Contribution of alpha140Tyr and beta37Trp to the near-UV CD spectra on quaternary structure transition of human hemoglobin A.

Abstract

The CD band of human adult hemoglobin (Hb A) at 280 approximately 290 nm shows a pronounced change from a small positive band to a definite negative band on the oxy (R) to deoxy (T) structural transition. This change has been suggested to be due to environmental alteration of Tyrs (alpha42, alpha140, and beta145) or beta37 Trp residues located at the alpha1beta2 subunit interface by deoxygenation. In order to evaluate contributions of alpha140Tyr and beta37Trp to this change of CD band, we compared the CD spectra of two mutant Hbs, Hb Rouen (alpha140Tyr-->His) and Hb Hirose (beta37Trp-->Ser) with those of Hb A. Both mutant Hbs gave a distinct, but smaller negative CD band at 287nm in the deoxy form than that of deoxyHb A. Contributions of alpha140Tyr and beta37Trp to the negative band at the 280 approximately 290 nm region were estimated from difference spectra to be 30% and 26%, respectively. These results indicate that the other aromatic amino acid residues, alpha42Tyr and beta145Tyr, at the alpha1beta2 interface, are also responsible for the change of the CD band upon the R-->T transition of Hb A.