Natural Variation Reveals a Key Role for Rhamnogalacturonan I in Seed Outer Mucilage and Underlying Genes

On imbibition, Arabidopsis ( ) seeds release polysaccharides from their epidermal cells that form a two-layered hydrogel, termed mucilage. Analysis of a publicly available data set of outer seed mucilage traits of over 300 accessions showed little natural variation in composition. This mucilage is a...

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Bibliographic Details
Published in:Plant physiology (Bethesda) 2019-12, Vol.181 (4), p.1498-1518
Main Authors: Fabrissin, Isabelle, Cueff, Gwendal, Berger, Adeline, Granier, Fabienne, Sallé, Christine, Poulain, Damien, Ralet, Marie-Christine, North, Helen M
Format: Article
Language:English
Subjects:
Adaptation, Physiological - genetics
Amine Oxidase (Copper-Containing) - metabolism
Amino Acid Substitution - genetics
Arabidopsis - genetics
Arabidopsis Proteins - genetics
Arabidopsis Proteins - metabolism
Biopolymers - metabolism
Cellulose - metabolism
Ecotype
Genes, Plant
Genetic Variation
Genome-Wide Association Study
Life Sciences
Macromolecular Substances - metabolism
Models, Biological
Molecular Sequence Annotation
Mutation - genetics
Pectins - genetics
Pectins - metabolism
Plant Mucilage - genetics
Polymorphism, Single Nucleotide - genetics
Principal Component Analysis
Quantitative Trait, Heritable
Seeds - genetics
Vegetal Biology
Xylans - metabolism
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Summary:On imbibition, Arabidopsis ( ) seeds release polysaccharides from their epidermal cells that form a two-layered hydrogel, termed mucilage. Analysis of a publicly available data set of outer seed mucilage traits of over 300 accessions showed little natural variation in composition. This mucilage is almost exclusively made up of rhamnogalacturonan I (RGI), highlighting the importance of this pectin for outer mucilage function. In a genome-wide association study, observed variations in polymer amount and macromolecular characteristics were linked to several genome polymorphisms, indicating the complexity of their genetic regulation. Natural variants with high molar mass were associated with a gene encoding a putative glycosyltransferase called MUCILAGE-RELATED70 (MUCI70). insertion mutants produced many short RGI polymers that were highly substituted with xylan, confirming that polymorphism in this gene can affect RGI polymer size. A second gene encoding a putative copper amine oxidase of clade 1a (CuAOα1) was associated with natural variation in the amount of RGI present in the outer mucilage layer; mutants validated its role in pectin production. As the mutant phenotype is unique, with RGI production only impaired for outer mucilage, this indicates that CuAOα1 contributes to a further mechanism controlling mucilage synthesis.
ISSN:0032-0889
1532-2548
DOI:10.1104/pp.19.00763