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Lignin monomer composition is determined by the expression of a cytochrome P450-dependent monooxygenase in Arabidopsis
Lignin monomer composition is determined by the expression of a cytochrome P450-dependent monooxygenase in Arabidopsis
by Cusumano, J.C , Chapple, C , Meyer, K. (Horticulture Research International East Malling, Kent, UK.) , Shirley, A.M , Bell-Lelong, D.A
in ARABIDOPSIS THALIANA / ARN MENSAJERO / ARN MESSAGER / Biochemistry / Biological Sciences / BIOSINTESIS / BIOSYNTHESE / BIOSYNTHESIS / CHEMISTRY / CHIMIE / CITOCROMO P450 / COMPOSE PHENOLIQUE / COMPUESTOS FENOLICOS / cytochrome P-450 / CYTOCHROME P450 / EXPRESION GENICA / EXPRESSION DES GENES / FERULATE-5-HYDROXYLASE / Flowers & plants / GENE / GENE EXPRESSION / GENE TRANSFER / GENES / GUAIACYL LIGNIN / HISTOCHEMISTRY / Internodes / LIGNIFICACION / LIGNIFICATION / Lignin / LIGNINAS / LIGNINE / LIGNINS / MESSENGER RNA / Metabolites / Monomers / Nitrobenzenes / Oxidation / OXIDOREDUCTASES / OXIDORREDUCTASAS / OXYDOREDUCTASE / PHENOLIC COMPOUNDS / PLANTAS TRANSGENICAS / PLANTE TRANSGENIQUE / Plants / Polymers / promoter regions / PROMOTERS / QUIMICA / Secondary metabolites / STEMS / SYRINGYL LIGNIN / TALLO / TIGE / TRANSFERENCIA DE GENES / TRANSFERT DE GENE / TRANSGENIC PLANTS / UNSPECIFIC MONOOXYGENASE
1998
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Lignin monomer composition is determined by the expression of a cytochrome P450-dependent monooxygenase in Arabidopsis
by Cusumano, J.C , Chapple, C , Meyer, K. (Horticulture Research International East Malling, Kent, UK.) , Shirley, A.M , Bell-Lelong, D.A
in ARABIDOPSIS THALIANA / ARN MENSAJERO / ARN MESSAGER / Biochemistry / Biological Sciences / BIOSINTESIS / BIOSYNTHESE / BIOSYNTHESIS / CHEMISTRY / CHIMIE / CITOCROMO P450 / COMPOSE PHENOLIQUE / COMPUESTOS FENOLICOS / cytochrome P-450 / CYTOCHROME P450 / EXPRESION GENICA / EXPRESSION DES GENES / FERULATE-5-HYDROXYLASE / Flowers & plants / GENE / GENE EXPRESSION / GENE TRANSFER / GENES / GUAIACYL LIGNIN / HISTOCHEMISTRY / Internodes / LIGNIFICACION / LIGNIFICATION / Lignin / LIGNINAS / LIGNINE / LIGNINS / MESSENGER RNA / Metabolites / Monomers / Nitrobenzenes / Oxidation / OXIDOREDUCTASES / OXIDORREDUCTASAS / OXYDOREDUCTASE / PHENOLIC COMPOUNDS / PLANTAS TRANSGENICAS / PLANTE TRANSGENIQUE / Plants / Polymers / promoter regions / PROMOTERS / QUIMICA / Secondary metabolites / STEMS / SYRINGYL LIGNIN / TALLO / TIGE / TRANSFERENCIA DE GENES / TRANSFERT DE GENE / TRANSGENIC PLANTS / UNSPECIFIC MONOOXYGENASE
1998
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Lignin monomer composition is determined by the expression of a cytochrome P450-dependent monooxygenase in Arabidopsis
Lignin monomer composition is determined by the expression of a cytochrome P450-dependent monooxygenase in Arabidopsis
by Cusumano, J.C , Chapple, C , Meyer, K. (Horticulture Research International East Malling, Kent, UK.) , Shirley, A.M , Bell-Lelong, D.A
in ARABIDOPSIS THALIANA / ARN MENSAJERO / ARN MESSAGER / Biochemistry / Biological Sciences / BIOSINTESIS / BIOSYNTHESE / BIOSYNTHESIS / CHEMISTRY / CHIMIE / CITOCROMO P450 / COMPOSE PHENOLIQUE / COMPUESTOS FENOLICOS / cytochrome P-450 / CYTOCHROME P450 / EXPRESION GENICA / EXPRESSION DES GENES / FERULATE-5-HYDROXYLASE / Flowers & plants / GENE / GENE EXPRESSION / GENE TRANSFER / GENES / GUAIACYL LIGNIN / HISTOCHEMISTRY / Internodes / LIGNIFICACION / LIGNIFICATION / Lignin / LIGNINAS / LIGNINE / LIGNINS / MESSENGER RNA / Metabolites / Monomers / Nitrobenzenes / Oxidation / OXIDOREDUCTASES / OXIDORREDUCTASAS / OXYDOREDUCTASE / PHENOLIC COMPOUNDS / PLANTAS TRANSGENICAS / PLANTE TRANSGENIQUE / Plants / Polymers / promoter regions / PROMOTERS / QUIMICA / Secondary metabolites / STEMS / SYRINGYL LIGNIN / TALLO / TIGE / TRANSFERENCIA DE GENES / TRANSFERT DE GENE / TRANSGENIC PLANTS / UNSPECIFIC MONOOXYGENASE
1998

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Lignin monomer composition is determined by the expression of a cytochrome P450-dependent monooxygenase in Arabidopsis
Lignin monomer composition is determined by the expression of a cytochrome P450-dependent monooxygenase in Arabidopsis
Journal Article

Lignin monomer composition is determined by the expression of a cytochrome P450-dependent monooxygenase in Arabidopsis

Cusumano, J.C,
Chapple, C,
Meyer, K. (Horticulture Research International East Malling, Kent, UK.),
Shirley, A.M,
Bell-Lelong, D.A
1998
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Overview
The phenylpropanoid pathway provides precursors for the biosynthesis of soluble secondary metabolites and lignin in plants. Ferulate-5-hydroxylase (F5H) catalyzes an irreversible hydroxylation step in this pathway that diverts ferulic acid away from guaiacyl lignin biosynthesis and toward sinapic acid and syringyl lignin. This fact led us to postulate that F5H was a potential regulatory step in the determination of lignin monomer composition. To test this hypothesis, we have used Arabidopsis to examine the impact of F5H overexpression. Arabidopsis is a useful model system in which to study lignification because in wild-type plants, guaiacyl and syringyl lignins are deposited in a tissue-specific fashion, while the F5H-deficient fah1 mutant accumulates only guaiacyl lignin. Here we show that ectopic overexpression of F5H in Arabidopsis abolishes tissue-specific lignin monomer accumulation. Surprisingly, overexpression of F5H under the control of the lignification-associated cinnamate-4-hydroxylase promoter, but not the commonly employed cauliflower mosaic virus 35S promoter, generates a lignin that is almost entirely comprised of syringylpropane units. These experiments demonstrate that modification of F5H expression may enable engineering of lignin monomer composition in agronomically important plant species.
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Publisher
National Academy of Sciences of the United States of America,National Acad Sciences,National Academy of Sciences,The National Academy of Sciences
Subject

ARABIDOPSIS THALIANA

/ ARN MENSAJERO

/ ARN MESSAGER

/ Biochemistry

/ Biological Sciences

/ BIOSINTESIS

/ BIOSYNTHESE

/ BIOSYNTHESIS

/ CHEMISTRY

/ CHIMIE

/ CITOCROMO P450

/ COMPOSE PHENOLIQUE

/ COMPUESTOS FENOLICOS

/ cytochrome P-450

/ CYTOCHROME P450

/ EXPRESION GENICA

/ EXPRESSION DES GENES

/ FERULATE-5-HYDROXYLASE

/ Flowers & plants

/ GENE

/ GENE EXPRESSION

/ GENE TRANSFER

/ GENES

/ GUAIACYL LIGNIN

/ HISTOCHEMISTRY

/ Internodes

/ LIGNIFICACION

/ LIGNIFICATION

/ Lignin

/ LIGNINAS

/ LIGNINE

/ LIGNINS

/ MESSENGER RNA

/ Metabolites

/ Monomers

/ Nitrobenzenes

/ Oxidation

/ OXIDOREDUCTASES

/ OXIDORREDUCTASAS

/ OXYDOREDUCTASE

/ PHENOLIC COMPOUNDS

/ PLANTAS TRANSGENICAS

/ PLANTE TRANSGENIQUE

/ Plants

/ Polymers

/ promoter regions

/ PROMOTERS

/ QUIMICA

/ Secondary metabolites

/ STEMS

/ SYRINGYL LIGNIN

/ TALLO

/ TIGE

/ TRANSFERENCIA DE GENES

/ TRANSFERT DE GENE

/ TRANSGENIC PLANTS

/ UNSPECIFIC MONOOXYGENASE

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