Thank you for visiting nature.com. You are using a browser version with limited support for CSS. To obtain
the best experience, we recommend you use a more up to date browser (or turn off compatibility mode in
Internet Explorer). In the meantime, to ensure continued support, we are displaying the site without styles
and JavaScript.
Methylation is a frequent modification of glycans and polysaccharides. This process relies on the transport of cytosolic S-adenosyl-l-methionine (SAM) into the Golgi lumen. This work identifies Golgi-localized major facilitator superfamily transporter members as putative SAM transporters in plants and reveals their importance for polysaccharide methylation and maintenance of the properties of cell walls.
Next-generation crop protection strategies must be clean and green as well as effective. Delivery of double-stranded RNA (dsRNA) as a BioClay spray to control the sap-sucking pest whitefly is one such strategy. This tool disrupts multiple whitefly life cycle stages in planta, with adjuvant-enhanced foliar uptake complementing the clay-mediated delivery of dsRNA.
Xylan-rich nanodomains at pit borders of xylem vessels determine a pitted wall pattern by anchoring cellulosic nanofibrils at the pit edges and are crucial to support vessel robustness, water transport and leaf transpiration. These nanocompartments are mostly produced by the de novo xylan synthase IRREGULAR XYLEM (IRX)10 and its homologues.
By sequencing and analyzing the genomes of the partially and fully mycoheterotrophic orchids Platanthera zijinensis and P. guangdongensis, respectively, we reveal not only the potential molecular basis underlying important mycoheterotrophic traits, but also nutrient supplement mechanisms in the early and later stage of mycoheterotrophic growth, illuminating the evolution of mycoheterotrophic plants.
In plants, impairing transgenerational resetting of juvenility leads to premature flowering in the offspring. This robust reset process is mediated by de novo activation of MIR156/7-family genes at different developmental stages through distinct reprogramming routes.