Inlay

📺 Sur CNews, un cas de désinformation climatique est recensé toutes les heures ! Depuis janvier, @quotaclimat.org, @dataforgoodfr.bsky.social et @sciencefeedback.bsky.social ont recensé 529 cas de désinformation climatique dans les médias audiovisuels. Plus d'infos 👉 vert.eco/articles/529...

1\ bmcbiol.biomedcentral.com/articles/10.... 🌿🌿Our article on fern immunity has been peer-reviewed 🌿🌿 Thanks to @madeleinebaker.bsky.social @kellerjeanphd.bsky.social @maximebonhomme.bsky.social @pierremarcdelaux.bsky.social and @jacquet-chris.bsky.social a quick thread 🧵 1/4

1/ ✨ New preprint alert ✨ It is my pleasure to share: "Stepwise evolution of the developmental and symbiotic functions of DELLA in land plants" Here we investigated the role of the single GRAS transcription factor DELLA in #MyMarchantia doi.org/10.64898/202... #PlantScience A thread...

Have you ever wondered why pumpkins are never purple or blue like other plants? 🎃🌈 While most plants can produce pink, blue, and purple pigments (thanks to anthocyanins), the Cucurbitaceae family 🍈 🍉 🥒have lost all the pathway genes to produce these pigments. 🔗 doi.org/10.1101/2025...

Land plants include angiosperms, gymnosperms, bryophytes, lycophytes, and ferns, each of which may deploy distinct strategies to resist pathogens. Here, we investigate fern-pathogen interactions by characterizing novel pathosystems and analyzing the diversity of fern immune receptors. A collection of fern species was inoculated with a diverse set of filamentous microbes, and disease symptoms were assessed. We further leveraged published genome mining tools to analyse the diversity of receptor-like kinases, receptor-like proteins (RLKs/RLPs) and nucleotide-binding and leucine-rich repeats (NLRs), along with key immune signalling components, in ferns. Our results reveal that ferns exhibit a range of responses to pathogens, including putative non-host resistance and more specific resistance mechanisms. Among ten ferns tested, Pteris vittata displays the broadest spectrum of pathogen compatibility. Genome mining indicates that ferns encode a diverse repertoire of putative immune receptors, antimicrobial peptides, and mediators of systemic acquired resistance. Ferns possess numerous RLKs/RLPs, resembling those required for cell-surface immunity in angiosperms. They also encode diverse NLRs, including sub-families lost in flowering plants. These findings provide insights into disease resistance evolution and open promising perspectives for crop protection strategies.