Abstract
Seed mucilage polysaccharide production, storage and release in Plantagoovata is strikingly different to that of the model plant Arabidopsis. We have used microscopy techniques to track the development of mucilage secretory cells and demonstrate that mature P.ovata seeds do not have an outer intact cell layer within which the polysaccharides surround internal columellae. Instead, dehydrated mucilage is spread in a thin homogenous layer over the entire seed surface and upon wetting expands directly outwards, away from the seed. Observing mucilage expansion in real time combined with compositional analysis allowed mucilage layer definition and the roles they play in mucilage release and architecture upon hydration to be explored. The first emergent layer of hydrated mucilage is rich in pectin, extremely hydrophilic, and forms an expansion front that functions to ‘jumpstart’ hydration and swelling of the second layer. This next layer, comprising the bulk of the expanded seed mucilage, is predominantly composed of heteroxylan and appears to provide much of the structural integrity. Our results indicate that the synthesis, deposition, desiccation, and final storage position of mucilage polysaccharides must be carefully orchestrated, although many of these processes are not yet fully defined and vary widely between myxospermous plant species.
Highlights
Seed mucilage polysaccharide production, storage and release in Plantago ovata is strikingly different to that of the model plant Arabidopsis
Mucilage polysaccharide accumulation in the mucilage secretory cells’ (MSCs) of P. ovata seeds follows a different developmental pattern to that occurring in the MSCs of Arabidopsis
The mechanism by which different cell layers are converted into seed tissues and the possible remodelling thereafter appears to be of central importance for MSC development in P. ovata
Summary
Storage and release in Plantago ovata is strikingly different to that of the model plant Arabidopsis. At approximately 7 days post-anthesis (DPA), starch granules begin to accumulate in the MSCs and polysaccharide deposition starts in the peripheral “corners” of the cells This pushes the protoplasm to form a central volcano-like structure in the cell. Each of the layers and their polysaccharide contents act in concert to effectively hydrate the polysaccharides, mechanically forcing the radial cell wall to rupture in a peeling fashion and enabling mucilage to be released In other species such as Salvia hispanica (chia) and Coleus blumei, the seed mucilage polysaccharides are stored in the outer epidermal cell layer(s) of a nutlet that encases the true seed w ithin[37,38], making these species myxocarpous rather than myxospermous. The events leading to the release of mucilage in these species have not been documented in detail but there appears to be great diversity in the mucilage extrusion structures between plant types[1]
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