Molecular evolution of pancreatic-type ribonucleases

Abstract

Amino acid sequences of 39 mammalian ribonucleases have been used to construct trees by the maximum parsimony procedure. These trees are in fairly good agreement with the biological classification of the species involved. In the branching order of the six investigated eutherian mammalian orders, the edentates diverge first, followed, probably, by the primates. No definite conclusions can be drawn about the order of divergence of the perissodactyls, the rodents, and the groups consisting of artiodactyls plus cetaceans. Nucleic acid sequences of part of the messenger RNAs of rat pancreatic and bovine seminal ribonuclease were compared. Both messengers have a second stop codon at position 129, which is in agreement with the addition of four residues at the C-terminus in several other ribonucleases. Turtle pancreatic ribonuclease and human angiogenin differ from each other and from the mammalian ribonucleases at 55%-70% of the amino acid positions; they share a number of structural features. Mammalian nonsecretory ribonucleases are homologous to the pancreatic ribonucleases in sequence regions where the active-site histidine residues are located.