2011
DOI: 10.1007/s12010-011-9385-x
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Endo-inulinase Stabilization by Pyridoxal Phosphate Modification: A Kinetics, Thermodynamics, and Simulation Approach

Abstract: The structural and storage and functional thermostabilization of endo-inulinase (EC 3.2.1.7) through semi-rational modification of surface accessible lysine residues by pyridoxal-5'-phosphate (PLP) and ascorbate reduction have been explored. Improved stability was observed on modifications in the absence or presence of inulin, which indicates storage or functional thermostabilization, respectively. Comparisons have been made between non-modified and modified enzyme by the determination of Tm as an indicator of… Show more

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Cited by 13 publications
(6 citation statements)
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“…make the simulation of the PLP-modified inulinase, possible which proves the formation of the new contacts between covalently attached PLP-Lys381 with guanidinium group of Arg526 and the hydroxyl group of Ser376 as a result of modification which are considered to be the reason for improved thermostability of the plpmodified enzyme. In addition, the results of intramolecular interactions analysis of inulinase gained by docking approach after PLP-modification at the Lys381 using the LIGPLOT program proves the formation of new hydrogen bonds between the phosphate group of PLP and Arg526 and Ser376 as well (Torabizadeh et al, 2011). A significant improvement in the thermal stability of the enzyme after immobilization has already been reported (Catana et al, 2007;Bajpal & Margaritis, 1985;Kim et al, 1982;Wenling et al, 1999) which was so remarkable in the chemically modified inulinase compared to the native one.…”
Section: Resultsmentioning
confidence: 79%
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“…make the simulation of the PLP-modified inulinase, possible which proves the formation of the new contacts between covalently attached PLP-Lys381 with guanidinium group of Arg526 and the hydroxyl group of Ser376 as a result of modification which are considered to be the reason for improved thermostability of the plpmodified enzyme. In addition, the results of intramolecular interactions analysis of inulinase gained by docking approach after PLP-modification at the Lys381 using the LIGPLOT program proves the formation of new hydrogen bonds between the phosphate group of PLP and Arg526 and Ser376 as well (Torabizadeh et al, 2011). A significant improvement in the thermal stability of the enzyme after immobilization has already been reported (Catana et al, 2007;Bajpal & Margaritis, 1985;Kim et al, 1982;Wenling et al, 1999) which was so remarkable in the chemically modified inulinase compared to the native one.…”
Section: Resultsmentioning
confidence: 79%
“…The observed peak at 1720 cm -1 could represent the capture of CO2 on the sample surface which is mostly seen in functionalized silica particles (Kim et al, 2015) Specific activities of the inulinases, loaded on the nanoporous silica support were 1.42±0.21, 1.61±0.24, 3.52±0.15 and 3.78± 0.28 μmol.min -1 .mg -1 for free native, free modified, immobilized native and immobilized modified inulinases, respectively. Improvement in the specific activity following the adsimmobilization has also been reported by Nabati et al, 2011 andNorouzi et al, 2010. Preferential chemical modification of the non-catalytic domain of endo-inulinase to enhance the thermostability was done through semi-rational chemical modification of the accessible lysine residues by adding PLP to form Schiff bases, then reducing them by ascorbate (Torabizadeh et al, 2010;Torabizadeh et al, 2011). We have previously reported supporting results on the inulinase modification, including the increase in α-helix content and the melting temperature (Tm) using spectropolarimetric (CD) and calorimetric (DSC) methods in details (Torabizadeh et al, 2011;Shapiro et al, 1968).…”
Section: Resultsmentioning
confidence: 99%
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“…Inulinase (EC:3.2.1.7) is well-known hydrolytic biocatalyst that can produce a high level of pure fructose syrup from inulin by a one-step enzymatic process in contrast to uneconomical and hazardous acid hydrolysis, as well as, multi-step enzymatic starch breakdown by glucoamylase, glucose isomerase, α-amylase, and pullulanase [54,55]. Due to lower solubility and high microbial contamination of inulin in the water at room temperature, industrial-scale inulin hydrolysis needs to be executed at elevated temperatures for higher inulin substrate utilization due to the increased solubility [56]. Therefore, thermostable inulinases are desirable biocatalysts for the chemical and food industry.…”
Section: Biotransformation Of Inulin To High Fructose Syrupmentioning
confidence: 99%