Spo0A is a two domain response regulator, a key protein in the initiation of sporulation of Bacillus subtilis. This protein controls a number of changes in gene expression that occur during the transition from stationary phase to the onset of sporulation. The phosphorylated form of Spo0A influences the transcription of a specific set of genes. In addition to others, it represses abrB and activates spoIIA and spoIIE transcription. Although the N-terminal phosphoacceptor domain is well characterised, there is limited information on the C-terminal, DNA-binding domain. Comparisons of Spo0A homologues from a number of Bacillus and Clostridium species show that the C-terminal domain contains three highly conserved regions. In this study, we have investigated the influence of spo0A mutations mapping within the C-terminal domain on transcription from the abrB, spoIIA and spoIIE promoters using lacZ fusions. Our results indicate that described mutations can be part of signalling between N- and C-terminal domains of the protein. Also, the increased expression observed from the spoIIE promoter in some Spo0A mutants might result from a stabilising function of these mutations on the transcriptional apparatus utilising sigma(A).