I. Photoaffinity probes provide a general method to prepare synthetic peptide-conjugates

Abstract

A general synthetic strategy is described for the preparation of peptide-conjugates where the peptides contain the NH2 terminal, COOH terminal, or internal regions of the protein sequence. Glycoprotein D of herpes simplex virus type 1 is used as a representative protein. Ten-residue peptide fragments of the native sequence were synthesized using standard solid-phase methodology. Photoprobes stable to conditions of synthesis and HF cleavage were coupled directly to the protected-peptide resin during synthesis. This one-step procedure eliminates the potential modification of functional groups in the sequence of interest that can occur when using chemically labile bifunctional reagents. Since the photoprobe is inert until photolysis, the synthetic peptide-probe can be readily purified by high-performance liquid chromatography before cross-linking to the carrier molecule. The following photoprobe derivatives were investigated: thep-azidobenzoyl,p-nitrophenylalanyl, andp-benzoylbenzoyl groups. The benzophenone photoprobes were shown to give the highest incorporation of peptide-probe with the protein carrier over a wide range ofpH and solvent conditions. For solid-phase synthesis three benzophenone photoprobes can be used: benzoylbenzoic acid, benzoylbenzoylglycine, andNe-(4-benzoylbenzoyl)-Nα-t-butyloxycarbonyl-lysine.