GAP-43 is a neuronal phosphoprotein. Increased synthesis and axonal transport of GAP-43 has been associated with axon growth, and altered phosphorylation of GAP-43 has been associated with changes in synaptic efficacy. Here we report a rapid and effective procedure employing reverse-phase HPLC for the purification of GAP-43 from rat brain. To characterize the protein purified by this procedure, we generated proteolytic fragments and determined their amino acid sequences. These directly determined sequences, corresponding to 56% of the GAP-43 amino acids, confirm recently reported sequences deduced from the nucleotide sequences of cDNAs. Using oligonucleotide probes constructed according to these amino acid sequences, we identified GAP-43 cDNAs in a library prepared from neonatal rat superior cervical ganglion cells. One of these cDNAs was 1.1 kB in size; it hybridized specifically with a 1.5 kB RNA from brain, but not from liver, and contained the entire coding sequence for GAP-43. This cDNA differed from recently reported cDNAs in its 3' untranslated region.