The principles of green chemistry encourage simple and eco-friendly approaches,
using various enzymes for different industries, such as fine chemicals productions
and water treatments. To increase operational stability of enzymes, different immobilization techniques must be employed in preparation of highly active
biocatalysts. Entrapment of enzymes within a polymer matrix is the simplest immobilization method. Properties, such as size
of beads, porosity, enzyme leakage degree,
and stability are optimized through alginate and calcium concentrations and the
use of cross-linking agents.
Alginate beads were prepared in calcium chloride and later on activated using
cross-linking agent glutaraldehyde (GA),
where GA concentration and time of activation were optimized. Such GA-activated
alginate beads were further immobilized
with laccase, where the time of immobilization was optimized. Immobilization efficiency and residual activity were determined after optimization protocol,
re...sulting in 97 % and 88 %, respectively.
Results indicate that laccase can be immobilized onto alginate beads and their residual activity can be improved by varying
the GA concentration for beads’ activation. Such GA-activated alginate beads can
be successfully used for laccase immobilization for further applications.
Source:
Book of Abstracts- Chemie Ingenieur Technik, 2022, 94, 9, 1266-
TY - CONF
AU - Vasić, Katja
AU - Ilić, Nevena
AU - Mihajlovski, Katarina
AU - Dimitrijević-Branković, Suzana
AU - Knez, Željko
AU - Leitgeb, Maja
PY - 2022
UR - http://TechnoRep.tmf.bg.ac.rs/handle/123456789/5941
AB - The principles of green chemistry encourage simple and eco-friendly approaches,
using various enzymes for different industries, such as fine chemicals productions
and water treatments. To increase operational stability of enzymes, different immobilization techniques must be employed in preparation of highly active
biocatalysts. Entrapment of enzymes within a polymer matrix is the simplest immobilization method. Properties, such as size
of beads, porosity, enzyme leakage degree,
and stability are optimized through alginate and calcium concentrations and the
use of cross-linking agents.
Alginate beads were prepared in calcium chloride and later on activated using
cross-linking agent glutaraldehyde (GA),
where GA concentration and time of activation were optimized. Such GA-activated
alginate beads were further immobilized
with laccase, where the time of immobilization was optimized. Immobilization efficiency and residual activity were determined after optimization protocol,
resulting in 97 % and 88 %, respectively.
Results indicate that laccase can be immobilized onto alginate beads and their residual activity can be improved by varying
the GA concentration for beads’ activation. Such GA-activated alginate beads can
be successfully used for laccase immobilization for further applications.
PB - Wiley
C3 - Book of Abstracts- Chemie Ingenieur Technik
T1 - Immobilization of laccase onto sodium alginate beads activated with glutaraldehyde
IS - 9
SP - 1266
VL - 94
DO - 10.1002/cite.202255288
ER -
@conference{
author = "Vasić, Katja and Ilić, Nevena and Mihajlovski, Katarina and Dimitrijević-Branković, Suzana and Knez, Željko and Leitgeb, Maja",
year = "2022",
abstract = "The principles of green chemistry encourage simple and eco-friendly approaches,
using various enzymes for different industries, such as fine chemicals productions
and water treatments. To increase operational stability of enzymes, different immobilization techniques must be employed in preparation of highly active
biocatalysts. Entrapment of enzymes within a polymer matrix is the simplest immobilization method. Properties, such as size
of beads, porosity, enzyme leakage degree,
and stability are optimized through alginate and calcium concentrations and the
use of cross-linking agents.
Alginate beads were prepared in calcium chloride and later on activated using
cross-linking agent glutaraldehyde (GA),
where GA concentration and time of activation were optimized. Such GA-activated
alginate beads were further immobilized
with laccase, where the time of immobilization was optimized. Immobilization efficiency and residual activity were determined after optimization protocol,
resulting in 97 % and 88 %, respectively.
Results indicate that laccase can be immobilized onto alginate beads and their residual activity can be improved by varying
the GA concentration for beads’ activation. Such GA-activated alginate beads can
be successfully used for laccase immobilization for further applications.",
publisher = "Wiley",
journal = "Book of Abstracts- Chemie Ingenieur Technik",
title = "Immobilization of laccase onto sodium alginate beads activated with glutaraldehyde",
number = "9",
pages = "1266",
volume = "94",
doi = "10.1002/cite.202255288"
}
Vasić, K., Ilić, N., Mihajlovski, K., Dimitrijević-Branković, S., Knez, Ž.,& Leitgeb, M.. (2022). Immobilization of laccase onto sodium alginate beads activated with glutaraldehyde. in Book of Abstracts- Chemie Ingenieur Technik
Wiley., 94(9), 1266.
https://doi.org/10.1002/cite.202255288
Vasić K, Ilić N, Mihajlovski K, Dimitrijević-Branković S, Knez Ž, Leitgeb M. Immobilization of laccase onto sodium alginate beads activated with glutaraldehyde. in Book of Abstracts- Chemie Ingenieur Technik. 2022;94(9):1266.
doi:10.1002/cite.202255288 .
Vasić, Katja, Ilić, Nevena, Mihajlovski, Katarina, Dimitrijević-Branković, Suzana, Knez, Željko, Leitgeb, Maja, "Immobilization of laccase onto sodium alginate beads activated with glutaraldehyde" in Book of Abstracts- Chemie Ingenieur Technik, 94, no. 9 (2022):1266,
https://doi.org/10.1002/cite.202255288 . .
