Construction of a PAC vector system for the propagation of genomic DNA in bacterial and mammalian cells and subsequent generation of nested deletions in individual library members.

The BAC and PAC cloning systems allow investigators to propagate large genomic DNA fragments up to 300 kb in size in E. colicells. We describe a new PAC shuttle vector that can be propagated in both bacterial and human cells. Specifically, the P1 cloning vector pAd10sacBII was modified by the insertion of a puromycin-resistance gene (pac), the Epstein-Barr Virus (EBV) latent replication origin oriP,and the EBV EBNA1 gene. Transfection studies in HEK 293 cells demonstrated that the modified vector was stably maintained as an episome for at least 30 generations. And since pJCPAC-Mam1 contains a loxP site, genomic DNA cloned into this vector can be subjected to loxP-Cre -mediated deletion events. The transposon vector pTnPGKpuro/loxP was modified to make this system amenable to propagation in human cells by inserting pac, oriP, and EBNA1 elements into the vector (Chatterjee, P.K., Coren, J.C., 1997. Isolating large nested deletions in PACs and BACs by in vivo selection of P1 headful-packaged products of Cre-catalyzed recombination between the loxP site in PAC and BAC and one introduced in transposition. NAR 25, 2205-2212.). pTnPGKpuro/loxP-EBV was then used to generate deletions in an individual library member to demonstrate that all of the deletions still contain the required eukaryotic elements and that they were nested. All library members constructed in pJCPAC-Mam1 can be directly transformed into human cells to assess function. And the deletion technology can be used to aid in delineating the boundaries of genes and other cis-acting elements.