Journal
PLANT SIGNALING & BEHAVIOR
Volume 9, Issue 2, Pages -Publisher
TAYLOR & FRANCIS INC
DOI: 10.4161/psb.27797
Keywords
acetylation; acetyltransferase; GUX; RWA; secondary wall; xylan
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Funding
- Division of Chemical Sciences, Geosciences, and Biosciences, Office of Basic Energy Sciences of the US Department of Energy [DE-FG02-03ER15415]
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Xylan is the second most abundant polysaccharide in secondary walls of dicot plants and one of its structural features is the high degree of acetylation of xylosyl residues. In Arabidopsis, about 60% of xylosyl residues in xylan are acetylated and the biochemical mechanisms controlling xylan acetylation are largely unknown. A recent report by Yuan et al. (2013) revealed the essential role of a DUF231 domain-containing protein, ESKIMO1 (ESK1), in xylan acetylation in Arabidopsis as the esk1 mutation caused specific reductions in the degree of xylan 2-O or 3-O-monoacetylation and in the activity of xylan acetyltransferase. Interestingly, the esk1 mutation also resulted in an elevation of glucuronic acid (GlcA) substitutions in xylan. Since GlcA substitutions in xylan occur at the O-2 position of xylosyl residues, it is plausible that the increase in GlcA substitutions in the esk1 mutant is attributed to the reduction in acetylation at O-2 of xylosyl residues, which renders more O-2 positions available for GlcA substitutions. Here, we investigated the effect of removal of GlcA substitutions on the degree of xylan acetylation. We found that a complete loss of GlcA substitutions in the xylan of the gux1/2/3 triple mutant led to a significant increase in the degree of xylan acetylation, indicating that xylan acetyltransferases and glucuronyltransferases compete with each other for xylosyl residues for their acetylation or GlcA substitutions in planta. In addition, detailed structure analysis of xylan from the rwa1/2/3/4 quadruple mutant revealed that it had a uniform reduction of acetyl substitutions at different positions of the xylosyl residues, which is consistent with the proposed role of RWAs as acetyl coenzyme A transporters. The significance of these findings is discussed.
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