Characterization of chicken octamer-binding proteins demonstrates that POU domain-containing homeobox transcription factors have been highly conserved during vertebrate evolution.

The DNA sequence motif ATTTGCAT (octamer) or its inverse complement has been identified as an evolutionarily conserved element in the promoter region of immunoglobulin genes. Two major DNA-binding proteins that bind in a sequence-specific manner to the octamer DNA sequence have been identified in mammalian species--a ubiquitously expressed protein (Oct-1) and a lymphoid-specific protein (Oct-2). During characterization of the promoter region of the chicken immunoglobulin light chain gene, we identified two homologous octamer-binding proteins in chicken B cells. When the cloning of the human gene for Oct-2 revealed it to be a member of a distinct family of homeobox genes, we sought to determine if the human Oct-2 cDNA could be used to identify homologous chicken homeobox genes. Using a human Oct-2 homeobox-specific DNA probe, we were able to identify 6-10 homeobox-containing genes in the chicken genome, demonstrating that the Oct-2-related subfamily of homeobox genes exists in avian species. Low-stringency screening of a chicken embryonic cDNA library allowed us to clone one of these genes. DNA sequence analysis revealed it to be the chicken homologue of the human Oct-1 gene. The predicted protein sequence of the chicken Oct-1 gene demonstrated that the gene for Oct-1 has been highly conserved during vertebrate evolution with an overall 96% amino acid sequence identity between the chicken and human proteins. The previously described POU domain (termed POU for its presence in the Pit-1, Oct-1/Oct-2, and Unc-86 genes) and homeobox domain are 100% conserved between the two protein products. Together, our data show that the POU-containing subfamily of homeobox genes have been highly conserved during vertebrate evolution, apparently as a result of selection for their DNA-binding and transcriptional regulatory properties.