| Transcriptional control of plant defence responses P Buscaill, S Rivas Current opinion in plant biology 20, 35-46, 2014 | 256 | 2014 |
| A conserved core of programmed cell death indicator genes discriminates developmentally and environmentally induced programmed cell death in plants Y Olvera-Carrillo, M Van Bel, T Van Hautegem, M Fendrych, M Huysmans, ... Plant physiology 169 (4), 2684-2699, 2015 | 172 | 2015 |
| Glycosidase and glycan polymorphism control hydrolytic release of immunogenic flagellin peptides P Buscaill, B Chandrasekar, N Sanguankiattichai, J Kourelis, F Kaschani, ... Science 364 (6436), eaav0748, 2019 | 106 | 2019 |
| Defeated by the nines: nine extracellular strategies to avoid microbe-associated molecular patterns recognition in plants P Buscaill, RAL van der Hoorn The Plant Cell 33 (7), 2116-2130, 2021 | 36 | 2021 |
| A non canonical subtilase attenuates the transcriptional activation of defence responses in Arabidopsis thaliana I Serrano, P Buscaill, C Audran, C Pouzet, A Jauneau, S Rivas Elife 5, e19755, 2016 | 28 | 2016 |
| BGAL1 depletion boosts the level of β‐galactosylation of N‐ and O‐glycans in N. benthamiana R Kriechbaum, E Ziaee, C Grünwald‐Gruber, P Buscaill, ... Plant biotechnology journal 18 (7), 1537-1549, 2020 | 25 | 2020 |
| Agromonas: a rapid disease assay for Pseudomonas syringae growth in agroinfiltrated leaves P Buscaill, N Sanguankiattichai, YJ Lee, J Kourelis, G Preston, ... The Plant Journal 105 (3), 831-840, 2021 | 17 | 2021 |
| How bacteria overcome flagellin pattern recognition in plants N Sanguankiattichai, P Buscaill, GM Preston Current Opinion in Plant Biology 67, 102224, 2022 | 12 | 2022 |
| Activity‐based proteomics uncovers suppressed hydrolases and a neo‐functionalised antibacterial enzyme at the plant–pathogen interface DJ Sueldo, A Godson, F Kaschani, D Krahn, T Kessenbrock, P Buscaill, ... New Phytologist 241 (1), 394-408, 2024 | 3 | 2024 |
| Broad‐range metalloprotease profiling in plants uncovers immunity provided by defence‐related metalloenzyme K Morimoto, D Krahn, F Kaschani, D Hopkinson‐Woolley, A Gee, ... New Phytologist 235 (3), 1287-1301, 2022 | 3 | 2022 |
| Depletion of the NbCORE receptor drastically improves agroinfiltration productivity in older Nicotiana benthamiana plants I Dodds, C Chen, P Buscaill, RAL van Der Hoorn Plant Biotechnology Journal 21 (6), 1103-1105, 2023 | 1 | 2023 |
| Chemoproteomics Reveals the Pan-HER Kinase Inhibitor Neratinib To Target an Arabidopsis Epoxide Hydrolase Related to Phytohormone Signaling S Ninck, V Halder, JH Krahn, D Beisser, S Resch, I Dodds, R Scholtysik, ... ACS Chemical Biology 18 (5), 1076-1088, 2023 | 1 | 2023 |
| Releasing hidden MAMPs from precursor proteins in plants C Chen, RAL van der Hoorn, P Buscaill Trends in Plant Science, 2023 | | 2023 |
| Monitoring Pseudomonas syringaePseudomonas syringae (P. syringae) Growth in Agroinfiltrated Leaves: The “Agromonas” Assay P Buscaill, RAL van der Hoorn Plant Proteases and Plant Cell Death: Methods and Protocols, 247-259, 2022 | | 2022 |
| Pseudomonas syringae produces an inhibitor of a plant defence-related Beta-galactosidase N Sanguankiattichai, B Chandrasekar, P Buscaill, RAL Van Der Hoorn, ... 2019 IS-MPMI XVIII Congress, 2019 | | 2019 |
| Glycosidase and glycan polymorphism control hydrolytic release of immunogenic flagellin peptides. Science 364: eaav0748 P Buscaill, B Chandrasekar, N Sanguankiattichai, J Kourelis, F Kaschani, ... | | 2019 |
| A protease of the subtilase family negatively regulates plant defence through its interaction with the Arabidopsis transcription factor AtMYB30 P Buscaill | | 2016 |
| Une protéase de la famille des subtilases régule négativement les réactions de défense à travers son interaction avec le facteur de transcription d’Arabidopsis AtMYB30 P Buscaill, S Rivas | | 2016 |
Professor Renier A. L. van der HoornDepartment of Plant Sciences, University of OxfordVerified email at plants.ox.ac.uk
