Does Tn10 transpose via the cointegrate molecule?

It has been well established that Tn3 and its relatives transpose from one replicon to another by two successive reactions: formation of the cointegrate molecule and resolution from it. Whether or not the 9300 base pair tetracycline resistance transposon Tn10 transposes in the same manner as Tn3 was investigated by two methods. In the first method, lambda 55, a lambda phage carrying Tn10 was lysogenized in an Escherichia coli strain carrying a Tn10 insertion; the phage has a deletion in attP, hence it was lysogenized in a Tn10 sequence in the E. coli chromosome by reciprocal recombination. The chromosomal structure in these lysogens is equivalent to the Tn10-mediated cointegrate molecule of lambda and the E. coli chromosomal DNA. The stability of the cointegrate molecule was examined by measuring the rate of excision of lambda from the host chromosome, and was found to be stable, especially in a Rec- strain. Because of this stability, the cointegrate molecule should be accumulated if Tn10 transposes via the cointegrate molecule. Then, we examined the configuration of products made by transposition of Tn10 from lambda 55 to the E. coli chromosome. The cointegrate molecule was found in products of Tn10 transposition in a Rec+ strain at a frequency of 5% per Tn10 transposition, but this molecule could not be found in a Rec- strain. Since transposition of Tn10 was recA-independent, absence of the cointegrate molecule formed in a RecA- strain strongly suggested that the cointegrate molecule is not an obligatory intermediate of transposition of Tn10.(ABSTRACT TRUNCATED AT 250 WORDS)