Title of article
Textural and Structural Characterizations of Mesoporous Chitosan Beads for Immobilization of AlphaAmylase: Diffusivity and Sustainability of Biocatalyst
Author/Authors
Heydarzadeh Darzi ، H. Faculty of Petroleum and Petrochemical Engineering - Hakim Sabzevari University , Gilani ، S. Faculty of Chemical Engineering - Noshirvani University of Technology , Farrokhi ، M. Faculty of Petroleum and Petrochemical Engineering - Hakim Sabzevari University , Nouri ، S. M. M. Faculty of Petroleum and Petrochemical Engineering - Hakim Sabzevari University , Karimi ، G. Arvandan Oil Gas Company, Sugarcane Development Company of Khuzestan
From page
207
To page
216
Abstract
In the present study, textural and structural characterizations of chitosan bead for immobilization of alpha amylase were studied in detail by N2 adsorption–desorption, Microspore Analysis (MP), Barrett–Joyner–Halenda (BJH) plots and Field Emission Scanning Electron Microscope (FESEM) observations. Pore structure observation revealed chemical activation of chitosan bead by glutaraldehyde can change both the isotherm type of adsorption and pores shape. In consistence with textural analysis, the high value of pore volume distribution with range of mesopores region indicated the porosity of activated chitosan bead was uniformly increased. Intraparticle diffusion model indicated that 97.6% of amylase was adsorbed inside the mesopores of activated chitosan bead owing to increase in kid (rate constant) and reduce of boundary layer effect on diffusion process. In addition, the stability experiments (pH, storage and thermal stability), enzyme leakage, Ca2+ and salt concentration effects were evaluated for immobilized amylase and compared with its free form. Ca2+ concentration of 1 mM shows an excellent impact on relative activity of amylase in its free and immobilized form. NaCl experiments indicated that 84% of amylase was covalently immobilized on activated chitosan beads. Further, the Michaelis–Menten kinetic coefficients, Km (~0.4mg/ml) and, Vmax(~227 U/mg Enzyme), point out strong affinity and high activity of immobilized enzyme
Keywords
Structural Characterization , Chitosan bead , Alpha Amylase , Covalent immobilization
Journal title
International Journal of Engineering
Record number
2502770
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