Abstract
A mutation in the ALTERED XYLOGLUCAN9 (AXY9) gene was found to be causative for the decreased xyloglucan acetylation phenotype of the axy9.1 mutant, which was identified in a forward genetic screen for Arabidopsis (Arabidopsis thaliana) mutants. The axy9.1 mutant also exhibits decreased O-acetylation of xylan, implying that the AXY9 protein has a broad role in polysaccharide acetylation. An axy9 insertional mutant exhibits severe growth defects and collapsed xylem, demonstrating the importance of wall polysaccharide O-acetylation for normal plant growth and development. Localization and topological experiments indicate that the active site of the AXY9 protein resides within the Golgi lumen. The AXY9 protein appears to be a component of the plant cell wall polysaccharide acetylation pathway, which also includes the REDUCED WALL ACETYLATION and TRICHOME BIREFRINGENCE-LIKE proteins. The AXY9 protein is distinct from the TRICHOME BIREFRINGENCE-LIKE proteins, reported to be polysaccharide acetyltransferases, but does share homology with them and other acetyltransferases, suggesting that the AXY9 protein may act to produce an acetylated intermediate that is part of the O-acetylation pathway.
Highlights
A mutation in the ALTERED XYLOGLUCAN9 (AXY9) gene was found to be causative for the decreased xyloglucan acetylation phenotype of the axy9.1 mutant, which was identified in a forward genetic screen for Arabidopsis (Arabidopsis thaliana) mutants
Unlike the linear b-1,4-glucan chains making up cellulose microfibrils, hemicelluloses and pectins consist of a diverse set of glycosyl units and linkages as well as other modifications such as methylation and acetylation (Caffall and Mohnen, 2009; Scheller and Ulvskov, 2010; Pauly et al, 2013)
XyG O-acetylation was reduced in cotyledons and etiolated seedlings in the axy9.1 mutant by 25% and 60%, respectively (Fig. 1; Supplemental Fig. S1)
Summary
A mutation in the ALTERED XYLOGLUCAN9 (AXY9) gene was found to be causative for the decreased xyloglucan acetylation phenotype of the axy9.1 mutant, which was identified in a forward genetic screen for Arabidopsis (Arabidopsis thaliana) mutants. While the TBL gene products seem to affect single wall polysaccharides, Arabidopsis mutants defective for one or more of the four RWA genes have decreased acetylation of multiple polysaccharides and growth phenotypes ranging from mild to severe (Lee et al, 2011; Manabe et al, 2011, 2013). For this reason, and because the RWA proteins are integral membrane proteins with 10 predicted transmembrane domains, it has been hypothesized that they may act as transporters for an activated form of acetate into the Golgi apparatus (Manabe et al, 2011). It has been demonstrated that acetyl-CoA is involved in the pathway of pectin acetylation (Pauly and Scheller, 2000); it is not clear if acetyl-CoA is transported into the Golgi or there is an alternative donor substrate that acts as a carrier
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