VISIBLE LIGHT IRRADIATION OF HUMAN AND BOVINE SERUM ALBUMIN‐BILIRUBIN COMPLEX*

Abstract

Abstract— The UV absorption and the fluorescence emission spectra of both bovine (BSA) and human (HSA) serum albumin underwent noticeable changes upon irradiation of their 1:1 complexes with bilirubin; both these phenomena are suggestive of the photosensitized modification of aromatic amino acid residues. Amino acid analysis showed that after relatively short irradiation times of both albumins, only histidyl and tryptophyl residues appeared to be affected to a significant extent. After 60min of irradiation, some decrease in the tyrosine content was also observed, especially for HSA.Conformational studies, obtained by exposing unirradiated and irradiated BSA and HSA to denaturing agents, showed that the three‐dimensional organization of the 15 min irradiated samples was slightly different from that of the native proteins. On the other hand, after 15 min of irradiation, the association constant of the bilirubin‐albumin complexes decreased from 2.07 to 0.54×10⁸M^‐1 for HSA and from 2.16 to 0.87×10⁷M^‐1 for BSA.These data indicate that the histidyl residues are relatively unimportant for maintaining the native tertiary structure of BSA and HSA, but they are critical for determining the binding capacity of the albumins. Our data also imply that the tertiary structure of the BSA molecule is more labile than that of HSA.