The F8H Glycosyltransferase is a Functional Paralog of FRA8 Involved in Glucuronoxylan Biosynthesis in Arabidopsis
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概要
- 論文の詳細を見る
- 2009-04-01
著者
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Ye Zheng-hua
Department Of Plant Biology University Of Georgia
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ZHONG Ruiqin
Department of Plant Biology, University of Georgia
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Zhong Ruiqin
Univ. Georgia Ga Usa
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Zhong Ruiqin
Department Of Plant Biology University Of Georgia
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LEE Chanhui
Department of Plant Biology, University of Georgia
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Ye Zheng‐hua
Department Of Plant Biology University Of Georgia
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Teng Quincy
National Exposure Research Laboratory Us Environmental Protection Agency
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HUANG Wenlin
National Exposure Research Laboratory, US Environmental Protection Agency
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Lee Chanhui
Department Of Plant Biology University Of Georgia
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Huang Wenlin
National Exposure Research Laboratory Us Environmental Protection Agency
関連論文
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- Overexpression of miR165 Affects Apical Meristem Formation, Organ Polarity Establishment and Vascular Development in Arabidopsis
- amphivasal vascular bundle 1, a Gain-of-Function Mutation of the IFL1/REV Gene, Is Associated with Alterations in the Polarity of Leaves, Stems and Carpels
- The irregular xylem9 Mutant is Deficient in Xylan Xylosyltransferase Activity
- The Poplar GT8E and GT8F Glycosyltransferases are Functional Orthologs of Arabidopsis PARVUS Involved in Glucuronoxylan Biosynthesis
- Down-Regulation of PoGT47C Expression in Poplar Results in a Reduced Glucuronoxylan Content and an Increased Wood Digestibility by Cellulase
- The F8H Glycosyltransferase is a Functional Paralog of FRA8 Involved in Glucuronoxylan Biosynthesis in Arabidopsis
- The poplar GT8E and GT8F glycosyltransferases are functional orthologs of arabidopsis Parvus involved in glucuronoxylan biosynthesis
- Down-regulation of PoGT47C expression in poplar results in a reduced glucuronoxylan content and an increased wood digestibility by cellulase
- The F8H glycosyltransferase is a functional paralog of FRA8 involved in glucuronoxylan biosynthesis in Arabidopsis
- The four Arabidopsis Reduced Wall Acetylation genes are expressed in secondary wall-containing cells and required for the acetylation of xylan
- Molecular and Biochemical Characterization of Three WD-Repeat-Domain-containing Inositol Polyphosphate 5-Phosphatases in Arabidopsis thaliana
- The Poplar MYB Transcription Factors, PtrMYB3 and PtrMYB20, are Involved in the Regulation of Secondary Wall Biosynthesis
- MYB83 Is a Direct Target of SND1 and Acts Redundantly with MYB46 in the Regulation of Secondary Cell Wall Biosynthesis in Arabidopsis
- The PARVUS Gene is Expressed in Cells Undergoing Secondary Wall Thickening and is Essential for Glucuronoxylan Biosynthesis
- Transcriptional activation of secondary wall biosynthesis by rice and maize NAC and MYB transcription factors
- The Four Arabidopsis REDUCED WALL ACETYLATION Genes are Expressed in Secondary Wall-Containing Cells and Required for the Acetylation of Xylan
- Arabidopsis Family GT43 Members are Xylan Xylosyltransferases Required for the Elongation of the Xylan Backbone
- Arabidopsis GUX Proteins Are Glucuronyltransferases Responsible for the Addition of Glucuronic Acid Side Chains onto Xylan
- Arabidopsis Family GT43 Members are Xylan Xylosyltransferases Required for the Elongation of the Xylan Backbone
- Transcriptional Activation of Secondary Wall Biosynthesis by Rice and Maize NAC and MYB Transcription Factors
- MYB46 and MYB83 Bind to the SMRE Sites and Directly Activate a Suite of Transcription Factors and Secondary Wall Biosynthetic Genes
- Three Arabidopsis DUF579 Domain-Containing GXM Proteins are Methyltransferases Catalyzing 4-O-Methylation of Glucuronic Acid on Xylan
- Arabidopsis GUX Proteins Are Glucuronyltransferases Responsible for the Addition of Glucuronic Acid Side Chains onto Xylan
- Three Arabidopsis DUF579 Domain-Containing GXM Proteins are Methyltransferases Catalyzing 4-O-Methylation of Glucuronic Acid on Xylan