Maria Pilar scite author profile

Neutrase, a commercial preparation of Bacillus subtilis , was covalently immobilized on alginate-glutaraldehyde beads. Immobilization conditions and characterization of the immobilized enzyme were investigated. Central composite design and response surface methods were employed to evaluate the effects of immobilization parameters, such as glutaraldehyde concentration, enzyme loading, immobilization pH, and immobilization time. Under optimized working conditions (2% alginate, 6.2% glutaraldehyde, 61.84 U mL(-1) Neutrase, pH 6.2, and 60 min) the immobilization yield was about 50%. The immobilized enzyme exhibited higher K(m) compared to the soluble enzyme. The pH-activity profile was widened upon immobilization. The optimum temperature was shifted from 50 to 60 degrees C, and the apparent activation energy was decreased from 47.7 to 22.0 kJ mol(-1) by immobilization. The immobilized enzyme also showed significantly enhanced thermal stability.

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Alkaline Phosphatase−Polyresorcinol Complex: Characterization and Application to Seed Coating

Pilar

Ortega

Pérez-Mateos

et al. 2009

J. Agric. Food Chem.

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An alkaline phosphatase (EC 3.1.3.1) from Escherichia coli ATCC27257 was immobilized by copolymerization with resorcinol. The phosphatase-polyresorcinol complex synthesized retained about 74% of the original enzymatic activity. The pH and temperature profile of the immobilized and free enzyme revealed a similar behavior. Kinetic parameters were determined: K(m) and K(i) values were 2.44 and 0.423 mM, respectively, for the phosphatase-polyresorcinol complex and 1.07 and 0.069 mM, respectively, for free phosphatase. The thermal and storage stabilities of the immobilized phosphatase were higher than those of the native one. On addition to soil, free enzyme was completely inactivated in 4 days, whereas the phosphatase-polyresorcinol complex was comparatively stable. Barley seed coated with the immobilized enzyme exhibited higher rhizosphere phosphatase activity. Under pot culture conditions, an increase in the soil inorganic phosphorus was detected when the seed was encapsulated with the phosphatase-polyresorcinol complex, and a positive influence on biomass and inorganic phosphorus concentration of shoot was observed.

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Kinetic behaviour and stability of Escherichia coli ATCC27257 alkaline phosphatase immobilised in soil humates

et al. 2003

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Alkaline phosphatase (EC 3.1.3.1) extracted from Escherichia coli ATCC27257 was immobilised by co-flocculation with soil humates in the presence of Ca 2þ . The effects of time, temperature, pH and concentration of enzyme and support on immobilisation were studied. Between 58 and 92% of the added phosphatase was strongly bound to the humates, depending on the conditions of immobilisation used. Some characteristics of the humate-phosphatase complexes and of the free enzyme were compared. The enzymatic complexes showed values of K m (2.22 mM) and activation energy (33.4 kJ mol À1 ) similar to those of the free enzyme (2.00 mM and 27.6 kJ mol À1 ). The pH/activity profiles revealed no change in terms of shape or optimum pH (10.5) upon immobilisation of alkaline phosphatase. However, the immobilised enzyme showed maximal activity in the range of 80-100°C, while the free enzyme had its highest activity at 60°C. The thermal stability of alkaline phosphatase was enhanced by complexation to the soil humates.

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Operational stability of immobilized Rhodococcus fascians cells in PVA–PEG cryogels and calcium alginate hollow beads during debittering of orange juice

et al. 2009

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Maria Pilar

Neutrase Immobilization on Alginate−Glutaraldehyde Beads by Covalent Attachment

Alkaline Phosphatase−Polyresorcinol Complex: Characterization and Application to Seed Coating

Kinetic behaviour and stability of Escherichia coli ATCC27257 alkaline phosphatase immobilised in soil humates

Operational stability of immobilized Rhodococcus fascians cells in PVA–PEG cryogels and calcium alginate hollow beads during debittering of orange juice

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