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Journal of Sol-Gel Science and Technology

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01-05-2014 | Erratum

Erratum to: Preserving the activity of enzymes under harsh oxidizing conditions: sol–gel entrapped alkaline phosphatase exposed to bromine

2013 ISGS Lifetime Achievement Award

Authors: Hagit Frenkel-Mullerad, Racheli Ben-Knaz, David Avnir

Published in: Journal of Sol-Gel Science and Technology | Issue 2/2014

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Abstract

Chemically reactive sol–gel matrices hold the ability of protecting entrapped enzymes from destruction by external harsh chemicals. We show this concept by exposing alkaline phosphatase (AlP) to a strong oxidizing agent—bromine. In solution, AlP is immediately destroyed by this oxidant. When AlP was entrapped in hybrid silica sol–gel materials carrying double bonds, the reactivity of AlP was preserved after exposure to bromine under conditions which totally destroy it in solution. The matrices studied were vinylated and allylated silicas, and their protectability was compared to n-alkylated silicas and to silica itself. For instance, the reactivity of AlP entrapped in allylated silica after exposure to 25.6 mM bromine solution is 40 times higher than its reactivity when entrapped in pure silica; and in solution the enzyme is totally destroyed at this concentration. Molecular level mechanisms for these observations are proposed.

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Braun S, Rappoport S, Zusman R et al (1990) Biochemically active sol–gel glasses: the trapping of enzymes. Mater Lett 10:1–5CrossRef

Avnir D, Braun S, Lev O, Ottolenghit M (1994) Enzymes and other proteins entrapped in sol-gel materials. Chem Mater 6:1605–1614

Avnir D, Coradin T, Lev O, Livage J (2006) Recent bio-applications of sol–gel materials. J Mater Chem 16:1013CrossRef

Jin W, Brennan JD (2002) Properties and applications of proteins encapsulated within sol–gel derived materials. Anal Chim Acta 461:1–36CrossRef

Nguyen DT, Smit M, Dunn B, Zink JI (2002) Stabilization of creatine kinase encapsulated in silicate sol–gel materials and unusual temperature effects on its activity. Chem Mater 14:4300–4306

Yu J, Ju H (2002) Preparation of porous titania sol–gel matrix for immobilization of horseradish peroxidase by a vapor deposition method. Anal Chem 74:3579–3583CrossRef

Besanger TR, Chen Y, Deisingh AK et al (2003) Screening of inhibitors using enzymes entrapped in sol–gel-derived materials. Anal Chem 75:2382–2391CrossRef

Rutenberg A, Vinogradov VV, Avnir D (2013) Synthesis and enhanced thermal stability of albumins@alumina: towards injectable sol–gel materials. Chem Commun (Camb) 49:5636–5638CrossRef

Flora KK, Brennan JD (2001) Effect of matrix aging on the behavior of human serum albumin entrapped in a tetraethyl orthosilicate-derived glass. Chem Mater 13:4170–4179

10.

Chen Q, Kenausis GL, Heller A, et al (1998) Stability of oxidases immobilized in silica gels. 7863:4582–4585

11.

Zheng L, Flora K, Brennan JD, Protein SGM (1998) Improving the performance of a sol–gel-entrapped metal-binding protein by maximizing protein thermal stability before entrapment. Chem Mater 10:3974–3983

12.

Takahashi H, Li B, Sasaki T, et al (2000) Catalytic activity in organic solvents and stability of immobilized enzymes depend on the pore size and surface characteristics of mesoporous silica. Chem Mater 12:3301–3305

13.

Van Unen DJ, Engbersen JF, Reinhoudt DN (2001) Sol-gel immobilization of serine proteases for application in organic solvents. Biotechnol Bioeng 75:154–158CrossRef

14.

Wang P, Dai S, Waezsada SD et al (2001) Enzyme stabilization by covalent binding in nanoporous sol–gel glass for nonaqueous biocatalysis. Biotechnol Bioeng 74:249–255CrossRef

15.

Lloyd C, Eyring E (2000) Protecting heme enzyme peroxidase activity from H₂O₂ inactivation by sol-gel encapsulation. Langmuir 16:9092–9094

16.

Frenkel-Mullerad H, Avnir D (2005) Sol–gel materials as efficient enzyme protectors: preserving the activity of phosphatases under extreme ph conditions. J Am Chem Soc 127:8077–8081CrossRef

17.

Elimelch H, Avnir D (2012) Chemical reactivity of hybrid particles. RSC Adv 2:863CrossRef

18.

Boguslavskaya LS (1972) Preparation of vicinal difunctional compounds by the converted electrophilic halogenation of multiple bonds. Russ Chem Rev 41:740–749

19.

García Sánchez F, Navas Díaz A, Ramos Peinado M, Belledone C (2003) Free and sol–gel immobilized alkaline phosphatase-based biosensor for the determination of pesticides and inorganic compounds. Anal Chim Acta 484:45–51CrossRef

20.

Brinker C, Keefer K (1982) Sol-gel transition in simple silicates. J Non Cryst 48:47–64CrossRef

21.

McComb RB Jr, Bowers GN, Posen S (1979) Alkaline phosphatase. Springer, BerlinCrossRef

22.

Frenkel-mullerad H, Avnir D (2000) The chemical reactivity of sol–gel materials: hydrobromination of ormosils. Chem Mater 12:3754–3759

Title: Erratum to: Preserving the activity of enzymes under harsh oxidizing conditions: sol–gel entrapped alkaline phosphatase exposed to bromine
2013 ISGS Lifetime Achievement Award
Authors: Hagit Frenkel-Mullerad
Racheli Ben-Knaz
David Avnir
Publication date: 01-05-2014
Publisher: Springer US
Published in: Journal of Sol-Gel Science and Technology / Issue 2/2014
Print ISSN: 0928-0707
Electronic ISSN: 1573-4846
DOI: https://doi.org/10.1007/s10971-014-3348-y

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