Understanding the conformational changes induced by small ligands noncovalently bound to proteins is a central problem in biophysics. We focus on the binding location of the water-soluble porphyrin, meso-tetrakis (p-sulfonatophenyl) porphyrin, to a globular protein, β-lactoglobulin, which has been observed to partially unfold when irradiated by laser light. Identifying the binding location is necessary to determine the mechanism of action as well as the atoms and residues involved in the photoinduced partial unfolding. Such atomic details are typically investigated by nuclear magnetic resonance or X-ray crystallography. However, for biomolecules in solution at the low concentrations (μM) required to deliver uniform laser irradiation, these traditional techniques do not currently provide sufficient information, and one must rely upon less direct spectroscopic methods. We describe a method that uses resonance Raman spectroscopy and density functional theory (DFT) to select the most likely binding configuration among a set of solutions yielded by computational docking algorithms. This methodology may be generalized to use with other ligand-protein complexes where the ligand structure is amenable to DFT simulations.
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