Calmodulin (CaM) has been shown to be an essential component for progression of nuclear division in the yeast Saccharomyces cerevisiae (Ohya, Y., and Anraku, Y. (1989) Curr. Genet. 15, 113-120). To define the functional domain of the molecule required for cell proliferation, we constructed plasmids expressing a series of N- and C-terminal halves of the CaM under the control of the galactose-inducible GAL1 promoter. These plasmids were introduced into a cmd1-disrupted yeast haploid strain, and the growth properties of the cells depending on the half-CaMs were examined. Plasmids expressing the N-terminal half (Ser1-Leu76) and the C-terminal half (Leu85-Cys147), which each maintain two complete EF-hand structures, complemented the growth defect of the cmd1 null mutation, whereas those expressing shorter regions of C- and N-terminal CaM did not. The half-CaMs that complemented the cmd1 null mutation were found to be approximately 6-fold overexpressed relative to expression of native CaM by the wild-type CMD1 gene. The levels of expression of the half CaMs with the true CMD1 promoter were not sufficient for complementation. These results demonstrate that half-CaMs (either the N- or the C-terminal) are capable of supporting growth of yeast cells when they are suitably overproduced. Cells depending solely on half-CaMs all showed a temperature-sensitive growth phenotype, suggesting that half-CaMs cannot carry out all the cellular functions of the complete CaM molecule.