Diversity of serine hydrolase activities of unchallenged and botrytis-infected Arabidopsis thaliana.
about
Activity-based proteomics of enzyme superfamilies: serine hydrolases as a case studyBiotic interactions in the rhizosphere: a diverse cooperative enterprise for plant productivityThe pharmacological landscape and therapeutic potential of serine hydrolasesMajor Cys protease activities are not essential for senescence in individually darkened Arabidopsis leavesActivity-based protein profiling as a robust method for enzyme identification and screening in extremophilic Archaea.Activity-based protein profiling of the hepatitis C virus replication in Huh-7 hepatoma cells using a non-directed active site probe.Subclassification and biochemical analysis of plant papain-like cysteine proteases displays subfamily-specific characteristics.Broad-range glycosidase activity profilingProteolytic pathways induced by herbicides that inhibit amino acid biosynthesis.Click-generated triazole ureas as ultrapotent in vivo-active serine hydrolase inhibitors.Screen of Non-annotated Small Secreted Proteins of Pseudomonas syringae Reveals a Virulence Factor That Inhibits Tomato Immune Proteases.Overlapping Yet Response-Specific Transcriptome Alterations Characterize the Nature of Tobacco-Pseudomonas syringae Interactions.Identification and Expression Profiles of Six Transcripts Encoding Carboxylesterase Protein in Vitis flexuosa Infected with Pathogens.Proteasome Activity Profiling Uncovers Alteration of Catalytic β2 and β5 Subunits of the Stress-Induced Proteasome during Salinity Stress in Tomato Roots.The interplay of lipid acyl hydrolases in inducible plant defense.Probes for activity-based profiling of plant proteases.Proteomics and plant disease: advances in combating a major threat to the global food supply.Activity-based probes for the study of proteases: recent advances and developments.Hexanoic acid protects tomato plants against Botrytis cinerea by priming defence responses and reducing oxidative stress.The Increasing Impact of Activity-Based Protein Profiling in Plant Science.Stimulation by abscisic acid of the activity of phosphoenolpyruvate carboxylase in leaf disks of Amaranthus hypochondriacus L., C4 plant: role of pH and protein levels.Proteome analysis of peroxisomes from etiolated Arabidopsis seedlings identifies a peroxisomal protease involved in β-oxidation and development.Selective inhibition of plant serine hydrolases by agrochemicals revealed by competitive ABPP.Towards New Drug Targets? Function Prediction of Putative Proteins of Neisseria meningitidis MC58 and Their Virulence Characterization.The proteome of mouse brain microvessel membranes and basal lamina.Mining the Active Proteome of Arabidopsis thaliana.Activity profiling of vacuolar processing enzymes reveals a role for VPE during oomycete infection.The transcriptome, extracellular proteome and active secretome of agroinfiltrated Nicotiana benthamiana uncover a large, diverse protease repertoire.Protease activities triggered by Ralstonia solanacearum infection in susceptible and tolerant tomato lines.Three unrelated protease inhibitors enhance accumulation of pharmaceutical recombinant proteins in N. benthamiana.Multiplex Fluorescent, Activity-Based Protein Profiling Identifies Active α-Glycosidases and Other Hydrolases in Plants.A novel quenched fluorescent activity-based probe reveals caspase-3 activity in the endoplasmic reticulum during apoptosis† †Electronic supplementary information (ESI) available. See DOI: 10.1039/c5sc03207e.
P2860
Q24634117-29A4ED4B-F481-42F2-BFF0-1D09AE923160Q26829001-D76276A2-3DBE-483C-8816-E0E06123070BQ26995817-79E3D84A-1686-4AF8-AA00-6D0485FE9E52Q28817865-B42DEC3F-2F5A-428B-B1BE-BEF7970F5B90Q33654310-82F73C89-6E81-4438-9E66-3551281211E5Q33704103-BA5BFA0A-9E11-4B7E-B25E-DD6B46D67AA7Q34174553-F293CE57-F0BB-4456-B26D-1A7614321949Q34303437-03CEEE74-8A30-4354-A513-886162F1737CQ34989409-998ACC3E-43F4-4941-A913-7238E74FCE35Q35056496-53B477A0-E63B-4E69-B315-0ECE33F35DCDQ36125158-966C74E1-F6DA-4CD5-A25E-3EBE5E65A55BQ36656529-97FEB262-BFC3-472F-922C-C312FC4EDD5AQ37142552-C6F6BEA0-FFE1-448F-A92A-42A8646737EAQ37622059-53C31E4B-660A-48D6-8661-D9FF2F8FA156Q37791337-76B385B4-8BDD-4834-80E2-9A2DCD368FAFQ37943886-5A0BA19E-94DC-42CC-BE53-83F3E5725B8AQ37975965-36177AC5-68FF-4F57-93A1-78ACDBBF8FEAQ37995130-C4C5D212-57B7-45A6-8BC5-41858AE88462Q38482284-22060BC1-B62E-4F5A-92FF-19B792E982E4Q38731573-60FD0E2F-8B8A-4DF7-937A-DE6991DF0B6CQ38870664-CDBBE551-D72B-47DE-8FA9-B6DD49657DC1Q39331788-F4E431AF-04A0-4433-B919-BCC32AFF9207Q40049327-5B403BD8-D4A2-49CB-A95E-06D0D7DA8EE2Q41160003-152F481D-BE0E-4BBA-84C5-690EADDB7631Q41774028-A42222FC-3EC5-4D9B-B68C-197CA596A891Q41830127-25B3ED9E-419A-4777-BFD7-7C62F4D6EC55Q46667736-2F417551-5FEE-4E10-93A3-88934C964E98Q47621344-943FE047-4672-4392-A0C2-D0354CEF4229Q52663614-08DC3AA0-1052-4DED-B914-2626AA3089DEQ52671766-BCFF5817-AFEC-4BB2-8502-9AC3579A47FEQ54253070-882B7B09-DEAD-4367-813B-EF3EE0C7700DQ55091784-05B888E5-81FF-4656-9BAB-EA0CF9321A21
P2860
Diversity of serine hydrolase activities of unchallenged and botrytis-infected Arabidopsis thaliana.
description
article científic
@ca
article scientifique
@fr
articolo scientifico
@it
artigo científico
@pt
bilimsel makale
@tr
scientific article published on 11 January 2009
@en
vedecký článok
@sk
vetenskaplig artikel
@sv
videnskabelig artikel
@da
vědecký článek
@cs
name
Diversity of serine hydrolase ...... infected Arabidopsis thaliana.
@en
Diversity of serine hydrolase ...... infected Arabidopsis thaliana.
@nl
type
label
Diversity of serine hydrolase ...... infected Arabidopsis thaliana.
@en
Diversity of serine hydrolase ...... infected Arabidopsis thaliana.
@nl
prefLabel
Diversity of serine hydrolase ...... infected Arabidopsis thaliana.
@en
Diversity of serine hydrolase ...... infected Arabidopsis thaliana.
@nl
P2093
P2860
P1476
Diversity of serine hydrolase ...... infected Arabidopsis thaliana.
@en
P2093
Christian Gu
Farnusch Kaschani
Heather Hoover
Renier A L van der Hoorn
Sherry Niessen
P2860
P304
P356
10.1074/MCP.M800494-MCP200
P577
2009-01-11T00:00:00Z