Tn1 insertion mutagenesis in Escherichia coli K-12 using a temperature-sensitive mutant of plasmid RP4

Abstract

A method for Tn1 insertion mutagenesis in Escherichia coli has been developed using pTH10, a mutant plasmid of RP4 temperature-sensitive for maintenance. The mutagenesis involves three steps. Firstly, from strains carrying pTH10 showing resistance to the antibiotics kanamycin, tetracycline, and ampicillin at 30 degrees C but not at 42 degrees C, clones are isolated resistant to kanamycin at 42 degrees C. Such temperature-independent, drug resistant clones probably carry pTH10 integrated into the host chromosome. Secondly, they are cultivated at 30 degrees C. At this temperature segregants carrying pTH10, which has been excised from the host chromosome, accumulate. Thirdly, to cure such segregants of autonomous pTH10, they are cultivated at 42 degrees C. By these procedures, clones free of pTH10, but carrying Tn1 insertions on the host chromosome, were obtained. About 3% of the clones carrying Tn1 insertions were auxotrophic. Distribution of auxotrophic mutations was not random, indicating the existence of preferential integration sites of Tn1 on the host chromosome. The frequency of precise excision of Tn1 was less than 10(-10). The pTH10 plasmid has a wide host range among Gram-negative bacteria and thus may serve as a excellent vector for insertion mutagenesis of Tn1 in many Gram-negative bacterial species.