Previous experiments with purified mouse and bovine nerve growth factor (NGF) have shown that the biological activities of these two NGFs are identical, whereas the immunological cross-reactivity of antibodies produced against the two NGF molecules is very limited. This observation, together with the fact that antibodies to mouse NGF do not affect the development of sympathetic and sensory neurons in chick embryos, suggests that the domain of the NGF molecules responsible for the biological action has been highly conserved during evolution, whereas other domains determining the immunological properties were under less rigorous evolutionary constraint. The nucleotide sequences of bovine and chick NGF were determined from a cDNA clone prepared from mRNA of bovine seminal vesicles and from cloned chick genomic DNA, and the amino acid sequences deduced therefrom were compared with the available sequences of mouse and human NGF. All six cysteine residues were conserved in agreement with the previous finding that the biological activity of NGF is conformation-dependent requiring intact disulfide bridges. Amino acid changes are mainly confined to hydrophilic regions expected to be potential antigenic determinants, thus providing an explanation for the poor immunological cross-reactivities between the different NGFs. One single hydrophilic region is conserved in all NGFs and this region could be involved in the biological activity. The carboxy termini of bovine and chick NGF differ from that of mouse NGF, the changes in the amino acid sequences suggest that chick and bovine NGF are probably not processed by the gamma-subunit and that no 7S complex can be formed as in the mouse submandibular gland.