Identification by computer sequence analysis of transcriptional regulator proteins in Dictyostelium discoideum and Serratia marcescens.

We have performed computer searches in the database of known protein sequences for proteins similar in sequence to bacteriophage regulatory proteins of known 3-D structure. The searches are more selective than other methods due to the use of a length-dependent threshold in sequence similarity, above which structural homology is implied with high certainty. Two probable DNA binding proteins were identified which are predicted to have a three-dimensional structure very similar to bacteriophage cro and repressor proteins. Approximate three-dimensional model coordinates are available from the authors. Both proteins contain the helix-turn-helix sequence motif typical of a wide class of DNA binding proteins and their function is deduced by analogy to sequence-similar proteins of known function. We predict that the Y.Smal protein in the restriction-modification enzyme gene locus of the enterobacterium serratia marcescens is a regulator of endonuclease expression; and, that the vegetative specific gene VSH7 of the slime mold dictyostelium discoideum codes for a regulator of gene expression specific for the slime mold growth phase before the onset of the developmental program. Point mutations that would have a strong effect on growth regulation phenotype are suggested. The VSH7 protein would be the first eukaryotic representative of the cro/phage repressor class.