Thomas D J, Morgan J A, Whipps J M, Saunders J R
Department of Plant Pathology and Microbiology, Horticulture Research International, Wellesbourne, Warwick, CV35 9EF, United Kingdom.
Appl Environ Microbiol. 2001 Jan;67(1):330-8. doi: 10.1128/AEM.67.1.330-338.2001.
Plasmid transfer between strains of Bacillus thuringiensis subsp. israelensis was studied under a range of environmentally relevant laboratory conditions in vitro, in river water, and in mosquito larvae. Mobilization of pBC16 was detected in vitro at a range of temperatures, pH values, and available water conditions, and the maximum transfer ratio was 10(-3) transconjugant per recipient under optimal conditions. Transfer of conjugative plasmid pXO16::Tn5401 was also detected under this range of conditions. However, a maximum transfer ratio of 1.0 transconjugant per recipient was attained, and every recipient became a transconjugant. In river water, transfer of pBC16 was not detected, probably as a result of the low transfer frequency for this plasmid and the formation of spores by the introduced donor and recipient strains. In contrast, transfer of plasmid pXO16::Tn5401 was detected in water, but at a lower transfer ratio (ca. 10(-2) transconjugant per donor). The number of transconjugants increased over the first 7 days, probably as a result of new transfer events between cells, since growth of both donor and recipient cells in water was not detected. Mobilization of pBC16 was not detected in killed mosquito larvae, but transfer of plasmid pXO16::Tn5401 was evident, with a maximum rate of 10(-3) transconjugant per donor. The reduced transfer rate in insects compared to broth cultures may be accounted for by competition from the background bacterial population present in the mosquito gut and diet or by the maintenance of a large population of B. thuringiensis spores in the insects.
在一系列与环境相关的实验室条件下,包括体外、河水中以及蚊幼虫体内,对苏云金芽孢杆菌以色列亚种菌株间的质粒转移进行了研究。在一系列温度、pH值和可用水条件下,体外检测到了pBC16的转移,在最佳条件下,最大转移率为每受体10⁻³个接合子。在这一系列条件下也检测到了接合性质粒pXO16::Tn5401的转移。然而,每受体的最大转移率达到了1.0个接合子,并且每个受体都变成了接合子。在河水中,未检测到pBC16的转移,这可能是由于该质粒的转移频率较低以及引入的供体和受体菌株形成了孢子。相比之下,在水中检测到了质粒pXO16::Tn5401的转移,但转移率较低(约每供体10⁻²个接合子)。接合子数量在最初7天内增加,这可能是由于细胞间新的转移事件导致的,因为在水中未检测到供体和受体细胞的生长。在杀死的蚊幼虫中未检测到pBC16的转移,但质粒pXO16::Tn5401的转移很明显,最大转移率为每供体10⁻³个接合子。与肉汤培养相比,昆虫体内转移率降低可能是由于蚊肠道和食物中存在的背景细菌种群的竞争,或者是由于昆虫体内大量苏云金芽孢杆菌孢子的存在。