Laccases—Versatile Enzymes Used to Reduce Environmental Pollution

Paraschiv, G.; Ferdeş, Mariana; Ionescu, M.; Moiceanu, Georgiana; Zabava, Bianca-Stefania; Dincă, M.

doi:10.3390/en15051835

Cited by 19 publications

(8 citation statements)

References 180 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…The range of substrates amenable to catalyzed reactions can be extended by mediators [82,[183][184][185][186]. The range of oxidized substrates varies from laccase to laccase [6,187,188].…”

Section: Types and Mechanisms Of Removing Xenobiotics From Watermentioning

confidence: 99%

“…Laccases produced by various groups of microorganisms are capable of oxidizing ortho-and paradiphenols, aminophenols, polyphenols, polyamines, lignins, aryldiamines and some inorganic ions [65,187,243,256]. In addition to oxidizing phenolic and methoxyphenolic acids, laccases also attack their carboxyl (decarboxylation) and methoxy (demethylation) groups.…”

Section: Challenges Of Enzymatic Bioremediationmentioning

confidence: 99%

See 1 more Smart Citation

Biochemical Characteristics of Laccases and their Practical Application in the Removal of Xenobiotics from Waters

Gałązka¹,

Jankiewicz²,

Szczepkowski³

2023

Preprint

View full text Add to dashboard Cite

Industrialization, intensive farming, rapid population growth and urbanization are the source of a large number of pollutants entering the environment. The current concentration of xenobiotics released into the environment exceeds its natural ability to decompose them. Enzymatic degradation of pollutants seems to be an environmentally friendly process. Due to the wide spectrum of substrate specificity, from inorganic compounds to high molecular weight organic compounds such as PAH or dyes, as well as favorable biochemical properties, laccase has been used in the biological removal of xenobiotics from the environment. It is important to understand the degradation mechanisms of pollutants and to evaluate the final products in terms of their toxicity. The laccase oxidizes the substrates with the simultaneous reduction of molecular oxygen to water, which is the purest reaction co-substrate. That is why it is called a green biocatalyst. The trend is an increase in the production of enzymes related to the intensive development of industry, bioremediation or synthetic chemistry. This leads to the search for laccases with greater activity and stability under extreme conditions. The potential of laccases to degrade xenobiotics can be promoted by improving enzymatic catalytic characterization using protein engineering and other genetic engineering methods.

show abstract

“…The range of substrates amenable to catalyzed reactions can be extended by mediators [82,[183][184][185][186]. The range of oxidized substrates varies from laccase to laccase [6,187,188].…”

Section: Types and Mechanisms Of Removing Xenobiotics From Watermentioning

confidence: 99%

Section: Challenges Of Enzymatic Bioremediationmentioning

confidence: 99%

Biochemical Characteristics of Laccases and their Practical Application in the Removal of Xenobiotics from Waters

Gałązka¹,

Jankiewicz²,

Szczepkowski³

2023

Preprint

View full text Add to dashboard Cite

show abstract

“…Laccases have been used in many domains, such as pulp deligni cation and deinking. The attraction to use them has increased dramatically, for deinking secondary bers in the last few years (Valls and Roncero, 2009;Paraschiv et al, 2022). Several kinds of research have been conducted in deinking recycled bers using laccase or laccase mediator system (LMS).…”

Section: Introductionmentioning

confidence: 99%

“…Several kinds of research have been conducted in deinking recycled bers using laccase or laccase mediator system (LMS). Also, use of laccase alone or in combination with cellulase or hemicellulase is recommended to deink recycled bers (Ibara et al, 2012;Paraschiv et al, 2022). This group of enzymes, in the presence of mediators, can be applied to delignify and bleach processes for different kinds of pulp (Kapoor et al, 2007;Ibara et al, 2012).…”

Section: Introductionmentioning

confidence: 99%

Surface characterization of pulp fiber from mixed old newspaper and magazine deinked-pulp with combined cellulase and laccase-violuric acid system (LVS)

Akbarpour

2023

Preprint

View full text Add to dashboard Cite

The pulp and paper industry is looking for eco-friendly solutions in the field of enzymatic deinking for ink elimination from different recycled papers. The current research aimed at deinking secondary fibers containing mixed 70% old newsprint (ONP) and 30% old magazine (OMG) by combining cellulase with the laccase-violuric acid system (LVS). Optical and strength properties, surface chemical composition, fiber crystallinity, fiber morphology changes during the deinking process, and pulp water retention value (WRV) were assessed by electron spectroscopy for chemical analysis (ESCA), fourier transform infrared spectrometry (FTIR), field emission scanning electron microscopy (FESEM), and the centrifuge method. Results revealed the synergistic delignification and deinking effects of cellulase and LVS making enzymatic treatment a promising alternative for chemical deinking. Pulp deinked with cellulase-LVS indicated a lower ERIC (effective residual ink concentration), better optical and strength properties, a higher oxygen/carbon (O/C) ratio of the fiber surface, a lower surface lignin, higher fiber crystallinity index, and improved pulp WRV. Furthermore, FESEM photographs demonstrated that more fibrils appeared on the fiber surface due to synergistic effects between enzymes. Among the combined cellulase-LVS trials, the C2L2 trial (0.1% cellulase and 20 min; 40u laccase and 120 min) gave a paper with the best quality, the minor lignin surface coverage (or more lignin degradation), and higher cellulose crystallinity, compared to the chemically deinked pulp.

show abstract

“…6 Enzyme biocatalysts have gained attention and have been extensively used in biocatalytic reactions, showing unique advantages in terms of efficiency and sustainability of wastewater treatment, as well as substantial developments in fine chemistry and industrial synthesis. 7,8 Laccase (EC 1.10.3.2) belongs to the group of copper-containing polyphenol oxidases, which can efficiently catalyze a wide range of aromatic organic compounds, and thus studies on laccase have been conducted in various fields such as dye decolorization, environmental pollutant degradation, and biomedicine. 9 The laccase catalytic reaction mechanism is based on the synergistic effect of the four Cu ions in its molecular structure and the generation of substrate radicals in the reaction system.…”

Section: Introductionmentioning

confidence: 99%

Laccase–mediator co-immobilized doped-HKUST-1 cellulose composite beads and their application for the biodegradation of carbazole

et al. 2023

View full text Add to dashboard Cite

show abstract

Laccases—Versatile Enzymes Used to Reduce Environmental Pollution

Cited by 19 publications

References 180 publications

Biochemical Characteristics of Laccases and their Practical Application in the Removal of Xenobiotics from Waters

Biochemical Characteristics of Laccases and their Practical Application in the Removal of Xenobiotics from Waters

Surface characterization of pulp fiber from mixed old newspaper and magazine deinked-pulp with combined cellulase and laccase-violuric acid system (LVS)

Laccase–mediator co-immobilized doped-HKUST-1 cellulose composite beads and their application for the biodegradation of carbazole

Contact Info

Product

Resources

About