Monolignol oxidation by xylem peroxidase isoforms of Norway spruce (Picea abies) and silver birch (Betula pendula)

Monolignol oxidation by xylem peroxidase isoforms of Norway spruce (Picea abies) and silver birch (Betula pendula)

We partially purified peroxidase isoform fractions from xylem extracts of a gymnosperm, Norway spruce (Picea abies (L.) Karst.), and an angiosperm, silver birch (Betula pendula Roth.), to determine the participation of xylem-localized peroxidases in polymerization of different types of lignin in viv...

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Bibliographic Details
Published in:Tree physiology Vol. 26; no. 5; pp. 605 - 611
Main Authors: Marjamaa, K, Kukkola, E, Lundell, T, Karhunen, P, Saranpaa, P, Fagerstedt, K.V
Format: Journal Article
Language:English
Published: Canada 01-05-2006
Subjects:
Betula - enzymology
Betula - metabolism
Betula pendula
Biopolymers - metabolism
biosynthesis
cell differentiation
enzyme activity
forest trees
Isoenzymes - isolation & purification
Isoenzymes - metabolism
isozymes
Lignans - chemistry
Lignans - metabolism
lignin
Lignin - chemistry
Lignin - metabolism
Molecular Structure
oxidation
Oxidation-Reduction
peroxidases
Peroxidases - isolation & purification
Peroxidases - metabolism
Phenols - metabolism
Phenylpropionates - metabolism
Picea - enzymology
Picea - metabolism
Picea abies
stems
xylem
Xylem - enzymology
Xylem - metabolism
Finland
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Summary:We partially purified peroxidase isoform fractions from xylem extracts of a gymnosperm, Norway spruce (Picea abies (L.) Karst.), and an angiosperm, silver birch (Betula pendula Roth.), to determine the participation of xylem-localized peroxidases in polymerization of different types of lignin in vivo. Several peroxidase fractions varying in isoelectric point values from acidic to basic were tested for their ability to catalyze the oxidation of the monolignols coniferyl alcohol, sinapyl alcohol and p-coumaryl alcohol in vitro. All of the xylem peroxidases extracted from Norway spruce and most of those from silver birch showed the highest rate of oxidation with coniferyl alcohol in the presence of hydrogen peroxide. The exception was an acidic peroxidase fraction (pI 3.60-3.65) from silver birch that exhibited higher oxidation activity for sinapyl alcohol than for coniferyl alcohol. For the xylem enzyme fractions extracted from silver birch, the ability to oxidize the artificial phenolic substrate syringaldazine coincided with high specific activity for sinapyl alcohol. Therefore, we conclude that the acidic, neutral and basic xylem peroxidases of Norway spruce all function in the synthesis of guaiacyl-type lignin, whereas in silver birch the acidic peroxidases preferentially oxidize sinapyl subunits. The latter provides a mechanism for synthesis of guaiacyl-syringyl lignin typical of tracheid cell walls in angiosperm trees.
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ISSN:0829-318X
1758-4469
DOI:10.1093/treephys/26.5.605