MUCILAGE-RELATED10 Produces Galactoglucomannan That Maintains Pectin and Cellulose Architecture in Arabidopsis Seed Mucilage

Voiniciuc, Cătălin; Schmidt, Maximilian Heinrich-Wilhelm; Berger, Adeline; Yang, Bo; Ebert, Berit; Scheller, Henrik Vibe; North, Helen; Usadel, Björn; Günl, Markus

doi:10.1104/pp.15.00851

Cited by 121 publications

(239 citation statements)

References 103 publications

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“…Despite their low abundance, these components could play essential roles in controlling mucilage properties (Voiniciuc et al, 2015c). For example, glucomannans and galactoglucomannans synthesized by CSLA2 and MUCI10 seem to be involved in structuring the adherent layer of mucilage (Yu et al, 2014;Voiniciuc et al, 2015b). Determining how these different polymers are involved in RG-I attachment to cellulose is challenging, and it is unclear which are part of the mucilage itself or originate from fragments of primary cell wall released when the epidermal cells rupture on imbibition.…”

Section: Discussionmentioning

confidence: 99%

“…Therefore, in addition to Xyl branching of RG-I, other pectin modifications also would appear to influence adherence, and these remain to be characterized. Glucomannans and galactoglucomannans can interact with cellulose and appear to participate in the organization and crystallization of mucilage cellulose (Yu et al, 2014;Voiniciuc et al, 2015b). csla2 and muci10 mutants affected in glucomannan and galactoglucomannan synthesis have more densely packed adherent layer polymers, with a small repartitioning of RG-I to the outer mucilage layer.…”

Section: Discussionmentioning

confidence: 99%

“…csla2 and muci10 mutants affected in glucomannan and galactoglucomannan synthesis have more densely packed adherent layer polymers, with a small repartitioning of RG-I to the outer mucilage layer. Voiniciuc et al (2015b) proposed that galactoglucomannan serves as a scaffold around the cellulosic rays that control mucilage density. This would involve interactions between galactoglucomannan and cellulose and, probably, other mucilage polymers.…”

Section: Discussionmentioning

confidence: 99%

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Xylans Provide the Structural Driving Force for Mucilage Adhesion to the Arabidopsis Seed Coat

et al. 2016

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Arabidopsis (Arabidopsis thaliana) seed coat epidermal cells produce large amounts of mucilage that is released upon imbibition. This mucilage is structured into two domains: an outer diffuse layer that can be easily removed by agitation and an inner layer that remains attached to the outer seed coat. Both layers are composed primarily of pectic rhamnogalacturonan I (RG-I), the inner layer also containing rays of cellulose that extend from the top of each columella. Perturbation in cellulosic ray formation has systematically been associated with a redistribution of pectic mucilage from the inner to the outer layer, in agreement with cellulose-pectin interactions, the nature of which remained unknown. Here, by analyzing the outer layer composition of a series of mutant alleles, a tight proportionality of xylose, galacturonic acid, and rhamnose was evidenced, except for mucilage modified5-1 (mum5-1; a mutant showing a redistribution of mucilage pectin from the inner adherent layer to the outer soluble one), for which the rhamnose-xylose ratio was increased drastically. Biochemical and in vitro binding assay data demonstrated that xylan chains are attached to RG-I chains and mediate the adsorption of mucilage to cellulose microfibrils. mum5-1 mucilage exhibited very weak adsorption to cellulose. MUM5 was identified as a putative xylosyl transferase recently characterized as MUCI21. Together, these findings suggest that the binding affinity of xylose ramifications on RG-I to a cellulose scaffold is one of the factors involved in the formation of the adherent mucilage layer.

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Section: Discussionmentioning

confidence: 99%

Section: Discussionmentioning

confidence: 99%

Section: Discussionmentioning

confidence: 99%

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Xylans Provide the Structural Driving Force for Mucilage Adhesion to the Arabidopsis Seed Coat

et al. 2016

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“…The dynamics of mannan have yet to be explored in great detail, although new insights into their structural roles were gained in recent years (Yu et al, 2014;Voiniciuc et al, 2015a). Some mAb probes are available (e.g.…”

Section: Xylan Dynamics In Secondary Cell Wallsmentioning

confidence: 99%

Monitoring Polysaccharide Dynamics in the Plant Cell Wall

2018

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“…Recently, heteromannan produced by CELLULOSE SYNTHASE-LIKE A2 (Yu et al, 2014) and MUCILAGE-RELATED10 (MUCI10; Voiniciuc et al, 2015a) was shown to control the density of polysaccharides in the mucilage capsule. Using a coexpression and sequencebased strategy, we predicted that MUCI10 (GT34 member) is a mucilage biosynthetic gene.…”

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confidence: 99%

Highly Branched Xylan Made by IRX14 and MUCI21 Links Mucilage to Arabidopsis Seeds

et al. 2015

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ORCID IDs: 0000-0001-9105-014X (C.V.); 0000-0003-4576-6774 (M.H.-W.S.).All cells of terrestrial plants are fortified by walls composed of crystalline cellulose microfibrils and a variety of matrix polymers. Xylans are the second most abundant type of polysaccharides on Earth. Previous studies of Arabidopsis (Arabidopsis thaliana) irregular xylem (irx) mutants, with collapsed xylem vessels and dwarfed stature, highlighted the importance of this cell wall component and revealed multiple players required for its synthesis. Nevertheless, xylan elongation and substitution are complex processes that remain poorly understood. Recently, seed coat epidermal cells were shown to provide an excellent system for deciphering hemicellulose production. Using a coexpression and sequence-based strategy, we predicted several MUCILAGE-RELATED (MUCI) genes that encode glycosyltransferases (GTs) involved in the production of xylan. We now show that MUCI21, a member of an uncharacterized clade of the GT61 family, and IRX14 (GT43 protein) are essential for the synthesis of highly branched xylan in seed coat epidermal cells. Our results reveal that xylan is the most abundant xylose-rich component in Arabidopsis seed mucilage and is required to maintain its architecture. Characterization of muci21 and irx14 single and double mutants indicates that MUCI21 is a Golgi-localized protein that likely facilitates the addition of xylose residues directly to the xylan backbone. These unique branches seem to be necessary for pectin attachment to the seed surface, while the xylan backbone maintains cellulose distribution. Evaluation of muci21 and irx14 alongside mutants that disrupt other wall components suggests that mucilage adherence is maintained by complex interactions between several polymers: cellulose, xylans, pectins, and glycoproteins.

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MUCILAGE-RELATED10 Produces Galactoglucomannan That Maintains Pectin and Cellulose Architecture in Arabidopsis Seed Mucilage

Cited by 121 publications

References 103 publications

Xylans Provide the Structural Driving Force for Mucilage Adhesion to the Arabidopsis Seed Coat

Xylans Provide the Structural Driving Force for Mucilage Adhesion to the Arabidopsis Seed Coat

Monitoring Polysaccharide Dynamics in the Plant Cell Wall

Highly Branched Xylan Made by IRX14 and MUCI21 Links Mucilage to Arabidopsis Seeds

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