Publication: Genetically-clustered antifungal phytocytokines and receptor proteins function together to trigger plant immune signaling
Genetically-clustered antifungal phytocytokines and receptor proteins function together to trigger plant immune signaling
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Lintz, J., Goto, Y., Bender, K. W., Bchini, R., Dubrulle, G., Cawston, E., Zipfel, C., Duplessis, S., & Petre, B. (2023). Genetically-clustered antifungal phytocytokines and receptor proteins function together to trigger plant immune signaling (No. 568785; BioRxiv). https://doi.org/10.1101/2023.11.27.568785
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SummaryPhytocytokines regulate plant immunity via cell-surface receptors.Populus trichocarpaRUST INDUCED SECRETED PEPTIDE 1 (PtRISP1) exhibits an elicitor activity in poplar, as well as a direct antimicrobial activity against rust fungi.PtRISP1gene directly clusters with a gene encoding a leucine-rich repeat receptor protein (LRR-RP), that we termed RISP- ASSOCIATED LRR-RP (PtRALR).In this study, we used phylogenomics to characterize the RISP and RALR gene families, and functional assays to characterize RISP/RALR pairs.BothRISPandRALR
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Lintz, J., Goto, Y., Bender, K. W., Bchini, R., Dubrulle, G., Cawston, E., Zipfel, C., Duplessis, S., & Petre, B. (2023). Genetically-clustered antifungal phytocytokines and receptor proteins function together to trigger plant immune signaling (No. 568785; BioRxiv). https://doi.org/10.1101/2023.11.27.568785
