Immune response stimulation and inactivation of chondroitinase ABC I in physiological condition have been limited its use in various clinical conditions as a bacterial enzyme drug. In the present study, we have investigated some structural and functional features of N∆89, C∆274 and N∆89C∆274; three designed truncated cABC I, in order to clarify the unclear role of two terminal parts of cABC I i.e., the 1-89 and 747-1021 amino acids sequences of the full length enzyme through truncation. As a result, the numbers of potential epitopes, the susceptibility to trypsin digestion, ANS fluorescence spectra, and fluorescence quenching using KI and acrylamide were diminished for N∆89 and C∆274 in comparison to the wild type. Secondary and tertiary structure investigation for N∆89 and C∆274 revealed that the intrinsic fluorescence was increased and Far-UV CD spectra were changed accordingly. Relative to the wild type enzyme, 0.164, 0.195 remaining activity and lack of activity was shown with the zymographic assay for N∆89, C∆274 and N∆89C∆274 variants, respectively. The diminished enzyme activity and structural changes suggested a reorientation of microenvironments interactions including cation-π interactions around structural elements toward lowering regional mobility. Constructing applicable truncated cABC I with improved features could be regarded as a strategy to regain new possible functional advantages over the full length enzyme.
Keywords: Fluorescence quenching; Protein structural elements; Truncated cABC I; Zymographic assay.