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在不同储存温度下,嗜水气单胞菌在旗鱼和虱目鱼中的组胺生成情况。

Histamine production by Enterobacter aerogenes in sailfish and milkfish at various storage temperatures.

机构信息

Department of Food Science and Technology, Tajen Institute of Technology, Pingtung, Taiwan, Republic of China.

出版信息

J Food Prot. 2005 Aug;68(8):1690-5. doi: 10.4315/0362-028x-68.8.1690.

DOI:10.4315/0362-028x-68.8.1690
PMID:21132980
Abstract

Enterobacter aerogenes was studied for its growth and ability to promote the formation of total volatile base nitrogen (TVBN) and histamine in sailfish (Istiophorus platypterus) and milkfish (Chanos chanos) stored at various temperatures from -20 to 37 degrees C. The optimal temperature for bacterial growth in both fish species was 25 degrees C, whereas the optimal temperature for histamine formation was 37 degrees C. The two fish species inoculated with E. aerogenes, when not properly stored at low temperatures such as 15 degrees C for 36 h, formed histamine at above the U.S. Food and Drug Administration hazardous guideline level of 50 mg/100 g. Milkfish was a better substrate than sailfish for histamine formation by bacterial histidine decarboxylation at elevated temperatures (> 15 degrees C). Although higher contents of TVBN were detected in the spiked sailfish than milkfish during the same storage time at temperatures above 15 degrees C, the use of the 30-mg/100 g level of TVBN as a determination index for fish quality and decomposition was not a good criterion for assessing potential histamine hazard for both fish species. Bacterial growth was controlled by cold storage of the fish at 4 degrees C or below, but histamine formation was stopped only by frozen storage. Once the frozen fish samples were thawed and stored at 25 degrees C, histamine started to accumulate rapidly and reached levels greater than the hazardous action level in 36 h.

摘要

产气肠杆菌的生长及其促进旗鱼(Istiophorus platypterus)和虱目鱼(Chanos chanos)在-20 至 37°C 不同温度下总挥发性碱基氮(TVBN)和组氨酸形成的能力进行了研究。两种鱼类中细菌生长的最佳温度为 25°C,而组氨酸形成的最佳温度为 37°C。当两种鱼类在 15°C 等低温下未妥善储存 36 小时时,即使未妥善储存,接种产气肠杆菌的两种鱼类也会形成超过美国食品和药物管理局危险指南水平(50mg/100g)的组氨酸。在高于 15°C 的温度下,通过细菌组氨酸脱羧作用,虱目鱼比旗鱼更适合形成组胺。虽然在 15°C 以上的相同储存时间内,添加 TVBN 的旗鱼中的 TVBN 含量高于虱目鱼,但将 TVBN 的 30mg/100g 水平用作确定鱼类质量和分解的指标并不适合评估两种鱼类的潜在组胺危害。通过将鱼类在 4°C 或以下的冷藏来控制细菌生长,但只有冷冻储存才能阻止组氨酸形成。一旦冷冻鱼样解冻并储存在 25°C 下,组胺开始迅速积累,并在 36 小时内达到超过危险行动水平的水平。

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