Heregulin is a ligand for the erbB3 and erbB4 receptors, with a region of high homology to epidermal growth factor (EGF). Despite this homology, these ligands bind to their corresponding receptors with great specificity. We report here the synthesis of heregulin beta 177-241 and show that a region consisting of amino acids 177-226 is sufficient both for binding and stimulation of receptor phosphorylation. Studies of chimeric EGF/heregulin peptides revealed that amino acids 177-181 of heregulin provide the specificity for binding to the heregulin receptor. The substitution of amino acids 177-181 of heregulin for the N terminus of EGF produced a unique bifunctional agonist that binds with high affinity to both the EGF receptor and the heregulin receptor.
A low-flow reactor is described for the on-line monitoring of peptides digested with carboxypeptidase P by electrospray ionization. Two peptides were analyzed using this technique: glucagon (average MW 3482.8 Da), and apomyoglobin (average MW 16,951.5). Both peptides gave interpretable results. The first 19 amino acids of glucagon were successfully sequenced. Apomyoglobin yielded sequence information to the 30th amino acid with some gaps. At 300 nL/min, 50% of the first 30 amino acids were sequenced and at 1 microL/min, 67% of the first 30 amino acids were observed.
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