Secondary structure of fibronectin type 1 and epidermal growth factor modules from tissue-type plasminogen activator by nuclear magnetic resonance.

A segment of human tissue-type plasminogen activator (t-PA) corresponding to the fibronectin type 1 (F1) and epidermal growth factor-like (G) pair of modules, residues 1-91, has been produced as a recombinant protein in Saccharomyces cerevisiae, with a single conservative Cys to Ser substitution. The sequence-specific assignment of the 1H and 15N nuclear magnetic resonances from the pair of modules has been completed using 2D 1H nuclear magnetic resonance (NMR) spectra in conjunction with 3D, 15N-edited, 1H and 2D 15N-1H NMR spectra. Slowly exchanging amide protons have been identified, and estimates of a number of backbone 3JNH-C alpha H coupling constants were obtained by line-shape-fitting. The secondary structure of the F1 module in the pair closely matches that previously determined for the isolated F1 module from t-PA, and that of the G module conforms to the "consensus" G module structure determined previously from several isolated G modules. In the module pair, the residues linking the two modules appear to form an extended beta-strand, the carboxy-terminal end of which makes up a third strand of the major beta-sheet of the G module. The intermodule interface is defined by NOEs between residues in the ranges 22-24 in the F1 module and 65-72 in the G module. The NMR data indicate that there is little or no reorientation of the two modules with respect to one another but rather that they combine with a fixed hydrophobic contact dominated by the side chain of leucine-22.