Isolation of an autonomously replicating sequence (ARS) from satellite DNA of Drosophila melanogaster

Summary Autonomously replicating sequences (ARSs) were cloned from the 1.688 satellite DNA of D. melanogaster using YIp5, consisting of pBR322 and the yeast ura3 gene, as the cloning vector and YNN27, a Ura^– yeast strain as the recipient. Three out of six clones contained an ARS and the average frequncy of the occurrence of ARS was thus calculated to be approximately one per 14 kbp of the satellite DNA. A 500 bp ARS fragment (BgHS500) was obtained from one of the resultant clones (pYDS57). BgHS500 does not hybridize with the major repeating unit (370 bp) but it does with the minor unique sequence of the satellite. The sequence of BgHS500 was determined and found to be rich in AT and to contain the sequence, 5AAAACATAAAA3, a sequence common to yeast ARSs. However, a smaller fragment (150 bp) isolated from BgHS500 and containing the 11 bp sequence did not exhibit the characteristics of an ARS. The average copy number in the transformants of pBgHS500, a recombinant molecule of BgHS500 and YIp5, ranged from 0.05–0.5, while that of the parent plasmid, pYDS57, was about 2–10. On the basis of these results, it is postulated that the sequence 5AAAACATAAAA3 may possibly consiitute the core of ARSs and certain other sequences may also be necessary to insure that the ARS consistently undergoes at least one complete replication in each cell cycle. The role of ARSs in the genome of D. melanogaster is discussed.