4.7 Article

An Arabidopsis family GT106 glycosyltransferase is essential for xylan biosynthesis and secondary wall deposition

Journal

PLANTA
Volume 257, Issue 2, Pages -

Publisher

SPRINGER
DOI: 10.1007/s00425-023-04077-4

Keywords

Arabidopsis; Glycosyltransferase; GT106; Secondary wall; Xylan

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In this study, the authors found that the FRA9 gene in Arabidopsis is specifically expressed in secondary wall-forming cells and is essential for the synthesis of the unique xylan reducing end sequence. Knockout mutation or downregulation of FRA9 leads to impaired secondary wall thickening and growth arrest in plants.
Main conclusionWe have demonstrated that the Arabidopsis FRA9 (fragile fiber 9) gene is specifically expressed in secondary wall-forming cells and essential for the synthesis of the unique xylan reducing end sequence.Xylan is made of a linear chain of beta-1,4-linked xylosyl (Xyl) residues that are often substituted with (methyl)glucuronic acid [(Me)GlcA] side chains and may be acetylated at O-2 and/or O-3. The reducing end of xylan from gymnosperms and dicots contains a unique tetrasaccharide sequence consisting of beta-D-Xylp-(1 -> 3)-alpha-L-Rhap-(1 -> 2)-alpha-D-GalpA-(1 -> 4)-D-Xylp, the synthesis of which requires four different glycosyltransferase activities. Genetic analysis in Arabidopsis thaliana has so far implicated three glycosyltransferase genes, FRA8 (fragile fiber 8), IRX8 (irregular xylem 8) and PARVUS, in the synthesis of this unique xylan reducing end sequence. Here, we report the essential role of FRA9, a member of glycosyltransferase family 106 (GT106), in the synthesis of this sequence. The expression of the FRA9 gene was shown to be induced by secondary wall master transcriptional regulators and specifically associated with secondary wall-forming cells, including xylem and fiber cells. T-DNA knockout mutation of the FRA9 gene caused impaired secondary cell wall thickening in leaf veins and a severe arrest of plant growth. RNA interference (RNAi) downregulation of FRA9 led to a significant reduction in secondary wall thickening of fibers, a deformation of xylem vessels and a decrease in xylan content. Structural analysis of xylanase-released xylooligomers revealed that RNAi downregulation of FRA9 resulted in a diminishment of the unique xylan reducing end sequence and complete methylation of xylan GlcA side chains, chemotypes reminiscent of those of the fra8, irx8 and parvus mutants. Furthermore, two FRA9 close homologs from Populus trichocarpa were found to be wood-associated functional orthologs of FRA9. Together, our findings uncover a member of the GT106 family as a new player involved in the synthesis of the unique reducing end sequence of xylan.

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