# Specific Phenylpropanoid Oligomerization in a Neutral Environment by the Recombinant Alkaline Laccase from Paramyrothecium roridum VKM F-3565

**Authors:** Zhanna V. Renfeld, Alexey M. Chernykh, Sofia Yu. Gorina, Boris P. Baskunov, Olga V. Moiseeva, Natalia V. Trachtmann, Shamil Z. Validov, Marina P. Kolomytseva

PMC · DOI: 10.3390/biom15101437 · 2025-10-11

## TL;DR

A recombinant laccase from a fungus can specifically create phenylpropanoid oligomers in neutral conditions, avoiding unwanted byproducts.

## Contribution

A novel recombinant alkaline laccase enables specific phenylpropanoid oligomerization in neutral environments.

## Key findings

- The recombinant laccase achieves specific phenylpropanoid oligomerization in neutral pH.
- The enzyme has high N-glycosylation and a molecular weight of 97 kDa.
- The laccase is resistant to surfactants and EDTA in neutral conditions.

## Abstract

Fungal laccases oxidize a wide range of substrates with a diverse spectrum of subsequent non-specific free radical reactions, leading to the production of unwanted byproducts. This work describes a unique recombinant alkaliphilic laccase from Paramyrothecium roridum VKM F-3565 capable of performing specific oligomerization of phenylpropanoids (precursors of natural lignin and lignans) in a neutral environment, thus preventing the reverse reaction of depolymerization which occurs in an acidic environment. The recombinant alkaliphilic laccase from P. roridum VKM F-3565 with a specific enzyme activity of about 154.0 U/mg (in the reaction with 1 mM ABTS) was obtained using a Komagataella phaffii transformant with a yield of 20 ± 1.5 mg/L. The recombinant laccase had an increased degree of N-glycosylation (MW = 97 kDa), higher pH optimum in reaction with phenylpropanoids and a decreased temperature optimum, compared to the wild-type laccase. The enzyme exhibited great resistance to surfactants and the EDTA in the neutral conditions rather than the acidic ones, whereas its tolerance to mono- and divalent-metal ions was high at acidic conditions. This work demonstrates the important role of N-glycosylation of the alkaliphilic laccase of P. roridum VKM F-3565 in its functional activity. The presence of pH-dependent reactions makes the studied laccase attractive for the phenylpropanoid oligomerization with the production of novel oligomeric phenylpropanoid derivatives for industrial and pharmacological purposes.

## Linked entities

- **Proteins:** LOC7454935 (laccase-2)
- **Chemicals:** ABTS (PubChem CID 35688), EDTA (PubChem CID 6049), lignin (PubChem CID 175586), lignans (PubChem CID 443013)
- **Species:** Komagataella phaffii (taxon 460519)

## Full-text entities

- **Chemicals:** EDTA (MESH:D004492), lignin (MESH:D008031), -metal (MESH:D008670), ABTS (MESH:C002502), Phenylpropanoid (-), lignans (MESH:D017705)
- **Species:** Paramyrothecium roridum (species) [taxon 1859971]

## Figures

5 figures with captions in the complete paper: https://tomesphere.com/paper/PMC12563105/full.md

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Source: https://tomesphere.com/paper/PMC12563105