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Biocatalysis and Biotransformation Volume 38, 2020 - Issue 5
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Research Articles

Preparation and characterization of amino and carboxyl functionalized core-shell Fe3O4/SiO2 for L-asparaginase immobilization: A comparison study

Samir Abbas Ali NomaDepartment of Chemistry, Science and Literature Faculty, İnönü University, Malatya, Turkey
,
Ahmet UluDepartment of Chemistry, Science and Literature Faculty, İnönü University, Malatya, TurkeyCorrespondence[email protected]
,
Suleyman KoytepeDepartment of Chemistry, Science and Literature Faculty, İnönü University, Malatya, Turkey
&
Burhan AteşDepartment of Chemistry, Science and Literature Faculty, İnönü University, Malatya, Turkey
Pages 392-404 | Received 04 Jan 2020, Accepted 01 May 2020, Published online: 19 May 2020

References

  • Agrawal S, Kango N. 2019. Development and catalytic characterization of L-asparaginase nano-bioconjugates. Int J Biol Macromol. 135:1142–1150.
  • Ali Khan A, Alzohairy MA. 2010. Recent advances and applications of immobilized enzyme technologies: a review. Res J Biol Sci. 5(8):565–575.
  • Anwar MZ, Kim DJ, Kumar A, Patel SKS, Otari S, Mardina P, Jeong JH, Sohn JH, Kim JH, Park JT, Lee JK. 2017. SnO2 hollow nanotubes: a novel and efficient support matrix for enzyme immobilization. Sci Rep. 7(1):15333.
  • Benrabha AMF, Tay KS. 2019. Room temperature silanization of Fe3O4 for the preparation of phenyl functionalized magnetic adsorbent for dispersive solid phase extraction for the extraction of phthalates in water. Green Process Synth. 8(1):54–61.
  • Bilal M, Zhao Y, Rasheed T, Iqbal H. 2018. Magnetic nanoparticles as versatile carriers for enzymes immobilization: a review. Int J Biol Macromol. 120(Pt B):2530–2254.
  • Cai Z, Wei Y, Wu M, Guo Y, Xie Y, Tao R, Ruiqi L, Pengguang W, Ma A, Zhang H. 2019. Lipase immobilized on layer-by-layer polysaccharide-coated Fe3O4@SiO2 microspheres as a reusable biocatalyst for the production of structured lipids. ACS Sustainable Chem Eng. 7(7):6685–6695.
  • Chen J, Leng J, Yang X, Liao L, Liu L, Xiao A. 2017. Enhanced performance of magnetic graphene oxide-immobilized laccase and its application for the decolorization of dyes. Molecules. 22(2):221.
  • Chi Y, Yuan Q, Li Y, Tu J, Zhao L, Li N, Li X. 2012. Synthesis of Fe3O4@SiO2-Ag magnetic nanocomposite based on small-sized and highly dispersed silver nanoparticles for catalytic reduction of 4-nitrophenol. J Colloid Interface Sci. 383(1):96–102.
  • Datta S, Christena LR, Rajaram Y. 2013. Enzyme immobilization: an overview on techniques and support materials. 3 Biotech. 3(1):1–9.
  • Ding HL, Zhang YX, Wang S, Xu JM, Xu SC, Li GH. 2012. Fe3O4@SiO2 core/shell nanoparticles: The silica coating regulations with a single core for different core sizes and shell thicknesses. Chem Mater. 24(23):4572–4580.
  • Erdogan A, Koytepe S, Ates B, Yilmaz I, Seckin T. 2014. Preparation of the L-asparaginase-based biosensor with polyimide membrane electrode for monitoring L-asparagine levels in leukemia. Int J Polym Mater. 63(17):909–917.
  • Gao J, Lu CL, Wang Y, Wang SS, Shen JJ, Zhang JX, Zhang YW. 2018. Rapid immobilization of cellulase onto graphene oxide with a hydrophobic spacer. Catalysts. 8(5):180.
  • Ghasemzadeh MA, Abdollahi-Basir MH, Babaei M. 2015. Fe3O4@SiO2–NH2 core-shell nanocomposite as an efficient and green catalyst for the multi-component synthesis of highly substituted chromeno[2,3-b]pyridines in aqueous ethanol media. Green Chem Lett Rev. 8(3-4):40–49.
  • Guo H, Wang W, Zhou F. 2019. Fast and highly selective separation of His-tagged proteins by Ni2+-carrying magnetic core–shell nanoparticles. Appl Phys A. 125:334.
  • Guzik U, Hupert-Kocurek K, Wojcieszyńska D. 2014. Immobilization as a strategy for improving enzyme properties-application to oxidoreductases. Molecules. 19(7):8995–9018.
  • Homaei AA, Sariri R, Vianello F, Stevanato R. 2013. Enzyme immobilization: an update. J Chem Biol. 6(4):185–205.
  • Horvat TZ, Pecoraro JJ, Daley RJ, Buie LW, King AC, Rampal RK, Tallman MS, Park JH, Douer D. 2016. The use of Erwinia asparaginase for adult patients with acute lymphoblastic leukemia after pegaspargase intolerance. Leuk Res. 50:17–20.
  • Hou S, Li X, Wang H, Wang M, Zhang Y, Chi Y, Zhao Z. 2017. Synthesis of core–shell structured magnetic mesoporous silica microspheres with accessible carboxyl functionalized surfaces and radially oriented large mesopores as adsorbents for the removal of heavy metal ions. RSC Adv. 7(82):51993–52000.
  • Hu C, Yang Z, Yan F, Sun B. 2019. Extraction of the toluene exposure biomarkers hippuric acid and methylhippuric acid using a magnetic molecularly imprinted polymer, and their quantitation by LC-MS/MS. Mikrochim Acta. 186(3):135.
  • Hui C, Shen C, Tian J, Bao L, Ding H, Li C, Tian Y, Shi X, Gao HJ. 2011. Core-shell Fe3O4@SiO2 nanoparticles synthesized with well-dispersed hydrophilic Fe3O4 seeds. Nanoscale. 3(2):701–705.
  • Izadpanah F, Homaei A, Fernandes P, Javadpour S. 2018. Marine microbial L-asparaginase: Biochemistry, molecular approaches and applications in tumor therapy and in food industry. Microbiol Res. 208:99–112.
  • Khaledyan E, Alizadeh K, Mansourpanah Y. 2019. Synthesis of magnetic nanocomposite core–shell Fe3O4@MCM-41-NH2 and its application for removal of Congo red from aqueous solutions. Iran J Sci Technol Trans Sci. 43(3):801–811.
  • Lin J, Wen Q, Chen S, Le X, Zhou X, Huang L. 2017. Synthesis of amine-functionalized Fe3O4@C nanoparticles for laccase immobilization. Int J Biol Macromol. 96:377–383.
  • Liu W, Zhu Y, Wang F, Li X, Liu X, Pang J, Pan W. 2018. Galactosylated chitosan-functionalized mesoporous silica nanoparticles for efficient colon cancer cell-targeted drug delivery. R Soc Open Sci. 5(12):181027.
  • Meena B, Anburajan L, Dheenan PS, Begum M, Vinithkumar NV, Dharani G, Kirubagaran R. 2015. Novel glutaminase free L-asparaginase from Nocardiopsis alba NIOT-VKMA08: Production, optimization, functional and molecular characterization. Bioprocess Biosyst Eng. 38(2):373–388.
  • Mohamad NR, Marzuki NHC, Buang NA, Huyop F, Wahab RA. 2015. An overview of technologies for immobilization of enzymes and surface analysis techniques for immobilized enzymes. Biotechnol Biotechnol Equip. 29(2):205–220.
  • Monajati M, Borandeh S, Hesami A, Mansouri D, Tamaddon AM. 2018. Immobilization of L-asparaginase on aspartic acid functionalized graphene oxide nanosheet: enzyme kinetics and stability studies. Chem Eng J. 354:1153–1163.
  • Pasandideh EK, Kakavandi B, Nasseri S, Mahvi AH, Nabizadeh R, Esrafili A, Kalantary RR. 2016. Silica-coated magnetite nanoparticles core-shell spheres (Fe3O4@SiO2) for natural organic matter removal. J Environ Health Sci Eng. 14:21.
  • Pedreschi F, Kaack K, Granby K. 2008. The effect of asparaginase on acrylamide formation in French fries. Food Chem. 109(2):386–392.
  • Rehm FBH, Chen S, Rehm B. 2016. Enzyme engineering for in situ immobilization. Molecules. 21(10):1370.
  • Ribeiro LMO, Falleiros L, de Resende MM, Ribeiro EJ, Almeida R, da Silva A. 2019. Immobilization of the enzyme invertase in SBA-15 with surfaces functionalized by different organic compounds. J Porous Mater. 26(1):77–89.
  • Robinson PK. 2015. Enzymes: principles and biotechnological applications. Essays Biochem. 59:1–41.
  • Santos MPF, Brito MJP, Junior ECS, Bonomo RCF, Veloso CM. 2019. Pepsin immobilization on biochar by adsorption and covalent binding, and its application for hydrolysis of bovine casein. J Chem Technol Biotechnol. 94(6):1982–1990.
  • Shan Z, Yang WS, Zhang X, Huang QM, Ye H. 2007. Preparation and characterization of carboxyl-group functionalized superparamagnetic nanoparticles and the potential for bio-applications. J Braz Chem Soc. 18(7):1329–1335.
  • Singh RK, Tiwari MK, Singh R, Lee JK. 2013. From protein engineering to immobilization: Promising strategies for the upgrade of industrial enzymes. Int J Mol Sci. 14(1):1232–1277.
  • Sun L, Hu S, Sun H, Guo H, Zhu H, Liu M, Sun H. 2015. Malachite green adsorption onto Fe3O4@SiO2-NH2 : isotherms, kinetic and process optimization. RSC Adv. 5(16):11837–11844.
  • Ulu A, Koytepe S, Ates B. 2016. Synthesis and characterization of PMMA composites activated with starch for immobilization of L-asparaginase. J Appl Polym Sci. 133(19):43421.
  • Ulu A, Noma SAA, Koytepe S, Ates B. 2019. Chloro-modified magnetic Fe3O4@MCM-41 core–shell nanoparticles for L-asparaginase immobilization with improved catalytic activity, reusability, and storage stability. Appl Biochem Biotechnol. 187(3):938–956.
  • Wang Q, Peng L, Du Y, Xu J, Cai Y, Feng Q, Huang F, Wei Q. 2013. Fabrication of hydrophilic nanoporous PMMA/O-MMT composite microfibrous membrane and its use in enzyme immobilization. J Porous Mater. 20(3):457–464.
  • Wang Y, Wang L, Tian T, Hu X, Yang C, Xu Q. 2012. Automated solid-phase extraction hyphenated to voltammetry for the determination of quercetin using magnetic nanoparticles and sequential injection lab-on-valve approach. Analyst. 137(10):2400–2405.
  • Wang J, Zheng S, Shao Y, Liu J, Xu Z, Zhu D. 2010. Amino-functionalized Fe3O4@SiO2 core-shell magnetic nanomaterial as a novel adsorbent for aqueous heavy metals removal. J Colloid Interface Sci. 349(1):293–299.
  • Xu MQ, Li FL, Yu WQ, Li RF, Zhang YW. 2020. Combined cross-linked enzyme aggregates of glycerol dehydrogenase and NADH oxidase for high efficiency in situ NAD + regeneration. Int J Biol Macromol. 144:1013–1021.
  • Xu MQ, Wang SS, Li LN, Gao J, Zhang YW. 2018. Combined cross-linked enzyme aggregates as biocatalysts. Catalysts. 8(10):460.
  • Xu YQ, Zhou GW, Wu CC, Li TD, Song HB. 2011. Improving adsorption and activation of the lipase immobilized in amino-functionalized ordered mesoporous SBA-15. Solid State Sci. 13(5):867–874.
  • Zdarta J, Meyer A, Jesionowski T, Pinelo M. 2018. A general overview of support materials for enzyme immobilization: characteristics, properties, practical utility. Catalysts. 8(2):92.
  • Zhang L, Sun Y. 2018. Poly(carboxybetaine methacrylate)-grafted silica nanoparticle: A novel carrier for enzyme immobilization. Biochem Eng J. 132:122–129.
  • Zhao XS, Bao XY, Guo W, Lee FY. 2006. Immobilizing catalysts on porous materials. Mater. Today. 9(3):32–39.
  • Zhao J, Niu Y, Ren B, Chen H, Zhang S, Jin J, Zhang Y. 2018. Synthesis of Schiff base functionalized superparamagnetic Fe3O4 composites for effective removal of Pb(II) and Cd(II) from aqueous solution. Chem Eng J. 347:574–584.

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