Reaction Kinetics of Versatile Peroxidase for the Degradation of Lignin Compounds

Busse,

doi:10.3844/ajbbsp.2013.365.394

Cited by 30 publications

(31 citation statements)

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“…The reaction kinetics of a crude versatile peroxidase from Bjerkandera adusta as a ligninolytic model peroxidase was recently investigated during the degradation of adlerol (a β-O-4 lignin model dimer) [95]. The crude enzyme showed saturation kinetics for adlerol degradation following the Michaelis-Menten equation, and was sensitive to H 2 O 2 .…”

Section: Applications Of Enzymatic Lignin Degradationmentioning

confidence: 99%

“…The authors noted that the retention of degradation products should be avoided because this can lead to undesirable enzyme inactivation or polymerization reactions if real enzymes are used instead of the model ovalbumin [92]. Based on the results summarized above [92,95] …”

Section: Applications Of Enzymatic Lignin Degradationmentioning

confidence: 99%

“…The authors recommended that H 2 O 2 concentrations should be kept below 50 μMata substrate/H 2 O 2 ratio of 15:1. Continuous lignin degradation in such a reactor would therefore require carefully controlled slow H 2 O 2 feeding rates [95].…”

Section: Applications Of Enzymatic Lignin Degradationmentioning

confidence: 99%

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Lignin Degradation Processes and the Purification of Valuable Products

Schoenherr¹,

Ebrahimi²,

Czermak³

2018

Lignin - Trends and Applications

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Lignin is a heterogeneous, phenolic and polydisperse biopolymer which resists degradation due to its aromatic and highly branched structure. Lignin is the most abundant renewable source of aromatic molecules on earth. The valorization of lignin could therefore provide a sustainable alternative to petroleum refineries for the production of valuable aromatic compounds. Even so, paper mills and lignocellulose feedstock biorefineries treat lignin largely as a waste product. In paper mills, 98% of technical lignin is incinerated for internal energy recovery while only 2% is used commercially (e.g. for the production of aromatics such as vanillin). The reasons for the underutilization of lignin include its recalcitrance to degradation and the challenge of separating mixtures of numerous degradation products. The successful valorization of lignin in the future thus depends on a broad understanding of biological and technical degradation processes, and the implementation of efficient product purification strategies. This article describes enzymatic, photocatalytic and thermochemical lignin degradation processes and considers purification methods for valuable lignin-derived degradation products. We focus on the potential of membrane-based separation technology, including data from our own recent research.

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Section: Applications Of Enzymatic Lignin Degradationmentioning

confidence: 99%

Section: Applications Of Enzymatic Lignin Degradationmentioning

confidence: 99%

See 1 more Smart Citation

Lignin Degradation Processes and the Purification of Valuable Products

Schoenherr¹,

Ebrahimi²,

Czermak³

2018

Lignin - Trends and Applications

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“…Compound I is then oxidized in two-consecutive single-electron reactions with reducing substrates yielding highly reactive radical products and water. The first reduction step results in the formation of another enzyme intermediate compound II, which is finally reduced back to ferric peroxidase, the native enzyme 7 . The radical products are highly unstable and go through several non-enzymatic reactions resulting in breakdown of ether linkages, demethoxylation, aromatic ring cleavage, deprotonation and hydroxylation internally to yield simple breakdown products 11,12 .…”

Section: Catalytic Mechanism Of Versatile Peroxidasementioning

confidence: 99%

“…The oxidizing ability of peroxidases is a summation of active site morphology, redox potential and substrate accessibility. Thus, peroxidases are more prominent of ligninolytic enzymes for their relatively high redox potential and capability to oxidize the heavily recalcitrant non-phenolic phenyl propanoid units of lignin in contrast to phenol oxidases which preferably oxidize the phenolic units 7 . Versatile peroxidases have been the focus of intense research in the past decade because of its unique feature of oxidizing phenolic and non-phenolic units of lignin, independent of redox mediators, contrary to other ligninolytic enzymes which require the presence of mediators for destruction of non-phenolic units.…”

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confidence: 99%

Insights into the Mechanism of Lignocellulose Degradation by Versatile Peroxidases

Ravichandran¹,

Sridhar²

2017

Current Science

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Lignocelluloses are imperative structural components of plant cell wall and are profusely found in agricultural crop residues. The structural heterogeneity and recalcitrance of lignin limit the accessibility of cell wall carbohydrates for constructive exploitation. During the past decades, diverse lignin degrading enzymes were characterized to facilitate the utilization of lignocellulosic biomass for technological applications. Versatile peroxidases are unique among ligninolytic enzymes for their remarkably high redox potential and ability to oxidize lignin without the requisite of redox mediators. The hybrid structural architecture of this enzyme bearing functional features of lignin peroxidase and manganese peroxidase demonstrates its versatility in aromatics oxidation. This review summarizes the distinctive structural aspects of fungal versatile peroxidase in correlation to its oxidation of aromatic substrates besides emphasizing on the catalytic environment conducive for substrate oxidation. This review also focuses on the general strategies employed for production of this enzyme, its molecular framework, potential biotechnological applications of versatile peroxidase and prospects on enhancing the production of enzyme. Finally, the significance of this enzyme in improving the nutritive value of crop residues to promote ruminal productivity is highlighted.

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Two‐way reaction of versatile peroxidase with artificial lignin enhances low‐molecular weight fractions

Spasojević,

Prodanović,

Mutavdžić

et al. 2023

Biotechnology Journal

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In recent years, versatile peroxidase (VP) has emerged as a promising enzyme for biotechnological applications, as it can oxidize lignin without the external mediators. To gain insights into the breakdown process of artificial lignin by VP, reaction between the two was studied. Degradation products were fractionated using ultrafiltration and analyzed by RP‐ high performance liquid chromatography with mass detection (HPLC‐MS) chromatography. Four fractions were obtained based on their molecular sizes: >10, 3–10, 1–3, and <1 kDa. Interestingly, while VP did not significantly alter the yields of these fractions, the chromatograms revealed the presence of oligomers with different molecular weights (MWs) resulting from the enzymatic activity. The VP exhibits a dual role in its enzymatic activity: both degrading and synthesizing these oligomers. This was confirmed by principal component analysis (PCA). The positive correlations were found between certain oligomers (D1 and D2, D5 and D6, as well as between D7, D10, T2, and T4), suggesting their simultaneous degradation. On the other hand, a negative correlation was found between the monomer and some oligomers (D7, D10, T2, and T4), indicating the decomposition of these oligomers into monomers. These findings shed light on the intricate interplay between VP and artificial lignin, offering valuable insights for potential applications in lignin valorization.

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Reaction Kinetics of Versatile Peroxidase for the Degradation of Lignin Compounds

Cited by 30 publications

References 81 publications

Lignin Degradation Processes and the Purification of Valuable Products

Lignin Degradation Processes and the Purification of Valuable Products

Insights into the Mechanism of Lignocellulose Degradation by Versatile Peroxidases

Two‐way reaction of versatile peroxidase with artificial lignin enhances low‐molecular weight fractions

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