Ognjanovic, Milos

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9ed94732-0a9a-43ba-86f4-6832354e4edb
  • Ognjanovic, Milos (1)
  • Ognjanović, Miloš (1)
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Author's Bibliography

Chemical Modification of Glycoproteins' Carbohydrate Moiety as a General Strategy for the Synthesis of Efficient Biocatalysts by Biomimetic Mineralization: The Case of Glucose Oxidase

Stanisic, Marija D.; Popovic Kokar, Nikolina; Ristic, Predrag; Balaz, Ana Marija; Sencanski, Milan; Ognjanovic, Milos; Đokić, Veljko; Prodanovic, Radivoje; Todorovic, Tamara R.

(2021) 

TY  - JOUR
AU  - Stanisic, Marija D.
AU  - Popovic Kokar, Nikolina
AU  - Ristic, Predrag
AU  - Balaz, Ana Marija
AU  - Sencanski, Milan
AU  - Ognjanovic, Milos
AU  - Đokić, Veljko
AU  - Prodanovic, Radivoje
AU  - Todorovic, Tamara R.
PY  - 2021
UR  - http://TechnoRep.tmf.bg.ac.rs/handle/123456789/4817
AB  - Zeolitic imidazolate framework-8 (ZIF-8) is widely used as a protective coating to encapsulate proteins via biomimetic mineralization. The formation of nucleation centers and further biocomposite crystal growth is entirely governed by the pure electrostatic interactions between the protein's surface and the positively charged Zn(II) metal ions. It was previously shown that enhancing these electrostatic interactions by a chemical modification of surface amino acid residues can lead to a rapid biocomposite crystal formation. However, a chemical modification of carbohydrate components by periodate oxidation for glycoproteins can serve as an alternative strategy. In the present study, an industrially important enzyme glucose oxidase (GOx) was selected as a model system. Periodate oxidation of GOx by 2.5 mM sodium periodate increased negative charge on the enzyme molecule, from -10.2 to -36.9 mV, as shown by zeta potential measurements and native PAGE electrophoresis. Biomineralization experiments with oxidized GOx resulted in higher specific activity, effectiveness factor, and higher thermostability of the ZIF-8 biocomposites. Periodate oxidation of carbohydrate components for glycoproteins can serve as a facile and general method for facilitating the biomimetic mineralization of other industrially relevant glycoproteins.
T2  - Polymers
T1  - Chemical Modification of Glycoproteins' Carbohydrate Moiety as a General Strategy for the Synthesis of Efficient Biocatalysts by Biomimetic Mineralization: The Case of Glucose Oxidase
EP  - 3875
IS  - 22
VL  - 13
DO  - 10.3390/polym13223875
ER  - 
@article{
author = "Stanisic, Marija D. and Popovic Kokar, Nikolina and Ristic, Predrag and Balaz, Ana Marija and Sencanski, Milan and Ognjanovic, Milos and Đokić, Veljko and Prodanovic, Radivoje and Todorovic, Tamara R.",
year = "2021",
abstract = "Zeolitic imidazolate framework-8 (ZIF-8) is widely used as a protective coating to encapsulate proteins via biomimetic mineralization. The formation of nucleation centers and further biocomposite crystal growth is entirely governed by the pure electrostatic interactions between the protein's surface and the positively charged Zn(II) metal ions. It was previously shown that enhancing these electrostatic interactions by a chemical modification of surface amino acid residues can lead to a rapid biocomposite crystal formation. However, a chemical modification of carbohydrate components by periodate oxidation for glycoproteins can serve as an alternative strategy. In the present study, an industrially important enzyme glucose oxidase (GOx) was selected as a model system. Periodate oxidation of GOx by 2.5 mM sodium periodate increased negative charge on the enzyme molecule, from -10.2 to -36.9 mV, as shown by zeta potential measurements and native PAGE electrophoresis. Biomineralization experiments with oxidized GOx resulted in higher specific activity, effectiveness factor, and higher thermostability of the ZIF-8 biocomposites. Periodate oxidation of carbohydrate components for glycoproteins can serve as a facile and general method for facilitating the biomimetic mineralization of other industrially relevant glycoproteins.",
journal = "Polymers",
title = "Chemical Modification of Glycoproteins' Carbohydrate Moiety as a General Strategy for the Synthesis of Efficient Biocatalysts by Biomimetic Mineralization: The Case of Glucose Oxidase",
pages = "3875",
number = "22",
volume = "13",
doi = "10.3390/polym13223875"
}
Stanisic, M. D., Popovic Kokar, N., Ristic, P., Balaz, A. M., Sencanski, M., Ognjanovic, M., Đokić, V., Prodanovic, R.,& Todorovic, T. R.. (2021). Chemical Modification of Glycoproteins' Carbohydrate Moiety as a General Strategy for the Synthesis of Efficient Biocatalysts by Biomimetic Mineralization: The Case of Glucose Oxidase. in Polymers, 13(22).
https://doi.org/10.3390/polym13223875
Stanisic MD, Popovic Kokar N, Ristic P, Balaz AM, Sencanski M, Ognjanovic M, Đokić V, Prodanovic R, Todorovic TR. Chemical Modification of Glycoproteins' Carbohydrate Moiety as a General Strategy for the Synthesis of Efficient Biocatalysts by Biomimetic Mineralization: The Case of Glucose Oxidase. in Polymers. 2021;13(22):null-3875.
doi:10.3390/polym13223875 .
Stanisic, Marija D., Popovic Kokar, Nikolina, Ristic, Predrag, Balaz, Ana Marija, Sencanski, Milan, Ognjanovic, Milos, Đokić, Veljko, Prodanovic, Radivoje, Todorovic, Tamara R., "Chemical Modification of Glycoproteins' Carbohydrate Moiety as a General Strategy for the Synthesis of Efficient Biocatalysts by Biomimetic Mineralization: The Case of Glucose Oxidase" in Polymers, 13, no. 22 (2021),
https://doi.org/10.3390/polym13223875 . .
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Sponge-like europium oxide from hollow carbon sphere as a template for an anode material for Reactive Blue 52 electrochemical degradation

Stanković, Dalibor M.; Kukuruzar, Andrej; Savić, Slađana; Ognjanović, Miloš; Janković-Častvan, Ivona; Roglić, Goran; Antić, Bratislav; Manojlović, Dragan; Dojčinović, Biljana

(2021) 

TY  - JOUR
AU  - Stanković, Dalibor M.
AU  - Kukuruzar, Andrej
AU  - Savić, Slađana
AU  - Ognjanović, Miloš
AU  - Janković-Častvan, Ivona
AU  - Roglić, Goran
AU  - Antić, Bratislav
AU  - Manojlović, Dragan
AU  - Dojčinović, Biljana
PY  - 2021
UR  - http://TechnoRep.tmf.bg.ac.rs/handle/123456789/4775
AB  - The textile industry is one of the major pollutants of waterbodies with effluents high in biochemical and chemical oxygen demand values, high values of total dissolved solids, total suspended solids, and low dissolved oxygen values along with strong color. The existence of a successful method for its decontamination would be beneficial. In this work, we synthesized sponge-like europium oxide (Eu2O3) using a template-directed route from carbon hollow spheres, obtained from glucose as a carbon source. The material synthesis method was done in an aqueous environment, without using any organic solvents. Electrochemical properties of the synthesized material were investigated using cyclic voltammetry and electrical impedance spectroscopy, while morphological characterization was done using scanning electron microscopy and X-ray powder diffraction analysis. Eu2O3 were successfully immobilized at the surface of a screen-printed carbon electrode (Eu2O3/SPCE) using the drop-casting method. Finally, the prepared electrodes were tested toward the removal of Reactive Blue 52 (RB52) using electrochemical advanced oxidation processes (EAOPs). Important parameters, that is, the supporting electrolyte, its concentration, pH value, and the applied voltage, were optimized for RB52 degradation. The rate of removal was monitored spectrophotometrically and by high-performance liquid chromatography with a diode array detector (HPLC-DAD). It was found that the proposed approach reaches complete decolorization of the RB52 solution after a 60-min treatment, at pH 5.6 of KC1 supporting electrolyte at a concentration of 0.05 M. Under optimal parameters, after 3 h of treatment, total organic carbon (TOC) was lowered by similar to 40%. The obtained results indicate that the proposed method may find potential application in EAOPs, considering electrode stability, durability, and efficiency and simplicity of the method.
T2  - Materials Chemistry and Physics
T1  - Sponge-like europium oxide from hollow carbon sphere as a template for an anode material for Reactive Blue 52 electrochemical degradation
VL  - 273
DO  - 10.1016/j.matchemphys.2021.125154
ER  - 
@article{
author = "Stanković, Dalibor M. and Kukuruzar, Andrej and Savić, Slađana and Ognjanović, Miloš and Janković-Častvan, Ivona and Roglić, Goran and Antić, Bratislav and Manojlović, Dragan and Dojčinović, Biljana",
year = "2021",
abstract = "The textile industry is one of the major pollutants of waterbodies with effluents high in biochemical and chemical oxygen demand values, high values of total dissolved solids, total suspended solids, and low dissolved oxygen values along with strong color. The existence of a successful method for its decontamination would be beneficial. In this work, we synthesized sponge-like europium oxide (Eu2O3) using a template-directed route from carbon hollow spheres, obtained from glucose as a carbon source. The material synthesis method was done in an aqueous environment, without using any organic solvents. Electrochemical properties of the synthesized material were investigated using cyclic voltammetry and electrical impedance spectroscopy, while morphological characterization was done using scanning electron microscopy and X-ray powder diffraction analysis. Eu2O3 were successfully immobilized at the surface of a screen-printed carbon electrode (Eu2O3/SPCE) using the drop-casting method. Finally, the prepared electrodes were tested toward the removal of Reactive Blue 52 (RB52) using electrochemical advanced oxidation processes (EAOPs). Important parameters, that is, the supporting electrolyte, its concentration, pH value, and the applied voltage, were optimized for RB52 degradation. The rate of removal was monitored spectrophotometrically and by high-performance liquid chromatography with a diode array detector (HPLC-DAD). It was found that the proposed approach reaches complete decolorization of the RB52 solution after a 60-min treatment, at pH 5.6 of KC1 supporting electrolyte at a concentration of 0.05 M. Under optimal parameters, after 3 h of treatment, total organic carbon (TOC) was lowered by similar to 40%. The obtained results indicate that the proposed method may find potential application in EAOPs, considering electrode stability, durability, and efficiency and simplicity of the method.",
journal = "Materials Chemistry and Physics",
title = "Sponge-like europium oxide from hollow carbon sphere as a template for an anode material for Reactive Blue 52 electrochemical degradation",
volume = "273",
doi = "10.1016/j.matchemphys.2021.125154"
}
Stanković, D. M., Kukuruzar, A., Savić, S., Ognjanović, M., Janković-Častvan, I., Roglić, G., Antić, B., Manojlović, D.,& Dojčinović, B.. (2021). Sponge-like europium oxide from hollow carbon sphere as a template for an anode material for Reactive Blue 52 electrochemical degradation. in Materials Chemistry and Physics, 273.
https://doi.org/10.1016/j.matchemphys.2021.125154
Stanković DM, Kukuruzar A, Savić S, Ognjanović M, Janković-Častvan I, Roglić G, Antić B, Manojlović D, Dojčinović B. Sponge-like europium oxide from hollow carbon sphere as a template for an anode material for Reactive Blue 52 electrochemical degradation. in Materials Chemistry and Physics. 2021;273.
doi:10.1016/j.matchemphys.2021.125154 .
Stanković, Dalibor M., Kukuruzar, Andrej, Savić, Slađana, Ognjanović, Miloš, Janković-Častvan, Ivona, Roglić, Goran, Antić, Bratislav, Manojlović, Dragan, Dojčinović, Biljana, "Sponge-like europium oxide from hollow carbon sphere as a template for an anode material for Reactive Blue 52 electrochemical degradation" in Materials Chemistry and Physics, 273 (2021),
https://doi.org/10.1016/j.matchemphys.2021.125154 . .
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