Nucleotide sequence of terminal repeats of 412 transposable elements of Drosophila melanogaster: A similarity to proviral long terminal repeats and its implications for the mechanism of transposition

We have sequenced the long terminal direct repeats (and adjacent DNA) of two members of the 412 family of transposable elements of Drosophila melanogaster cloned on fragments of DNA from strain Oregon R. The repeats of the first element are identical and 481 base-pairs long; the repeats of the second are also identical but are 571 base-pairs long. The first 482 base-pairs of the 571 base-pair sequence correspond to the 481 base-pair repeat differing by five base substitutions and one addition/deletion. The 571 base-pair repeats are rare. Each of these 412 elements is flanked by a four base-pair direct repeat, suggesting that insertion of a 412 element is associated with duplication of four base-pairs. Analysis of the “empty site” from strain Canton S corresponding to one of these elements supports this conclusion. The sequence of 481 base-pair repeats and of 412 DNA immediately adjacent to them show striking similarities to corresponding regions of vertebrate proviruses and we discuss the implications this may have for the mechanism of transposition.     

Recognition and cleavage of the bacteriophage P1 packaging site (pac). II. Functional limits of pac and location of pac cleavage termini

Bacteriophage P1 initiates the processive packaging of its DNA at a unique site called pac. We show that a functional pac site is contained within a 161 base-pair segment of P1 EcoRI fragment 20. It extends from a position 71 base-pairs to a position 232 base-pairs from the EcoRI-22 proximal side of that fragment. The 3' and 5' pac termini are located centrally within that 161 base-pair region and are distributed over about a turn of the DNA helix. The DNA sequence of the terminus region is shown below, with the large arrows indicating the positions of termini that are frequently represented in the PI population and the small arrows indicating the positions of termini that are rarely represented in the P1 population. (Sequence: in text). Digestion of P1 virus DNA with EcoRI generates two major EcoRI-pac fragments, which differ in size by about five or six base-pairs. While the structure and position of the double-stranded pac ends of these fragments have not been determined precisely, the 5' termini at those ends probably correspond to the two major pac cleavage sites in the upper strand of the sequences shown above. The 161 base-pair pac site contains the hexanucleotide sequence 5'-TGATCAG-3' repeated four times at one end and three times at the other. Removal of just one of those elements from either the right or left ends of pac reduces pac cleavage by about tenfold. Moreover, the elements appear to be additive in their effect on pac cleavage, as removal of one and a half elements or all three elements from the right side of pac reduces pac cleavage 100-fold, and greater than 1000-fold, respectively.