From residues to clove: Harnessing novel phenolic acid decarboxylase for 4-Vinyl guaiacol production in industrial Yeast

Nathália Vilela; Anton Gorkovskiy; Beatriz Herrera-Malaver; Robson Tramontina; João Paulo L. Franco Cairo; Fernanda Mandelli; Thiago Gonçalves; Victoria Sodré; Jan Steensels; André Damásio; Kevin J. Verstrepen; Fabio Marcio Squina

doi:10.1016/j.fbp.2025.02.013

From residues to clove: Harnessing novel phenolic acid decarboxylase for 4-Vinyl guaiacol production in industrial Yeast

Nathália Vilela, Anton Gorkovskiy, Beatriz Herrera-Malaver, Robson Tramontina, João Paulo L. Franco Cairo, Fernanda Mandelli, Thiago Gonçalves, Victoria Sodré, Jan Steensels, André Damásio, Kevin J. Verstrepen, Fabio Marcio Squina^*

^*Corresponding author for this work

Chemistry

Research output: Contribution to journal › Article › peer-review

Abstract

Growing demand for sustainable alternatives to petroleum-derived aromatic compounds highlights lignocellulosic biomass as a potentially valuable resource. Although cellulose and hemicellulose, the major components of lignocellulose, are widely used in biofuel and chemical production, lignin, another predominant plant biomass component, remains underutilized. Chemical pretreatment methods for lignocellulose, such as mild alkali, can release cross-linked hydroxycinnamic acids such as ferulic acid, a precursor to various aroma compounds such as 4-vinyl guaiacol (4-VG), which has a clove-like aroma. To improve 4-VG production, an industrial strain of Saccharomyces cerevisiae Ethanol Red™ was engineered to express a novel phenolic acid decarboxylase (PDC) gene from Rhodosporidium fluviale LM-2, Rf_PDC_B. Mutant strain expressing Rf_PDC_B achieved 4-VG levels comparable to those reported in the literature after 48 h of fermentation using maize pericarp hydrolysate as the substrate, demonstrating efficient biotransformation of ferulic acid from lignocellulosic hydrolysates into 4-VG. In summary, a transformed cell line was created for the direct biocatalytic production of aromatic compounds from lignocellulosic hydrolysates. This study contributes to the development of novel technologies related to the sustainable production of high-value compounds derived from lignin.

Original language	English
Pages (from-to)	20-27
Number of pages	8
Journal	Food and Bioproducts Processing
Volume	151
Early online date	6 Mar 2025
DOIs	https://doi.org/10.1016/j.fbp.2025.02.013
Publication status	Published - May 2025

Bibliographical note

Publisher Copyright:
© 2025 Institution of Chemical Engineers (IChemE)

Keywords

4-vinyl guaiacol
Aroma
Ferulic acid
Lignin valorization
Lignocellulose biomass
Rhodosporidium fluviale
Saccharomyces cerevisiae

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10.1016/j.fbp.2025.02.013

Cite this

Vilela, N., Gorkovskiy, A., Herrera-Malaver, B., Tramontina, R., Franco Cairo, J. P. L., Mandelli, F., Gonçalves, T., Sodré, V., Steensels, J., Damásio, A., Verstrepen, K. J., & Squina, F. M. (2025). From residues to clove: Harnessing novel phenolic acid decarboxylase for 4-Vinyl guaiacol production in industrial Yeast. Food and Bioproducts Processing, 151, 20-27. https://doi.org/10.1016/j.fbp.2025.02.013

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title = "From residues to clove: Harnessing novel phenolic acid decarboxylase for 4-Vinyl guaiacol production in industrial Yeast",

abstract = "Growing demand for sustainable alternatives to petroleum-derived aromatic compounds highlights lignocellulosic biomass as a potentially valuable resource. Although cellulose and hemicellulose, the major components of lignocellulose, are widely used in biofuel and chemical production, lignin, another predominant plant biomass component, remains underutilized. Chemical pretreatment methods for lignocellulose, such as mild alkali, can release cross-linked hydroxycinnamic acids such as ferulic acid, a precursor to various aroma compounds such as 4-vinyl guaiacol (4-VG), which has a clove-like aroma. To improve 4-VG production, an industrial strain of Saccharomyces cerevisiae Ethanol Red{\texttrademark} was engineered to express a novel phenolic acid decarboxylase (PDC) gene from Rhodosporidium fluviale LM-2, Rf_PDC_B. Mutant strain expressing Rf_PDC_B achieved 4-VG levels comparable to those reported in the literature after 48 h of fermentation using maize pericarp hydrolysate as the substrate, demonstrating efficient biotransformation of ferulic acid from lignocellulosic hydrolysates into 4-VG. In summary, a transformed cell line was created for the direct biocatalytic production of aromatic compounds from lignocellulosic hydrolysates. This study contributes to the development of novel technologies related to the sustainable production of high-value compounds derived from lignin.",

keywords = "4-vinyl guaiacol, Aroma, Ferulic acid, Lignin valorization, Lignocellulose biomass, Rhodosporidium fluviale, Saccharomyces cerevisiae",

author = "Nath{\'a}lia Vilela and Anton Gorkovskiy and Beatriz Herrera-Malaver and Robson Tramontina and {Franco Cairo}, {Jo{\~a}o Paulo L.} and Fernanda Mandelli and Thiago Gon{\c c}alves and Victoria Sodr{\'e} and Jan Steensels and Andr{\'e} Dam{\'a}sio and Verstrepen, {Kevin J.} and Squina, {Fabio Marcio}",

note = "Publisher Copyright: {\textcopyright} 2025 Institution of Chemical Engineers (IChemE)",

year = "2025",

month = may,

doi = "10.1016/j.fbp.2025.02.013",

language = "English",

volume = "151",

pages = "20--27",

journal = "Food and Bioproducts Processing",

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publisher = "Institution of Chemical Engineers",

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Vilela, N, Gorkovskiy, A, Herrera-Malaver, B, Tramontina, R, Franco Cairo, JPL, Mandelli, F, Gonçalves, T, Sodré, V, Steensels, J, Damásio, A, Verstrepen, KJ & Squina, FM 2025, 'From residues to clove: Harnessing novel phenolic acid decarboxylase for 4-Vinyl guaiacol production in industrial Yeast', Food and Bioproducts Processing, vol. 151, pp. 20-27. https://doi.org/10.1016/j.fbp.2025.02.013

TY - JOUR

T1 - From residues to clove

T2 - Harnessing novel phenolic acid decarboxylase for 4-Vinyl guaiacol production in industrial Yeast

AU - Vilela, Nathália

AU - Gorkovskiy, Anton

AU - Herrera-Malaver, Beatriz

AU - Tramontina, Robson

AU - Franco Cairo, João Paulo L.

AU - Mandelli, Fernanda

AU - Gonçalves, Thiago

AU - Sodré, Victoria

AU - Steensels, Jan

AU - Damásio, André

AU - Verstrepen, Kevin J.

AU - Squina, Fabio Marcio

PY - 2025/5

Y1 - 2025/5

N2 - Growing demand for sustainable alternatives to petroleum-derived aromatic compounds highlights lignocellulosic biomass as a potentially valuable resource. Although cellulose and hemicellulose, the major components of lignocellulose, are widely used in biofuel and chemical production, lignin, another predominant plant biomass component, remains underutilized. Chemical pretreatment methods for lignocellulose, such as mild alkali, can release cross-linked hydroxycinnamic acids such as ferulic acid, a precursor to various aroma compounds such as 4-vinyl guaiacol (4-VG), which has a clove-like aroma. To improve 4-VG production, an industrial strain of Saccharomyces cerevisiae Ethanol Red™ was engineered to express a novel phenolic acid decarboxylase (PDC) gene from Rhodosporidium fluviale LM-2, Rf_PDC_B. Mutant strain expressing Rf_PDC_B achieved 4-VG levels comparable to those reported in the literature after 48 h of fermentation using maize pericarp hydrolysate as the substrate, demonstrating efficient biotransformation of ferulic acid from lignocellulosic hydrolysates into 4-VG. In summary, a transformed cell line was created for the direct biocatalytic production of aromatic compounds from lignocellulosic hydrolysates. This study contributes to the development of novel technologies related to the sustainable production of high-value compounds derived from lignin.

AB - Growing demand for sustainable alternatives to petroleum-derived aromatic compounds highlights lignocellulosic biomass as a potentially valuable resource. Although cellulose and hemicellulose, the major components of lignocellulose, are widely used in biofuel and chemical production, lignin, another predominant plant biomass component, remains underutilized. Chemical pretreatment methods for lignocellulose, such as mild alkali, can release cross-linked hydroxycinnamic acids such as ferulic acid, a precursor to various aroma compounds such as 4-vinyl guaiacol (4-VG), which has a clove-like aroma. To improve 4-VG production, an industrial strain of Saccharomyces cerevisiae Ethanol Red™ was engineered to express a novel phenolic acid decarboxylase (PDC) gene from Rhodosporidium fluviale LM-2, Rf_PDC_B. Mutant strain expressing Rf_PDC_B achieved 4-VG levels comparable to those reported in the literature after 48 h of fermentation using maize pericarp hydrolysate as the substrate, demonstrating efficient biotransformation of ferulic acid from lignocellulosic hydrolysates into 4-VG. In summary, a transformed cell line was created for the direct biocatalytic production of aromatic compounds from lignocellulosic hydrolysates. This study contributes to the development of novel technologies related to the sustainable production of high-value compounds derived from lignin.

KW - 4-vinyl guaiacol

KW - Aroma

KW - Ferulic acid

KW - Lignin valorization

KW - Lignocellulose biomass

KW - Rhodosporidium fluviale

KW - Saccharomyces cerevisiae

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U2 - 10.1016/j.fbp.2025.02.013

DO - 10.1016/j.fbp.2025.02.013

M3 - Article

AN - SCOPUS:85219694176

SN - 0960-3085

VL - 151

SP - 20

EP - 27

JO - Food and Bioproducts Processing

JF - Food and Bioproducts Processing

ER -

From residues to clove: Harnessing novel phenolic acid decarboxylase for 4-Vinyl guaiacol production in industrial Yeast

Abstract

Bibliographical note

Keywords

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