The conditions necessary to achieve high frequency transfer of the thymidine kinase and dihydrofolate reductase genes from hamster cells into mouse cells were investigated. Of the parameters examined, the length of adsorption time, input gene dosage, and treatment with dimethylsulfoxide (DMSO) were found to significantly alter the transfer frequency using either metaphase chromosomes or purified DNA as the transfer vehicle. With the mouse cell line as a recipient, the optimal adsorption period for DNA or chromosomes from MtxRIII cells was found to vary from 8 to 16 h in those experiments where the recipient cells were subsequently treated with DMSO. Without DMSO, similar frequencies could be obtained by extending the period of adsorption. Increasing the dosage of DNA or chromosomes resulted in an almost linear increase in the number of transformants. The optimal conditions for transfer did not significantly differ for the two genes studied. On the average, the optimal conditions yielded 1.5 x 10(3) transformants per 10(7) recipient cells with chromosomes; with DNA an average of only 60 transformants were observed. In general, DNA transformants grown in the absence of methotrexate were unstable; whereas, under the same conditions about 20% of the transformants from the chromosome experiments were stable.
The hydroxyurea-resistant Chinese hamster cell line 600H has been shown to have greatly elevated quantities of ribonucleotide reductase. This increase in enzyme activity is due to an increased level of both the M1 and M2 subunit activities. The M1 subunit has been purified from the 600H cell line and shown to consist of a series of six protein spots with apparent molecular weights of 88,000 daltons, but with varying isoelectric points in the range of pH 6.5-7.0. Western blot analyses with antisera against the M1 and M2 proteins indicated that both subunit proteins are present in elevated quantities in the 600H cell line when compared to the wild-type V79 cell line. Southern blot analyses with genomic DNA from the series of stepwise-selected hydroxyurea-resistant cell lines leading to 600H showed that, in latter steps of selection, genomic sequences homologous to a mouse M1 cDNA have undergone a fivefold amplification. This was accompanied by a four- to eightfold increase in the single M1 homologous mRNA.
Hybrid clones were produced from the fusion of Chinese hamster cells and human fibroblasts from a patient with the aniridia-Wilms tumor association (AWTA). The DNA from the parental cells and the hybrid clones was screened by Southern blot and DNA hybridization with probes for the human insulin and Ha-ras-1 genes. Two alleles for the Ha-ras-1 gene were shown to exist in the AWTA cells by restriction fragment length polymorphism. One hybrid clone, containing a single allele for Ha-ras-1 was shown to contain a single chromosome 11 with a cytogenetically visible deletion at 11p13. The DNA from this hybrid contained the human genes for insulin, A gamma-globin, G gamma-globin, Ha-ras-1, and calcitonin, but lacked any human sequences homologous to a human catalase cDNA. This clone was also shown to express human lactate dehydrogenase A (LDH A) activity. These data indicate that the deletion of the affected chromosome in this AWTA patient begins distal to LDH A and includes band 11p13, but does not extend to calcitonin or other genes thought to be located in the distal half of chromosome 11p.
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