Abstract

Genomic libraries constructed in the original Bacterial Artificial Chromosome (BAC) and P1 Artificial Chromosome (PAC) cloning systems were very useful for completion of the Human Genome Project. Libraries constructed in these vector systems were used to generate physical maps of all twenty three-chromosome pairs and served as the templates for DNA sequencing. The PAC vector pJCPAC-Mam2 is a 23 kilobase (kb) shuttle vector that is highly versatile and useful for functional studies in human tissue culture cell lines. pJCPAC-Mam2 contains the P1 single-copy replicon for low copy expression and a multi-copy lytic replicon under the control of the lac repressor for high copy expression in Escherichia coli, wild type and mutant loxP sites for generation of bidirectional nested deletions in any clone of interest and the Epstein Barr Virus (EBV) latent replication origin oriP, the Epstein Barr Nuclear Antigen 1 (EBNA1) gene, and a puromycin-resistance gene for propagation in mammalian cells. We constructed an arrayed 115,000-member human genomic library in pJCPAC-Mam2 that is housed in twelve hundred 96 well dishes. Subsequent pooling using a column and rows strategy reduced the library to 19 final pools for Polymerase Chain Reaction (PCR) screening. We estimate that the average insert size is approximately 57 kb based on NotI digestion and Field Inversion Gel Electrophoresis (FIGE) analysis of 473 random PAC clones. The library appears to represent a two- to three-fold coverage of the human genome based on screening of the library with PCR primers representing nine genes. This library should serve as a valuable resource to validate potential disease genes identified by genome-wide association studies (GWAS) in human tissue culture cell lines and in animal models. Also, individual library members could potentially be used for gene therapy trials for a variety of recessive disorders.

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