Glucose biosensor based on immobilization of glucose oxidase on a carbon paste electrode modified with microsphere‐attached <scp>l</scp>‐glycine

Dönmez, Soner; Arslan, Fatma; Sarı, Nurşen; Özkan, Elvan Hasanoğlu; Arslan, Halit

doi:10.1002/bab.1533

Cited by 20 publications

(10 citation statements)

References 45 publications

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“…The optimum temperature values of the polymeric microspheres are also presented in Table . The enzyme activity is closely related to temperature activity . The optimum temperature was obtained at 30°C, for the free enzyme.…”

Section: Resultsmentioning

confidence: 66%

Novel polymeric microspheres: Synthesis, enzyme immobilization, antimutagenic activity, and antimicrobial evaluation against pathogenic microorganisms

Nartop

Demirel

Güleç

et al. 2019

J Biochem & Molecular Tox

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New polymeric microspheres containing azomethine (1a-1c and 2a-2c) were synthesized by condensation to compare the enzymatic properties of the enzyme glucose oxidase (GOx) and to investigate antimutagenic and antimicrobial activities.The polymeric microspheres were characterized by elemental analysis, infrared spectra (FT-IR), proton nuclear magnetic resonance spectra, thermal gravimetric analysis, and scanning electron microscopy analysis. The catalytic activity of the glucose oxidase enzyme follows Michaelis-Menten kinetics. Influence of temperature, reusability, and storage capacity of the free and immobilized glucose oxidase enzyme were investigated. It is determined that immobilized enzymes exhibit good storage stability and reusability. After immobilization of GOx in polymeric supports, the thermal stability of the enzyme increased and the maximum reaction rate (V max ) decreased. The activity of the immobilized enzymes was preserved even after 5 months. The antibacterial and antifungal activity of the polymeric microspheres were evaluated by well-diffusion method against some selected pathogenic microorganisms. The antimutagenic properties of all compounds were also examined against sodium azide in human lymphocyte cells by micronuclei and sister chromatid exchange tests. K E Y W O R D Santimicrobial property, antimutagenic effect, glucose oxidase, Polymeric microsphere, Pt 4+ -azomethine

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Section: Resultsmentioning

confidence: 66%

Novel polymeric microspheres: Synthesis, enzyme immobilization, antimutagenic activity, and antimicrobial evaluation against pathogenic microorganisms

Nartop

Demirel

Güleç

et al. 2019

J Biochem & Molecular Tox

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“…Most of the electrochemical biosensors are based on nanomaterials to enhance the signal amplification process. Gold nanoparticle, carbon nanotube, zeolite, silica, aluminum, graphene, and metallic oxide are the common nanomaterials used in electrochemical sensors to improve the electric activities and help to identify the various diseases at earlier stages 28,46–49 . Metallic and nonmetallic nano‐ and microparticles have a great potential in biosensor development.…”

Section: Biomarkers For Gestational Diabetes and Jaundicementioning

confidence: 99%

“…Gold nanoparticle, carbon nanotube, zeolite, silica, aluminum, graphene, and metallic oxide are the common nanomaterials used in electrochemical sensors to improve the electric activities and help to identify the various diseases at earlier stages. 28,[46][47][48][49] biomarkers. In particular, nanomaterial-modified electrode surface exhibits excellent electrocatalytic activity toward the process of glucose oxidation, which improves the detection strategy of glucose quantification.…”

Section: Electrochemical Sensormentioning

confidence: 99%

Biosensors and biomarkers for determining gestational diabetes mellitus and jaundice in children

Peng

Wang

Xiong

et al. 2021

Biotech and App Biochem

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Gestational diabetes and jaundice are the correlated diseases predominantly found in mother and newborn child. Jaundice is a neonatal complication with an increased risk when mother has gestational diabetes. Mothers with diabetes at an early stage of gestational age are at higher risk for hyperbilirubinemia (jaundice) and hypoglycemia. So, it is mandatory to monitor the condition of diabetes and jaundice during the pregnancy period for a healthy child and safest delivery. On the other hand, nanotechnology has displayed a rapid advancement that can be implemented to overcome these issues. The development of highperformance diagnosis using appropriate biomarkers provides their efficacy in the detection gestational diabetes and jaundice. This review covers the aspects from a fast-developing field to generate nanosensors in the nanosized dimensions for the applications to overcome these complications by coupling diagnostics with biomarkers. Further, the serum-based biomarkers have been discussed for these inborn complications and also the diagnosis with the current trend.

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“…Yet, PSI as a membrane protein-pigment complex is susceptible to degradation under unfavorable conditions and is unable to withstand freeze-thaw cycles or lyophilization without aggregation and/or loss of activity. Furthermore, the relatively small size of PSI and other membrane proteins are hindrances for ease of handling for biotechnology applications, and the ability to generate larger superstructures such as microspheres will allow for greater ease of handling and manipulation, such as addition or removal from reaction vessels, microfluidics devices, or novel electrode architectures [ [33] , [34] , [35] , [36] ]. However, many researchers in this field have focused on studying novel electrode materials and architectures including mesoporous inverse opal configurations to improve device performance and outputs [ 37 ].…”

Section: Introductionmentioning

confidence: 99%

Photosystem I integrated into mesoporous microspheres has enhanced stability and photoactivity in biohybrid solar cells

Teodor

Thal

Vijayakumar

et al. 2021

Materials Today Bio

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Isolated proteins, especially membrane proteins, are susceptible to aggregation and activity loss after purification. For therapeutics and biosensors usage, protein stability and longevity are especially important. It has been demonstrated that photosystem I (PSI) can be successfully integrated into biohybrid electronic devices to take advantage of its strong light-driven reducing potential (−1.2V vs. the Standard Hydrogen Electrode). Most devices utilize PSI isolated in a nanosize detergent micelle, which is difficult to visualize, quantitate, and manipulate. Isolated PSI is also susceptible to aggregation and/or loss of activity, especially after freeze/thaw cycles. CaCO 3 microspheres (CCMs) have been shown to be a robust method of protein encapsulation for industrial and pharmaceutical applications, increasing the stability and activity of the encapsulated protein. However, CCMs have not been utilized with any membrane protein(s) to date. Herein, we examine the encapsulation of detergent-solubilized PSI in CCMs yielding uniform, monodisperse, mesoporous microspheres. This study reports both the first encapsulation of a membrane protein and also the largest protein to date stabilized by CCMs. These microspheres retain their spectral properties and lumenal surface exposure and are active when integrated into hybrid biophotovoltaic devices. CCMs may be a robust yet simple solution for long-term storage of large membrane proteins, showing success for very large, multisubunit complexes like PSI.

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Glucose biosensor based on immobilization of glucose oxidase on a carbon paste electrode modified with microsphere‐attached l‐glycine

Cited by 20 publications

References 45 publications

Novel polymeric microspheres: Synthesis, enzyme immobilization, antimutagenic activity, and antimicrobial evaluation against pathogenic microorganisms

Novel polymeric microspheres: Synthesis, enzyme immobilization, antimutagenic activity, and antimicrobial evaluation against pathogenic microorganisms

Biosensors and biomarkers for determining gestational diabetes mellitus and jaundice in children

Photosystem I integrated into mesoporous microspheres has enhanced stability and photoactivity in biohybrid solar cells

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