pubmed-article:9602078 | pubmed:abstractText | A deleted variant of hepatocyte growth factor (dHGF) is a naturally occurring major variant of HGF, which lacks five consecutive amino acid residues in the first kringle domain. While both HGF and dHGF bind to heparin, the residues involved in the binding to heparin have not been identified in either protein. To identify the residues involved in the binding, we made a series of dHGF mutants in which basic residues in the N-terminal and the first kringle domains were replaced with alanine residue. The analysis of heparin-binding ability revealed that three stretches, 42RCTRNK in the hairpin loop structure, and 2RKRR and 27KIKTKK in the N-terminal basic region, are involved in the binding. Alanine substitution of each basic residue except 3K and 27K in the stretches reduced the heparin-binding ability of dHGF, and the decrease was additive. Conversely, lysine substitution of 37D, 38Q or 64Q in the N-terminal domain increased heparin-binding ability. These results suggest that stretches distant from each other in the primary structure come into close proximity when the polypeptide folds into protein, and form a heparin-binding site with clusters of basic residues. | lld:pubmed |