AI Article Synopsis
- The production and release of mucilage polysaccharides in Plantago ovata seeds differ significantly from those in the model plant Arabidopsis.
- Using microscopy, researchers observed that P. ovata seeds do not have a protective outer cell layer; instead, the mucilage forms a thin layer covering the entire seed and expands outward when wet.
- The initial hydrated mucilage layer, rich in pectin, accelerates hydration, while the bulk of the mucilage, mainly heteroxylan, provides structural integrity; the study highlights the complexity of mucilage synthesis and storage across different plant species.
Article Abstract
Seed mucilage polysaccharide production, storage and release in Plantago ovata 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.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC7366641 | PMC |
| http://dx.doi.org/10.1038/s41598-020-68685-w | DOI Listing |
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