关键词: 没食子酸, 牛血红蛋白, 相互作用, 光谱测定

Abstract: Bovine hemoglobin (BHb) is highly homologous to human hemoglobin and obtained easily, so it is often used in the study of binding of hemoglobin to small molecule compounds. Gallic acid (GA) is a polyphenolic small molecule compound, which can be used as drug model. The study on interaction between GA and BHb can provide a theoretical basis for the application of GA in the field of medicine. The interaction between GA and BHb was investigated at pH 7.0 by ultraviolet-visible (UV-vis) spectroscopy, fluorescence spectroscopy, Fourier transform infrared (FTIR) spectroscopy and circular dichroism (CD). The results of UV-vis spectroscopy showed that GA had no effect on oxygenation state of BHb, and did not deoxidize the oxygenated hemoglobin. Combined fluorescence spectra with calculation results of related formulas, it could be known that the interaction between GA and BHb resulted in fluorescence quenching, and the quenching constant increased with the increase of temperature, indicating that the quenching type of the interaction between GA and BHb was dynamic quenching. Then the binding constants of GA and BHb at different temperatures were calculated, which were K298a=7.941×103 L/mol, K308a=10.478×103 L/mol, respectively. And the binding process was a spontaneous molecular interaction procedure, in which hydrophobic interactions played major roles. The results also demonstrated that the microenvironment of tryptophan and tyrosine residues had been disturbed, under the same condition, variations of fluorescence absorption peak intensity of the tryptophan residue were greater than that of the tyrosine residue, indicating that the binding site of GA and BHb was closer to  the tryptophan residue. The results of FTIR spectroscopy and CD showed that the secondary structures before and after the interaction between BHb and GA were both dominated by α-helices, it meant that GA had little influence on the secondary structure of BHb molecules.

Key words: gallic acid, bovine hemoglobin, interaction, spectrometry