Local Differentiation of Sugar Donor Specificity of Flavonoid Glycosyltransferase in Lamiales

Flavonoids are most commonly conjugated with various sugar moieties by UDP-sugar:glycosyltransferases (UGTs) in a lineage-specific manner. Generally, the phylogenetics and regiospecificity of flavonoid UGTs are correlated, indicating that the regiospecificity of UGT differentiated prior to speciatio...

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Published in	The Plant cell Vol. 21; no. 5; pp. 1556 - 1572
Main Authors	Noguchi, Akio, Horikawa, Manabu, Fukui, Yuko, Fukuchi-Mizutani, Masako, Iuchi-Okada, Asako, Ishiguro, Masaji, Kiso, Yoshinobu, Nakayama, Toru, Ono, Eiichiro
Format	Journal Article
Language	English
Published	England American Society of Plant Biologists 01.05.2009
Subjects	Amino Acid Sequence Amino acids Carbohydrate Metabolism Carboxylates Cloning, Molecular Complementary DNA Conserved Sequence Enzymes Flavones Flavonoids Flavonoids - chemistry Flavonoids - metabolism Glycosyltransferases - chemistry Glycosyltransferases - classification Glycosyltransferases - metabolism Lamiaceae - enzymology Magnoliopsida - enzymology Metabolites Models, Molecular Molecular Sequence Data Phylogeny Plant biochemistry Plant cells Plantago - enzymology Plants Protein Structure, Tertiary Sequence Alignment Speciation Substrate Specificity Sugar Sugars
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Abstract	Flavonoids are most commonly conjugated with various sugar moieties by UDP-sugar:glycosyltransferases (UGTs) in a lineage-specific manner. Generally, the phylogenetics and regiospecificity of flavonoid UGTs are correlated, indicating that the regiospecificity of UGT differentiated prior to speciation. By contrast, it is unclear how the sugar donor specificity of UGTs evolved. Here, we report the biochemical, homology-modeled, and phylogenetic characterization of flavonoid 7-O-glucuronosyltransferases (F7GAT), which is responsible for producing specialized metabolites in Lamiales plants. All of the Lamiales F7GATs were found to be members of the UGT88-related cluster and specifically used UDP-glucuronic acid (UDPGA). We identified an Arg residue that is specifically conserved in the PSPG box in the Lamiales F7GATs. Substitution of this Arg with Trp was sufficient to convert the sugar donor specificity of the Lamiales F7GATs from UDPGA to UDP-glucose. Homology modeling of the Lamiales F7GAT suggested that the Arg residue plays a critical role in the specific recognition of anionic carboxylate of the glucuronic acid moiety of UDPGA with its cationic guanidinium moiety. These results support the hypothesis that differentiation of sugar donor specificity of UGTs occurred locally, in specific plant lineages, after establishment of general regiospecificity for the sugar acceptor. Thus, the plasticity of sugar donor specificity explains, in part, the extraordinary structural diversification of phytochemicals.
AbstractList	Flavonoids are most commonly conjugated with various sugar moieties by UDP-sugar: glycosyltransferases (UGTs) in a lineage-specific manner. Generally, the phylogenetics and regiospecificity of flavonoid UGTs are correlated, indicating that the regiospecificity of UGT differentiated prior to speciation. By contrast, it is unclear how the sugar donor specificity of UGTs evolved. Here, we report the biochemical, homology-modeled, and phylogenetic characterization of flavonoid 7-Oglucuronosyltransferases (F7GAT), which is responsible for producing specialized metabolites in Lamíales plants. All of the Lamíales F7GATs were found to be members of the UGT88-related cluster and specifically used UDP-glucuronic acid (UDPGA). We identified an Arg residue that is specifically conserved in the PSPG box in the Lamíales F7GATs. Substitution of this Arg with Trp was sufficient to convert the sugar donor specificity of the Lamíales F7GATs from UDPGA to UDPglucose. Homology modeling of the Lamíales F7GAT suggested that the Arg residue plays a critical role in the specific recognition of anionic carboxylate of the glucuronic acid moiety of UDPGA with its cationic guanidinium moiety. These results support the hypothesis that differentiation of sugar donor specificity of UGTs occurred locally, in specific plant lineages, after establishment of general regiospecificity for the sugar acceptor. Thus, the plasticity of sugar donor specificity explains, in part, the extraordinary structural diversification of phytochemicals. Flavonoids are most commonly conjugated with various sugar moieties by UDP-sugar:glycosyltransferases (UGTs) in a lineage-specific manner. Generally, the phylogenetics and regiospecificity of flavonoid UGTs are correlated, indicating that the regiospecificity of UGT differentiated prior to speciation. By contrast, it is unclear how the sugar donor specificity of UGTs evolved. Here, we report the biochemical, homology-modeled, and phylogenetic characterization of flavonoid 7-O-glucuronosyltransferases (F7GAT), which is responsible for producing specialized metabolites in Lamiales plants. All of the Lamiales F7GATs were found to be members of the UGT88-related cluster and specifically used UDP-glucuronic acid (UDPGA). We identified an Arg residue that is specifically conserved in the PSPG box in the Lamiales F7GATs. Substitution of this Arg with Trp was sufficient to convert the sugar donor specificity of the Lamiales F7GATs from UDPGA to UDP-glucose. Homology modeling of the Lamiales F7GAT suggested that the Arg residue plays a critical role in the specific recognition of anionic carboxylate of the glucuronic acid moiety of UDPGA with its cationic guanidinium moiety. These results support the hypothesis that differentiation of sugar donor specificity of UGTs occurred locally, in specific plant lineages, after establishment of general regiospecificity for the sugar acceptor. Thus, the plasticity of sugar donor specificity explains, in part, the extraordinary structural diversification of phytochemicals. Abstract Flavonoids are most commonly conjugated with various sugar moieties by UDP-sugar:glycosyltransferases (UGTs) in a lineage-specific manner. Generally, the phylogenetics and regiospecificity of flavonoid UGTs are correlated, indicating that the regiospecificity of UGT differentiated prior to speciation. By contrast, it is unclear how the sugar donor specificity of UGTs evolved. Here, we report the biochemical, homology-modeled, and phylogenetic characterization of flavonoid 7-O-glucuronosyltransferases (F7GAT), which is responsible for producing specialized metabolites in Lamiales plants. All of the Lamiales F7GATs were found to be members of the UGT88-related cluster and specifically used UDP-glucuronic acid (UDPGA). We identified an Arg residue that is specifically conserved in the PSPG box in the Lamiales F7GATs. Substitution of this Arg with Trp was sufficient to convert the sugar donor specificity of the Lamiales F7GATs from UDPGA to UDP-glucose. Homology modeling of the Lamiales F7GAT suggested that the Arg residue plays a critical role in the specific recognition of anionic carboxylate of the glucuronic acid moiety of UDPGA with its cationic guanidinium moiety. These results support the hypothesis that differentiation of sugar donor specificity of UGTs occurred locally, in specific plant lineages, after establishment of general regiospecificity for the sugar acceptor. Thus, the plasticity of sugar donor specificity explains, in part, the extraordinary structural diversification of phytochemicals. Flavonoids are most commonly conjugated with various sugar moieties by UDP-sugar:glycosyltransferases (UGTs) in a lineage-specific manner. Generally, the phylogenetics and regiospecificity of flavonoid UGTs are correlated, indicating that the regiospecificity of UGT differentiated prior to speciation. By contrast, it is unclear how the sugar donor specificity of UGTs evolved. Here, we report the biochemical, homology-modeled, and phylogenetic characterization of flavonoid 7- O -glucuronosyltransferases (F7GAT), which is responsible for producing specialized metabolites in Lamiales plants. All of the Lamiales F7GATs were found to be members of the UGT88-related cluster and specifically used UDP-glucuronic acid (UDPGA). We identified an Arg residue that is specifically conserved in the PSPG box in the Lamiales F7GATs. Substitution of this Arg with Trp was sufficient to convert the sugar donor specificity of the Lamiales F7GATs from UDPGA to UDP-glucose. Homology modeling of the Lamiales F7GAT suggested that the Arg residue plays a critical role in the specific recognition of anionic carboxylate of the glucuronic acid moiety of UDPGA with its cationic guanidinium moiety. These results support the hypothesis that differentiation of sugar donor specificity of UGTs occurred locally, in specific plant lineages, after establishment of general regiospecificity for the sugar acceptor. Thus, the plasticity of sugar donor specificity explains, in part, the extraordinary structural diversification of phytochemicals.
Author	Fukuchi-Mizutani, Masako Horikawa, Manabu Ishiguro, Masaji Nakayama, Toru Noguchi, Akio Kiso, Yoshinobu Fukui, Yuko Iuchi-Okada, Asako Ono, Eiichiro
AuthorAffiliation	a Institute for Health Care Science, Suntory Ltd., Suntory Research Center, Shimamoto, Mishima, Osaka 618-8503, Japan b Suntory Institute for Bioorganic Research, Shimamoto, Mishima, Osaka, 618-8503 Japan c Institute for Plant Science, Suntory Ltd., Suntory Research Center, Shimamoto, Mishima, Osaka 618-8503, Japan d Department of Biomolecular Engineering, Graduate School of Engineering, Tohoku University, Sendai, Miyagi 980-8579, Japan
AuthorAffiliation_xml	– name: b Suntory Institute for Bioorganic Research, Shimamoto, Mishima, Osaka, 618-8503 Japan – name: d Department of Biomolecular Engineering, Graduate School of Engineering, Tohoku University, Sendai, Miyagi 980-8579, Japan – name: a Institute for Health Care Science, Suntory Ltd., Suntory Research Center, Shimamoto, Mishima, Osaka 618-8503, Japan – name: c Institute for Plant Science, Suntory Ltd., Suntory Research Center, Shimamoto, Mishima, Osaka 618-8503, Japan
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BackLink	https://www.ncbi.nlm.nih.gov/pubmed/19454730$$D View this record in MEDLINE/PubMed
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Copyright	Copyright 2009 American Society of Plant Biologists Copyright American Society of Plant Biologists May 2009 Copyright © 2009, American Society of Plant Biologists
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Notes	ObjectType-Article-1 SourceType-Scholarly Journals-1 ObjectType-Feature-2 content type line 23 Address correspondence to eiichiro_ono@suntory.co.jp. Online version contains Web-only data. www.plantcell.org/cgi/doi/10.1105/tpc.108.063826 The author responsible for distribution of materials integral to the findings presented in this article in accordance with the policy described in the Instructions for Authors (www.plantcell.org) is: Eiichiro Ono (eiichiro_ono@suntory.co.jp).
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Snippet	Flavonoids are most commonly conjugated with various sugar moieties by UDP-sugar:glycosyltransferases (UGTs) in a lineage-specific manner. Generally, the... Flavonoids are most commonly conjugated with various sugar moieties by UDP-sugar: glycosyltransferases (UGTs) in a lineage-specific manner. Generally, the... Abstract Flavonoids are most commonly conjugated with various sugar moieties by UDP-sugar:glycosyltransferases (UGTs) in a lineage-specific manner. Generally,...
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SubjectTerms	Amino Acid Sequence Amino acids Carbohydrate Metabolism Carboxylates Cloning, Molecular Complementary DNA Conserved Sequence Enzymes Flavones Flavonoids Flavonoids - chemistry Flavonoids - metabolism Glycosyltransferases - chemistry Glycosyltransferases - classification Glycosyltransferases - metabolism Lamiaceae - enzymology Magnoliopsida - enzymology Metabolites Models, Molecular Molecular Sequence Data Phylogeny Plant biochemistry Plant cells Plantago - enzymology Plants Protein Structure, Tertiary Sequence Alignment Speciation Substrate Specificity Sugar Sugars
Title	Local Differentiation of Sugar Donor Specificity of Flavonoid Glycosyltransferase in Lamiales
URI	https://www.jstor.org/stable/40536924 https://www.ncbi.nlm.nih.gov/pubmed/19454730 https://www.proquest.com/docview/218802449 https://search.proquest.com/docview/67492503 https://pubmed.ncbi.nlm.nih.gov/PMC2700533
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