The molecular mechanism of the interaction of aliphatic alcohols (A) with bovine serum albumin (BSA) protein was studied in aqueous solutions at increasing concentrations (0–8 m) of urea (U). 1H n.m.r. spectra of alcohols were monitored in D 2O in the control binary systems (A—U) and (A—BSA), and in the ternary systems (A—U—BSA) at pH 7.0. Marked and selective broadening of the n.m.r. lines of alcohols in the system (A—BSA) was reduced upon addition of urea, indicating that alcohols are poorly bound by urea-denaturated BSA. The reduction in the ability to associate with BSA depends on chain position of the alcohol molecule and is much higher for α-methylenes (next to −OH) than for other proton groups. Besides this reduction seems to be a two-step phenomenon dependent upon urea concentration. The results obtained can be explained by competition in formation by the peptide linkages of a protein of the hydrogen bonds with −OH group of alcohols or fragments of urea molecules.
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