Three fragments,viz., BSA-CNBr1–183, BSA-CNBr184–582, and BSA-T377-582representing domains I, II + III and III of bovine serum albumin have been isolated and purified. The physicochemical properties have been investigated and compared with their parent albumin molecule. The values of Stokes radii (nm) and intrinsic viscosities (ml/g) have been determined to be 2.36, 3.30; 3.43, 4.36; and 2.40, 3.13 for the fragments BSA-CNBr1-183BSA-CNBr184-582and BSA-T377-582respectively. The acid induced unfolding-refolding transitions of intact albumin and the fragment BSA-T377-582have been shown to occur in two steps while the fragments BSA-CNBr1-183and BSA-CNBr184-582underwent single step transitions. The formation of the acid denatured states of intact albumin, BSA-CNBr1–183and BSA-CNBr184-582was accompanied by an increase of about 86, 56 and 44 in the values of intrinsic viscosities respectively. Since all the transitions were reversible, the values of equilibrium constants,KD, were calculated. The analysis of the dependence ofKDon pH indicated that the first transition (N-X) of albumin was caused due to the uptake of about 3 protons by the native albumin. The intermediate state,X, is converted to acid unfolded state,D, by taking up another two protons. A comparision of the results on intact albumin with that of its fragments revealed that the second transition of the fragment BSA-T377–582and the two single step transitions of the fragment BSA-CNBr1-183and BSA-CNBr184-582were much closer to the second transition (X-D) of the intact albumin. The first transition of albumin has been attributed to its domain III represented by the fragment BSA-T
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