Analysis of the aromatic 1H‐NMR spectrum of the kringle 5 domain from human plasminogen

Abstract

A kringle 5 domain fragment from human plasminogen has been investigated by ¹H‐NMR spectroscopy at 300 MHz and 620 MHz. The study focuses on the kringle 5 aromatic spectrum as aromatic side chains appear to mediate the binding of benzamidine. Spin‐echo experiments and acid/base‐titration studies in conjunction with two‐dimensional double‐quantum and chemical‐shift‐correlated spectroscopies were used to identify individual spin systems. Sequence‐specific assignments of aromatic resonances are derived from direct comparison of the kringle 5 spectrum with spectra of the homologous kringle 1 and kringle 4 domains of plasminogen. As previously observed for kringles 1 and 4, the pattern we detect for Tyr⁹ in kringle 5 reflects a slow conformational exchange between two states in equilibrium, one in which the Tyr⁹ ring is freely mobile and one in which its flip dynamics are constrained. Proton Overhauser experiments in ^lH₂O and in ²H₂O have been used to probe aromatic ring interactions and to identify residues which are part of the hydrophobic core centered at the Leu⁴⁶ side chain. Overall, the data indicate a strong structural homology among the three plasminogen kringles.