Classification of polyphenol oxidases shows ancient gene duplication leading to two distinct enzyme types

Ida K.S. Meitil; Caio de O.G. Silva; Anders Gorm Pedersen; Jane W. Agger

doi:10.1016/j.isci.2025.111771

Classification of polyphenol oxidases shows ancient gene duplication leading to two distinct enzyme types

Ida K.S. Meitil, Caio de O.G. Silva, Anders Gorm Pedersen, Jane W. Agger^*

^*Corresponding author for this work

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Abstract

Polyphenol oxidases (PPOs) are coupled binuclear copper proteins that catalyze the oxidation of phenols. New functions of PPOs are continuously being discovered, latest with several fungal o-methoxy phenolases, which are active on lignin-derived compounds. Here, we perform a comprehensive phylogenetic analysis of PPOs from a wide taxonomic origin and define 12 PPO groups. We find that a deep gene duplication has led to two distinct PPO types. Type 1 includes PPOs from chordates and molluscs, as well as the fungal o-methoxy phenolases. Type 2 includes plant PPOs, molluscan hemocyanins, and fungal tyrosinases. Most of the type 2 proteins have a C-terminal shielding domain and a thioether bond in the copper-binding site. We also find that most ascomycetes contain high numbers of the PPO type 1 that includes the o-methoxy phenolases, which may indicate a role in the lignin conversion strategy of these fungi.

Original language	English
Article number	111771
Journal	iScience
Volume	28
Issue number	2
Number of pages	18
ISSN	2589-0042
DOIs	https://doi.org/10.1016/j.isci.2025.111771
Publication status	Published - 2025

Keywords

Biochemistry
Molecular biology
Evolutionary bology
Phylogenetics

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title = "Classification of polyphenol oxidases shows ancient gene duplication leading to two distinct enzyme types",

abstract = "Polyphenol oxidases (PPOs) are coupled binuclear copper proteins that catalyze the oxidation of phenols. New functions of PPOs are continuously being discovered, latest with several fungal o-methoxy phenolases, which are active on lignin-derived compounds. Here, we perform a comprehensive phylogenetic analysis of PPOs from a wide taxonomic origin and define 12 PPO groups. We find that a deep gene duplication has led to two distinct PPO types. Type 1 includes PPOs from chordates and molluscs, as well as the fungal o-methoxy phenolases. Type 2 includes plant PPOs, molluscan hemocyanins, and fungal tyrosinases. Most of the type 2 proteins have a C-terminal shielding domain and a thioether bond in the copper-binding site. We also find that most ascomycetes contain high numbers of the PPO type 1 that includes the o-methoxy phenolases, which may indicate a role in the lignin conversion strategy of these fungi.",

keywords = "Biochemistry, Molecular biology, Evolutionary bology, Phylogenetics",

author = "Meitil, {Ida K.S.} and {de O.G. Silva}, Caio and Pedersen, {Anders Gorm} and Agger, {Jane W.}",

year = "2025",

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AU - Meitil, Ida K.S.

AU - de O.G. Silva, Caio

AU - Pedersen, Anders Gorm

AU - Agger, Jane W.

PY - 2025

Y1 - 2025

N2 - Polyphenol oxidases (PPOs) are coupled binuclear copper proteins that catalyze the oxidation of phenols. New functions of PPOs are continuously being discovered, latest with several fungal o-methoxy phenolases, which are active on lignin-derived compounds. Here, we perform a comprehensive phylogenetic analysis of PPOs from a wide taxonomic origin and define 12 PPO groups. We find that a deep gene duplication has led to two distinct PPO types. Type 1 includes PPOs from chordates and molluscs, as well as the fungal o-methoxy phenolases. Type 2 includes plant PPOs, molluscan hemocyanins, and fungal tyrosinases. Most of the type 2 proteins have a C-terminal shielding domain and a thioether bond in the copper-binding site. We also find that most ascomycetes contain high numbers of the PPO type 1 that includes the o-methoxy phenolases, which may indicate a role in the lignin conversion strategy of these fungi.

AB - Polyphenol oxidases (PPOs) are coupled binuclear copper proteins that catalyze the oxidation of phenols. New functions of PPOs are continuously being discovered, latest with several fungal o-methoxy phenolases, which are active on lignin-derived compounds. Here, we perform a comprehensive phylogenetic analysis of PPOs from a wide taxonomic origin and define 12 PPO groups. We find that a deep gene duplication has led to two distinct PPO types. Type 1 includes PPOs from chordates and molluscs, as well as the fungal o-methoxy phenolases. Type 2 includes plant PPOs, molluscan hemocyanins, and fungal tyrosinases. Most of the type 2 proteins have a C-terminal shielding domain and a thioether bond in the copper-binding site. We also find that most ascomycetes contain high numbers of the PPO type 1 that includes the o-methoxy phenolases, which may indicate a role in the lignin conversion strategy of these fungi.

KW - Biochemistry

KW - Molecular biology

KW - Evolutionary bology

KW - Phylogenetics

U2 - 10.1016/j.isci.2025.111771

DO - 10.1016/j.isci.2025.111771

M3 - Journal article

SN - 2589-0042

VL - 28

JO - iScience

JF - iScience

IS - 2

M1 - 111771

ER -

Classification of polyphenol oxidases shows ancient gene duplication leading to two distinct enzyme types

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