A novel computer modeling approach to the structures of small bioactive peptides: The structure of gonadotropin releasing hormone

Abstract

A novel computer modeling approach suitable for the structure analysis of small bioactive peptides has been developed. This approach involves identification of conformational patterns in protein structure data bank based on the sequence homology with the bioactive peptide. The models built on the basis of this homology and having common conformational patterns are analyzed under the structural constraints derived from the activity data of various synthetic analogs of the peptide. Application of this procedure to the gonadotropin releasing hormone (GnRH) resulted in a library of possible structures for GnRH, 9 among which shared a common β‐turn. Further analysis of the structures containing the β‐turn motif, in the context of the structure–activity data, led to a model for the active conformation of GnRH. The topology of the putative receptor binding site of the hormone is defined by a contiguous surface formed through an appropriate juxtaposition of the N‐terminal pGlu¹ the guanidyl group of Arg⁸, aromatic side chain of Trp³, and the Gly¹⁰‐NH₂ at the C‐terminal end. ©Wiley‐Liss, Inc.