A tetramerization domain in prokaryotic and eukaryotic transcription regulators homologous to p53.

Transcriptional regulation usually requires the action of several proteins that either repress or activate a promotor of an open reading frame. These proteins can counteract each other, thus allowing tight regulation of the transcription of the corresponding genes, where tight repression is often linked to DNA looping or cross-linking. Here, the tetramerization domain of the bacterial gene repressor Rco from Bacillus subtilis plasmid pLS20 (Rco pLS20 ) has been identified and its structure is shown to share high similarity to the tetramerization domain of the well known p53 family of human tumor suppressors, despite lacking clear sequence homology. In Rco pLS20 , this tetramerization domain is responsible for inducing DNA looping, a process that involves multiple tetramers. In accordance, it is shown that Rco pLS20 can form octamers. This domain was named TetD loop and its occurrence was identified in other Bacillus species. The TetD loop fold was also found in the structure of a transcriptional repressor from Salmonella phage SPC32H. It is proposed that the TetD loop fold has evolved through divergent evolution and that the TetD loop originates from a common ancestor predating the occurrence of multicellular life.