Growth medium components and cultivation conditions for the extremely thermophilic bacterium Thermotoga neapolitana were optimized. A defined marine salts medium was formulated. Trace amounts of iron stimulated growth of T. neapolitana, while zinc inhibited growth at concentrations exceeding 11.1 μM. Other trace metals had no effect on its growth. Of the vitamins tested, only biotin was required for optimal growth. A defined mineral medium containing 5 g of carbohydrates per liter as the carbon source and 0.5 g of cysteine per liter as the sulfur source and reductant supported growth. Growth was stimulated by inclusion of vitamin-free Casamino Acids. Elemental sulfur, cystine, and dimethyl disulfide in the growth medium enhanced growth. Elemental sulfur and cystine relieved growth inhibition by hydrogen. T. neapolitana formed colonies in 2 days on plates of complex medium solidified with gellan gum and in 4 days on defined medium. The efficiency of plating was determined when growing cultures were sampled both aerobically and anaerobically and plated under aerobic and anaerobic conditions. Mean plating efficiencies were improved by sampling the growing cultures under strictly anaerobic conditions. Little or no improvement was obtained by inoculating plates inside an anaerobic chamber. Plating efficiencies of approximately 80% were obtained. Polycarbonate jars with aluminum lids withstood repeated incubation at 77°C without significant deterioration of the anaerobic seal and provided the most consistent results.
展开▼
机译:优化了嗜热嗜热菌嗜热菌的生长培养基成分和培养条件。配制了确定的海盐培养基。痕量的铁刺激了T. neapolitana的生长,而锌在浓度超过11.1μM时抑制了生长。其他微量金属对其生长没有影响。在测试的维生素中,仅生物素即可获得最佳生长。确定的矿物质培养基含有每升5 g的碳水化合物作为碳源,每升0.5 g的半胱氨酸作为硫源和还原剂,有助于生长。加入不含维生素的酪蛋白氨基酸可刺激生长。生长培养基中的元素硫,胱氨酸和二甲基二硫可促进生长。元素硫和胱氨酸减轻了氢的生长抑制。 T. neapolitana在用吉兰糖胶固化的复杂培养基平板上放置2天,在限定培养基上放置4天形成菌落。当对有氧和无氧的生长培养物进行取样并在有氧和厌氧条件下进行接种时,测定接种效率。通过在严格厌氧条件下取样生长的培养物,可以提高平均接种效率。通过在厌氧室内接种板几乎没有或没有得到改善。获得了大约80%的电镀效率。带有铝盖的聚碳酸酯广口瓶可以经受住在77°C的温度下反复孵育的操作,而厌氧密封的性能没有明显下降,并提供了最一致的结果。
展开▼
