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Multipoint Immobilization at Inert Center of Papain on Homo-Functional Diazo-Activated Silica Support: A Way of Restoring “Above Room-Temperature” Bio-Catalytic Sustainability

Shailja Mishra, Biswajit Hansda, Ankit Ghosh, Sneha Mondal, Bhabatosh Mandal, Pallavi Kumari, Basudev Das, Tanay Kumar Mondal, Tirtha Biswas

2023Langmuir14 citationsDOI

Abstract

Although enzymes play a significant role in industrial applications, their potential usage at high-level efficiency, particularly above room temperature, has not yet been fully harnessed. It brings above room-temperature catalytic sustainability of an immobilized (imm.) bio-catalyst as a long pending issue to improve enzyme stability, activity, specificity, or selectivity, particularly the enantio-selectivity over the native-enzymes. At this juncture, in a robust methodology, a heterogeneous solid phase bio-catalyst, {Si(OSi) 4 (H 2 O) 1.03 } n =328 {OSi(CH 3 ) 2 –NH–C 6 H 4 –N═N} 4 {papain}(H 2 O) 251, has efficiently been prepared by immobilizing papain on homo-functionalized SG (silica-gel) via multipoint covalent attachment. The bio-catalyst is easy to be recovered and reused multiple times. The homo-functional −N═N +, which appears on the SG-surface, makes the multipoint diazo-links with the inert center of the tyrosine-moiety to couple the enzyme where all the amino, thiol, phenol, and so forth, groups of the protein, including those that belong to the active-site, remain intact. The immobilized enzyme (13.9 μmol g –1 ) swims in pore-water within the pore-channel, remains stable up to 70 ± 5 °C, and exhibits wider temperature adaptability in performing its hydrolyzing activities. The relative activity, 78 ± 2% at 27 °C, remains quantitative for 60 days and can be reused for 60 cycles with 53% activity at room-temperature. The thermal (relative activity: 87%; incubated at 70 ± 5 °C for 24 h) and mechanical (relative activity: 92%; incubated at 2500 rpm for 2 h at 27 °C) stability was outstanding.

Topics & Concepts

InertDiazoCatalysisPapainCenter (category theory)ChemistryChemical engineeringMaterials scienceOrganic chemistryEngineeringCrystallographyEnzymeEnzyme Catalysis and ImmobilizationCatalysis for Biomass Conversionbiodegradable polymer synthesis and properties
Multipoint Immobilization at Inert Center of Papain on Homo-Functional Diazo-Activated Silica Support: A Way of Restoring “Above Room-Temperature” Bio-Catalytic Sustainability | Litcius