TY - JOUR T1 - Seed hemicelluloses tailor mucilage properties and salt tolerance JF - bioRxiv DO - 10.1101/2020.08.03.234708 SP - 2020.08.03.234708 AU - Bo Yang AU - Florian Hofmann AU - Björn Usadel AU - Cătălin Voiniciuc Y1 - 2020/01/01 UR - http://biorxiv.org/content/early/2020/08/04/2020.08.03.234708.abstract N2 - While Arabidopsis seed coat epidermal cells have become an excellent genetic system to study the biosynthesis and structural roles of various cell wall polymers, the physiological function of the secreted mucilaginous polysaccharides remains ambiguous. Seed mucilage is shaped by two distinct classes of highly substituted hemicelluloses along with cellulose and structural proteins, but their interplay has not been explored.We deciphered the functions of four distinct classes of cell wall polymers by generating a series of double mutants with defects in heteromannan, xylan, cellulose, or the arabinogalactan protein SALT-OVERLY SENSITIVE 5 (SOS5), and evaluating their impact on mucilage architecture and on seed germination during salt stress.We discovered that muci10 seeds, lacking heteromannan branches, had elevated tolerance to salt stress, while heteromannan elongation mutants exhibited reduced germination in CaCl2. In contrast, xylan made by MUCILAGE-RELATED21 (MUCI21) was found to be required for the adherence of mucilage pectin to microfibrils made by CELLULOSE SYNTHASE5 (CESA5) as well as to a SOS5-mediated network.Our results indicate that the substitution of xylan and glucomannan in seeds can fine-tune mucilage adherence and salt tolerance, respectively. The study of germinating seeds can thus provide insights into the synthesis and modification of complex glycans.Competing Interest StatementThe authors have declared no competing interest. ER -