Abstract
Using deletion analysis of the Ac transposable element, we have shown that replacement of internal sequences from base pairs 181-3559 does not abolish transposition. We have done sequential deletion analysis of the 3'-end of the Ac element and found that deletion of the major transposase binding sites (AAACGG) abolishes transposition. But, surprisingly, we found a 3'-terminal deletion of the transposase binding sites which also contained a 71-bp internal sequence between base pairs 3559 and 3630 retained transposition ability. This 71-bp internal sequence did not have a transposase (ORFa) binding motif. These data suggest that two different domains may be involved in the minimal sequence necessary for transposition. Finally, we have identified functional prokaryotic promoter sequences and ARS sequences within the 5' and 3'-termini of Ac, but cannot ascribe any function to these sequences.
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