A comparison of the evolutionary distribution of the two neuroendocrine markers, neurone-specific enolase and protein gene product 9.5.

One- and two-dimensional polyacrylamide gel electrophoresis followed by immunoblotting has been used to examine the phylogenetic distribution of the two neuronal and neuroendocrine proteins, neurone-specific enolase and protein gene product 9.5, in animal brains. A new immunoblotting procedure was used in which complex two-dimensional patterns of brain proteins were transferred to nitrocellulose paper simultaneously with the Coomassie Blue stain. This produced a copy of the blue spot pattern against which brown protein spots reacting in a specific antibody-immunoperoxidase procedure could be identified unequivocally. Extracts of human, bovine, sheep, rabbit, rat, guinea-pig, chicken, trout, and frog brains were examined. Proteins cross-reacting with antisera to the human forms of both proteins could be demonstrated in all species examined. This suggests that proteins corresponding to neurone-specific enolase and protein gene product 9.5 could have evolved at least 400 million years ago and have been highly conserved throughout evolution.