Segregation and rearrangement of coamplified genes in different lineages of mutant cells that overproduce adenylate deaminase.

Four genes encoding proteins designated as W, X, Y1, and Y2 were found previously to be amplified at different levels in a Chinese hamster fibroblast mutant line selected for overproduction of adenylate deaminase. To gain information on the molecular mechanisms responsible, we studied the levels of amplification and the structures of these four genes in several lineages of mutant cells with comparable activities of adenylate deaminase, the selected enzyme. Only the W gene was amplified in all the lines. In one line, the X, Y1, and Y2 genes were coamplified, while in others either the Y1 gene or the pair X and Y2 were coamplified. The results were consistent with linkage of all the genes--in a particular order--in an amplifiable sequence with variable endpoints. Novel joints with a nonrandom distribution were observed. We frequently detected rearranged copies of the W gene, but very few novel joints were present in the other three genes in the six highly amplified lines examined. Some of the novel joints in gene W were highly amplified; they were generated by reamplification of a rearrangement that appeared at an early selection step. In some lines, reamplification was accompanied by deletion or mass correction of preexisting units. We discuss mechanisms which might account for these observations.