LU Qi, YANG De, XUE Shujing. Effect of Freezing-thawing Cycle on the Quality of Prefabricated Mushroom Soup[J]. Science and Technology of Food Industry, 2024, 45(1): 54−62. (in Chinese with English abstract). doi: 10.13386/j.issn1002-0306.2023020040.

冻融循环对食用菌预制菌汤品质的影响

Effect of Freezing-thawing Cycle on the Quality of Prefabricated Mushroom Soup

  • 摘要: 为探究冻融循环对食用菌预制菌汤的品质影响,本文以鲜菌汤为参照,对比了冻融过程中微生物数量、菌汤色泽、可溶性蛋白、还原糖、总酚含量等基本指标的变化,并基于超高效液相检测和气相色谱-质谱法分析冻融过程菌汤等鲜度和挥发性风味物质差异。研究表明,首次冻融大幅减少了菌汤的还原糖、总酚和总氨基酸含量,显著降低了菌汤等鲜度和挥发性成分含量,综合影响了菌汤的成分与风味。进一步通过冻融次数(1~5次)之间的对比,反复冻融3次菌汤可溶性蛋白含量相较于冻融1~2次显著降低(P<0.05),此外,等鲜度由1~2次冻融的0.441~0.450 g MSG/100 g直接下降至0.407 g MSG/100 g,同时微生物开始检出。在此后4~5次冻融过程中,虽然菌汤总酚、总氨基酸含量和等鲜度相对稳定,但核苷酸、可溶性蛋白和挥发性成分不断减少且菌落总数不断升高。因此,预制菌汤若需冻融处理则应控制在2次内为宜。

     

    Abstract: To investigate the influence of freezing-thawing cycle on the quality of prefabricated mushroom soup, the differences in the basic indicators of mushroom soup including microbial quantity, color, soluble protein, reducing sugar, and total phenolic content were compared among unfrozen samples (control) and repeated freezing-thawing samples. Besides that, the equivalent umami concentration (EUC) values and volatile flavor compounds in those prefabricated mushroom soup were further analyzed by high performance liquid chromatography (HPLC) and gas chromatography-mass spectrometry (GC-MS), respectively. The results showed that the first freezing-thawing treatment comprehensively affected the quality of prefabricated mushroom soup by decreasing the content of basic components (reducing sugar, total phenolics and total amino acids) and flavor (EUC value and volatile components) of mushroom soup obviously. The effect of freezing-thawing cycles (1~5 cycles) on the quality of mushroom soup was further compared. When the mushroom soup was frozen and thawed for three times, the content of soluble protein in the soup decreased significantly (P<0.05), in addition, the EUC value greatly decreased from 0.441~0.450 g MSG/100 g (1~2 freezing-thawing treatments) to 0.407 g MSG/100 g. Microorganisms began to be detected in the third freezing-thawing prefabricated mushroom soup. In the subsequent freezing-thawing treatments (4~5 times), the content of total phenolics, total amino acids, and EUC value of the mushroom soup were relatively stable, while the content of nucleotides, soluble proteins, and volatile components continuously decreased, together with the bacteria kept proliferating. Consequently, the freezing-thawing times of prefabricated mushroom soup could be monitored in twice for final consumption.

     

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