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Expression and amplification of engineered mouse dihydrofolate reductase minigenes.
Authors:G F Crouse   R N McEwan     M L Pearson
Abstract:We constructed mouse dihydrofolate reductase (DHFR) minigenes (dhfr) that had 1.5 kilobases of 5' flanking sequences and contained either none or only one of the intervening sequences that are normally present in the coding region. They were greater than or equal to 3.2 kilobase long, about one-tenth the size of the corresponding chromosomal gene. Both of these minigenes complemented the DHFR deficiency in Chinese hamster ovary dhfr-1-cells at a high frequency after DNA-mediated gene transfer. The level of DHFR enzyme in various transfected clones varied over a 10-fold range but never was as high as in wild-type Chinese hamster ovary cells. In addition, the level of DHFR in primary transfectants did not vary directly with the copy number of the minigene, which ranged from fewer than five to several hundred per genome. The minigenes could be amplified to a level of over 2,000 copies per genome upon selection in methotrexate, a specific inhibitor of DHFR. In one case, the amplified minigenes were present in a tandem array; in two other cases, a rearranged minigene plasmid and its flanking chromosomal DNA sequence were amplified. Thus, the mouse dhfr minigenes could be transcribed, expressed, and amplified in Chinese hamster ovary cells, although the efficiency of expression was generally low. The key step in the construction of these minigenes was the generation in vivo of lambda phage recombinants by overlapping regions of homology between genomic and cDNA clones. The techniques used here for dhfr should be generally applicable to any gene, however large, and could be used to generate novel genes from members of multigene families.
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