A trypsin-resistant heme peptide from cardiac cytochrome [formula omitted

Abstract

A tryptic resistant heme peptide has been prepared and purified from cardiac cytochrome c 1 . This purified peptide is not further hydrolyzed by reactions of other proteolytic enzymes, such as pronase. The peptide contains 2 residues each of serine, cysteine and valine, and 1 residue each of alanine, methionine, tyrosine, histidine, arginine, proline, glutamic acid (glutamine) and aspartic acid. The intensity of the absorption spectrum of the peptide has been found to be dependent upon, but the positions of the absorption maxima do not vary with, concentration. The heme peptide does not show multiple splitting of absorption peaks at liquid N 2 temperatures as does the intact cytochrome c 1 . However, cyanide rapidly reacts with the peptide and causes significant spectral changes. CD spectra of the peptide exhibit a typical profile of a non-structured heme peptide with positive CD bands in the Soret region and around 250 nm, and a broad negative extreme of 320–360 nm. The similarities and differences between the tryptic resistant heme peptides from cytochromes c 1 and c have been compared.