Lebert I, Begot C, Lebert A
Meat Research Department, National Institute of Agronomic Research, Saint-Genès Champanelle, France.
Int J Food Microbiol. 1998 Jan 6;39(1-2):53-60. doi: 10.1016/s0168-1605(97)00116-5.
A total of 59 strains of Pseudomonas, isolated from meat products, were grown in micro-titer plates in a meat medium over a range of pH (5.8-7.0), alpha w (0.97-1.00) and temperature (7-25 degrees C). Growths were performed in a meat broth with an automated turbidimeter (Bioscreen C, Labsystem, France). The growth curves obtained in this study did not have sigmoidal shapes making it impossible to calculate growth parameters using the Gompertz equation. The medium was weakly oxygenated in the micro-titer plates and reached 0%-dissolved oxygen at the beginning of the exponential phase. Strains were separated into two groups: P. fragi and P. fluorescens. Strains of P. fragi had shorter lag times than those of P. fluorescens. The impact of such results is interesting in that these could assist to explain the succession of flora that is observed during the processing of meat: P. fluorescens is the dominant bacteria among Pseudomonas spp. at the beginning of a slaughter line and P. fragi becomes dominant during the chilling process.
从肉制品中分离出的59株假单胞菌,在微量滴定板中于肉培养基中,在一系列pH值(5.8 - 7.0)、水分活度(0.97 - 1.00)和温度(7 - 25摄氏度)条件下培养。使用自动比浊仪(法国Labsystem公司的Bioscreen C)在肉浸液中进行培养。本研究获得的生长曲线并非S形,因此无法使用Gompertz方程计算生长参数。微量滴定板中的培养基氧含量较低,在指数期开始时溶解氧达到0%。菌株被分为两组:草莓假单胞菌和荧光假单胞菌。草莓假单胞菌的菌株比荧光假单胞菌的菌株滞后期更短。这些结果的影响很有意思,因为它们有助于解释在肉类加工过程中观察到的菌群演替现象:荧光假单胞菌是屠宰线开始时假单胞菌属中的优势菌,而草莓假单胞菌在冷却过程中成为优势菌。
