Automated Edman degradation of reduced and carboxymethylated phospholipase A2-α from Crotalus adamanteus venom revealed a single amino acid sequence extending 30 residues into the protein from the amino terminus. The singularity of the sequence and the yields of the phenylthiohydantoin amino acids thus obtained indicate that the subunits comprising the phospholipase dimer are identical. Further chemical evidence in support of subunit identity was obtained by cleavage of phospholipase A2-α with cyanogen bromide. Compositional analysis of the protein revealed one residue of methionine per monomer and the sequence determination placed this amino acid at position 10 in the sequence of 133 amino acids. Cyanogen bromide cleavage of the protein, followed by reduction and carboxymethylation afforded the expected 2 fragments: an NH2-terminal decapeptide (CNBr-1) and a larger COOH-terminal fragment of 123 residues (CNBr-II). Automated Edman degradation of the latter has extended the sequence analysis to 54 residues in the NH2-terminal segment of the monomer chain. Comparison of this sequence with those derived for phospholipases from other snake venoms, from bee venom, and from porcine pancreas has revealed striking homologies in this region of the molecules. As expected on the basis of their phylogenetic classification, the phospholipases from the pit vipers C. adamanteus and Agkistrodon halys blomhoffii are more similar to one another in sequence than to the enzyme from the more distantly related viper, Bitis gabonica. Furthermore, the very close similarities in sequence observed among all of these phospholipases in regions corresponding to residues 24 through 53 in the C. adamanteus enzyme suggest that this segment of the polypeptide plays an important role in phospholipase function and probably constitutes part of the active site.