Proteins
Curated comments from UniProt
Type | Comment | Proteins |
---|---|---|
MAX2_ARATH | function | Component of SCF(ASK-cullin-F-box) E3 ubiquitin ligase complexes, which may mediate the ubiquitination and subsequent proteasomal degradation of target proteins. Promotes the senescence. Is necessary for responses to strigolactones and karrikins. Contributes to the selective repression of axillary shoots and moderates the branching by regulating negatively the auxin transport in primary stems, in an AXR1-independent manner (PubMed:11487692, PubMed:11874909, PubMed:15737939, PubMed:16546078, PubMed:22357928, PubMed:9351240). Required for the progression of leaf senescence mediated by methyl jasmonate (PubMed:26507893). Required at each node to suppress axillary bud growth (PubMed:17346265). |
MAX2_ARATH | pathway | Protein modification; protein ubiquitination. |
MAX2_ARATH | tissue specificity | Expressed in the vasculature of growing leaves and roots, rosette axillary bud, flowers, siliques, funiculi and stems. |
Function
Gene Ontology
cellular component | |
---|---|
nucleus | ECO |
SCF ubiquitin ligase complex | ECO |
molecular function | |
No terms in this category. | |
biological process | |
positive regulation of response to water deprivation | ECO |
response to water deprivation | ECO |
SCF-dependent proteasomal ubiquitin-dependent protein catabolic process | ECO |
protein ubiquitination | ECO |
auxin polar transport | ECO |
cuticle development | ECO |
shoot system morphogenesis | ECO |
regulation of meristem structural organization | ECO |
bud dilation | ECO |
response to light stimulus | ECO |
negative regulation of seed germination | ECO |
auxin-activated signaling pathway | ECO |
regulation of shoot system morphogenesis | ECO |
Interactions
Interaction Network
Show the following interaction types:
Reset view
Show in table format
Export graph
- Click on a gene to get more info about it.