1H nuclear-magnetic-resonance studies of the porcine-pancreatic secretory trypsin inhibitor at 270 MHz

Abstract

The pancreatic secretory trypsin inhibitor from porcine pancreas has been investigated by high-resolution 1H nuclear magnetic resonance (NMR) at 270 MHz. The presence of a number of slowly exchanging labile protons indicates that the protein is highly globular. Of the two tyrosyl rings, one is free-rotating and solvent-exposed while the other one is hindered in its mobility and buried in the interior of the protein. A lineshape analysis of the temperature dependence of aromatic resonances gave the dynamic parameters for activation of ring mobility. The inhibitor exhibits at least three well-resolved high-field ring-current-shifted methyl resonances. Form II of the inhibitor, that lacks the first four residues, has been compared with the intact form I. No detectable differences were found between the spectra of I and II, which indicates that the presence of the N-terminal tetrapeptide does not appreciably affect the overall conformation of the protein.