The mammalian p34cdc2 protein kinase, a universal cell cycle regulator, complements cdc2/CDC28 temperature-sensitive mutations in yeasts. We report the biochemical characterisation of two substitutions of human cdc2 at lysine 33, a residue involved in nucleotide binding, that differently alter the fission yeast cell cycle. K33A-hscdc2 and K33R-hscdc2 mutants are both catalytically inactive, but overexpression of K33R-cdc2 is lethal while K33A-cdc2 is not. We show that human K33R-cdc2 acts as a dominant negative allele that associates yeast cdc13/cyclinB and therefore renders endogeneous Schizosaccharomyces pombe cdc2 unactivatable. These results are discussed on the light of the molecular modeling of the mutants in the cdc2 model structure.