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大型汞抗性质粒在河流底栖生物中的转移和发生。

Transfer and occurrence of large mercury resistance plasmids in river epilithon.

机构信息

Department of Applied Biology, University of Wales Institute of Science and Technology, P.O. Box 13, Cardiff CF1 3XF, United Kingdom.

出版信息

Appl Environ Microbiol. 1988 Apr;54(4):972-8. doi: 10.1128/aem.54.4.972-978.1988.

DOI:10.1128/aem.54.4.972-978.1988
PMID:16347617
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC202582/
Abstract

In situ mating experiments were done in the River Taff, South Wales, United Kingdom, by using a natural mercury resistance plasmid (pQM1) isolated from a mixture of epilithic bacteria in vitro. The river temperature from March to November was found to influence transfer frequencies strongly (6.8 x 10 to 1.5 x 10 per recipient). A linear relationship existed between log(10) transfer frequency and river temperature (6 to 21 degrees C), a 2.6 degrees C change in temperature giving a 10-fold change in transfer frequency. In vitro experiments showed that pQM1 transferred most efficiently between fluorescent pseudomonads and that one epilithic isolate (Pseudomonas fluorescens) was an efficient donor in situ. Experiments with a P. putida recipient showed that intact epilithic bacterial communities could transfer mercury resistance plasmids in situ at frequencies of up to 3.75 x 10 per recipient. Nineteen of the large (>250-kilobase) plasmids isolated by transfer into P. putida were studied in detail and grouped into seven types by restriction digests. Mercury resistance and UV resistance were found to be common linked phenotypes in 19 of the 23 plasmids tested.

摘要

在英国南威尔士的塔夫河进行了原位交配实验,使用了一种从体外附着细菌混合物中分离出的天然汞抗性质粒 (pQM1)。发现河流水温从 3 月到 11 月强烈影响转移频率(每个受体 6.8 x 10 到 1.5 x 10)。对数 (10) 转移频率与河流水温(6 到 21 度 C)之间存在线性关系,温度变化 2.6 度 C 导致转移频率增加 10 倍。体外实验表明,pQM1 在荧光假单胞菌之间最有效地转移,并且一种附着菌分离株(荧光假单胞菌)是原位的有效供体。用 P. putida 受体进行的实验表明,完整的附着细菌群落可以以高达每个受体 3.75 x 10 的频率在原位转移汞抗性质粒。用转移到 P. putida 中的 19 个大(>250 千碱基)质粒进行了详细研究,并通过限制消化将它们分为 7 种类型。在测试的 23 个质粒中的 19 个中发现了汞抗性和紫外线抗性是常见的连锁表型。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/3363/202582/8209f2a41198/aem00109-0135-a.jpg

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