Abstract
Nucleoside diphosphate (NDP) kinase has a central role in the synthesis of (deoxy-)trinucleotides. In addition, mutations in the gene encoding NDP kinase have been shown to have important consequences for Drosophila development and mammalian tumorogenesis. We have overexpressed, in Dictyostelium discoideum, a genomic clone encoding the enzyme NDP kinase. The concomitant increase in the levels of RNA and enzyme activity identifies a 5' non-coding genomic region of 0.9 kb as being the complete promoter region. Overexpression of wild-type NDP kinase has no effect on development. This is also true for an inactive mutant H122C that does not have a dominant inhibitor effect. Overexpression of the P105G mutant NDP kinase, which is known to be affected in its stability in vitro, only leads to a small increase in total NDP-kinase activity. Thermal and chemical denaturation experiments demonstrate the formation of hexameric hybrids between wild-type and mutant monomers.
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