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Welcome to the team Plant Cell Signaling and Ubiquitin HAL collection
The team is more specifically interested in understanding how plants uses the post-translational modification ubiquitination to control the localization and abundance of intrinsic plasma membrane proteins in response to developmental and environmental cues, and unraveling the networks of ubiquitination and discovering new proteasome-independent roles for ubiquitination using plants as model.
Deposited files
13
Deposited records
12
Open access rate
76 %
Sujets
Wheat
Proteomics
Caspase
Phosphatase
Brefeldin-a
Calcium signalling
BRI1
Transporter
Golgi network/early endosome
Ubiquitination
Plant cell biology
Sphingolipids
Temperature
Cell biology
Tobacco cells
Guard cell
Cadmium
Membrane lipids
Cell death
Iron-acquisition complex
Signaling
Ubiquitin
Plant-cells
Mitogen-activated protein kinase MAPK
Ion channels
TMKP1 Phosphorylation
14-3-3 Protein
Endomembrane trafficking
Activity-based protein profiling
Transcription factor
Protein kinases
D-Erythro-sphinganine
Cytosolic calcium
Plant signalling
Protein sorting
Long Chain Base LCB
Nuclear calcium
Quantitative imaging
H+-ATPases
Clathrin-mediated endocytosis
Protein phosphorylation
Arabidopsis
Aequorin
Metabolomics
Brassinosteroids
Metal
Plasma-membrane
Phototropins
Degradation
Signal transduction
Fumonisin b1
Metal-replica electron
Wide analysis
Endocytosis
Transport
Iron
Biofilms
Protein complexes
Polarity
SUMO
Photosynthetic organisms
Plant development
BIOCELL
Phosphorylation
AP5
Liquid chromatography-mass spectrometry
Programmed cell death
Pattern recognition receptors in plants
Arabidopsis-thaliana
PIN protein
UBINET
Small molecules
Apoptosis
Plasma membrane protein
IRT1
14-3-3 proteins
Papain-like cysteine proteases
MK801
Receptor kinase bri1
Iron uptake strategies
Pseudoalteromonas lipolytica TC8
Plant biochemistry
Last deposits
