about
A Phytophthora infestans cystatin-like protein targets a novel tomato papain-like apoplastic protease.A role in immunity for Arabidopsis cysteine protease RD21, the ortholog of the tomato immune protease C14.The impact of plant-pathogen studies on medicinal drug discovery.Subclassification and biochemical analysis of plant papain-like cysteine proteases displays subfamily-specific characteristics.Balancing selection at the tomato RCR3 Guardee gene family maintains variation in strength of pathogen defensePlant proteases: from phenotypes to molecular mechanisms.Proteolytic pathways induced by herbicides that inhibit amino acid biosynthesis.Phytophthora infestans effector AVRblb2 prevents secretion of a plant immune protease at the haustorial interfaceThe plant proteolytic machinery and its role in defence.Dual disease resistance mediated by the immune receptor Cf-2 in tomato requires a common virulence target of a fungus and a nematodeSmall molecule approaches in plants.Apoplastic effectors secreted by two unrelated eukaryotic plant pathogens target the tomato defense protease Rcr3Enzyme-inhibitor interactions at the plant-pathogen interface.Papain-like cysteine proteases: key players at molecular battlefields employed by both plants and their invaders.Emerging concepts in effector biology of plant-associated organisms.The structural basis of specific protease-inhibitor interactions at the plant-pathogen interface.Mining the Active Proteome of Arabidopsis thaliana.A model of the C14-EPIC complex indicates hotspots for a protease-inhibitor arms race in the oomycete-potato interaction.Rapid migration in gel filtration of the Cf-4 and Cf-9 resistance proteins is an intrinsic property of Cf proteins and not because of their association with high-molecular-weight proteins.A maize cystatin suppresses host immunity by inhibiting apoplastic cysteine proteases.Minitags for small molecules: detecting targets of reactive small molecules in living plant tissues using 'click chemistry'.Cladosporium Avr2 inhibits tomato Rcr3 protease required for Cf-2-dependent disease resistance.Beta-lactone probes identify a papain-like peptide ligase in Arabidopsis thaliana.Activity profiling of vacuolar processing enzymes reveals a role for VPE during oomycete infection.Effector specialization in a lineage of the Irish potato famine pathogen.An upstream regulator of the 26S proteasome modulates organ size in Arabidopsis thaliana.An effector-targeted protease contributes to defense against Phytophthora infestans and is under diversifying selection in natural hosts.The transcriptome, extracellular proteome and active secretome of agroinfiltrated Nicotiana benthamiana uncover a large, diverse protease repertoire.Defended to the Nines: 25 years of Resistance Gene Cloning Identifies Nine Mechanisms for R Protein Function.Tricked or trapped-Two decoy mechanisms in host-pathogen interactions.Pseudomonas syringae colonizes distant tissues in Nicotiana benthamiana through xylem vessels.Three unrelated protease inhibitors enhance accumulation of pharmaceutical recombinant proteins in N. benthamiana.DIGE-ABPP by click chemistry: pairwise comparison of serine hydrolase activities from the apoplast of infected plants.Multiplex Fluorescent, Activity-Based Protein Profiling Identifies Active α-Glycosidases and Other Hydrolases in Plants.From Guard to Decoy: a new model for perception of plant pathogen effectorsInvolvement of cathepsin B in the plant disease resistance hypersensitive responseProteasome activity imaging and profiling characterizes bacterial effector syringolin AA Substrate-Inspired Probe Monitors Translocation, Activation, and Subcellular Targeting of Bacterial Type III Effector Protease AvrPphBDo proteolytic cascades exist in plants?Activity-based protein profiling of infected plants
P50
Q31073721-659B9DD7-50F1-40B8-885C-875E436B0A85Q34125038-81009F47-E30E-4CA5-9A30-DDF95E9ACDB5Q34147144-7498FE1B-B2C9-47E3-9853-A3E284BE9DBAQ34174553-E92304E9-2178-4FCA-9D7D-197610B3EDA4Q34350949-D9328A34-1A67-483A-B1D2-F0CEDFA0B924Q34747312-39AF94C8-0557-482E-AE01-AAE45FCBFEAFQ34989409-4BA439B8-29EA-4578-BB8F-A03903FE8EF3Q35650921-D06C0EC2-4686-4CF0-B8D7-EED448525D61Q35825017-9D8D8BE5-49F1-43B8-BDF3-4AE62B6238BFQ36056585-1708A53F-C5FA-4875-887A-68A4D21A1C94Q36701354-D4ECD00D-BDE4-4707-BDC3-E4445ABF1D71Q37083708-8FB9A9FC-919D-4D60-AF24-1A8DCF863C84Q37190223-418D2C86-EF90-4D87-9E4E-E2E9EFAA1A0AQ37244403-8DBB1FAD-1266-41D9-9E38-CB158DD121EFQ37365393-3D718137-E8FF-41D3-A110-BE05F7FA8840Q38128425-FE04A2E0-4CD7-4B3F-975C-5511660A847DQ41830127-124BB08F-763F-49B8-8E16-E9C4DB218546Q42118127-7CF08055-757F-4EB5-9347-7713345223E7Q44530152-C6B834C9-80E7-4811-98C0-EFEB83080F29Q46272990-883A5A6B-8AE4-4210-B743-F28F11D19216Q46373670-30D5070F-9507-4103-878A-76FAAB8A6FC5Q46450242-69C25A44-FD51-4640-9BD6-046928DE6E58Q46460108-4910D5E3-60B5-4BA4-8ABD-BEA7B0F980ABQ46667736-B2A3F7D5-4DE1-46D3-A25F-7F65E419BC60Q46938256-ED6B489D-0BC7-4533-992D-C9D44ED37C7FQ47265556-1F4358D7-1199-4930-AF96-D6E55979415CQ47353020-02EA1267-D12F-4BCD-BF9C-6165BFD82576Q47621344-E430EBD8-864B-4228-93B8-139583CF7F1CQ49571482-413CD61F-AE9C-4683-9E7F-43B463276AEFQ49979304-5B7C83D7-0AFB-4C76-9B27-EDC6B781CFBFQ50521081-1A9AD402-E794-4DC1-9465-1C2DD79C414EQ52671766-58E17C96-7255-4BD5-8DFE-2452E9E0CF1AQ53290633-59605ACC-0FCD-4D72-B448-036C4B425787Q54253070-3F9CBC4A-ABA3-4631-9D33-52880D2BF5D8Q57441458-3DC7585B-A195-4EEF-A85F-A0A693B52EF5Q57447044-E27ABDEE-D93F-4178-BF10-727C7ED625E6Q64166864-5EB12D2B-D01D-42CE-82E4-57CCA8FCB91BQ64168409-6475FFC1-4476-4D7A-B22C-164F5D50D23DQ64228488-139ED95A-CDFF-4446-B42E-520A178CC242Q83065705-D3DA9A54-7340-4B17-A17E-7ED171D74C31
P50
description
Forscher
@de
chercheur
@fr
investigador
@es
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
研究者
@zh
name
Renier van der Hoorn
@ast
Renier van der Hoorn
@en
Renier van der Hoorn
@es
Renier van der Hoorn
@nl
type
label
Renier van der Hoorn
@ast
Renier van der Hoorn
@en
Renier van der Hoorn
@es
Renier van der Hoorn
@nl
prefLabel
Renier van der Hoorn
@ast
Renier van der Hoorn
@en
Renier van der Hoorn
@es
Renier van der Hoorn
@nl
P106
P21
P31
P496
0000-0002-3692-7487