Interaction of spin-labeled tryptophan with sickle hemoglobin: probing the microenvironment of the contact sites by spin-probe--spin-label techniques.

The spin-labeled tryptophan was used as a structural probe of hemoglobin contact sites. The ESR spectral data indicated that the probe exhibits weak binding to hemoglobin with a dissociation constant of 3.2.10(-5) and 4.0 mol bound per hemoglobin tetramer. The spectrum suggested that the bound tryptophan was 'partially immobilized' with a correlation time reflecting the environment of the tryptophan binding site of 8.2 ns. The topology of the contact sites was investigated by using dual spin-label methodology in which spin-labeled tryptophan and (2H,15N) substituted and deuterated maleimide spin label [2H-15N]MSL covalently-bound to Cys-beta 93 residue were used. The ESR spectral data suggested that the tryptophan binding sites were located within 8-10 A of the nitroxide free radical of spin-labeled hemoglobin. The environment of the contact sites is discussed.