Description : uncoupling protein 2
Gene families : OG_42_0002773 (Orthogroups_2024-Update) Phylogenetic Tree(s): OG0002773_tree
Note:Only the main profile, including all conditions, is shown. Additional statistics and tissue specific profiles are available here.
Type | Description | Actions |
---|---|---|
Neighborhood | Glycine release: Glyma.18G067700 | |
Cluster | HCCA clusters: Cluster_503 |
Type | GO Term | Name | Evidence | Source |
---|---|---|---|---|
No GO annotation available for this sequence |
Type | GO Term | Name | Evidence | Source |
---|---|---|---|---|
MF | GO:0004140 | dephospho-CoA kinase activity | IEP | Predicted GO |
MF | GO:0004527 | exonuclease activity | IEP | Predicted GO |
MF | GO:0004672 | protein kinase activity | IEP | Predicted GO |
MF | GO:0005524 | ATP binding | IEP | Predicted GO |
BP | GO:0006464 | cellular protein modification process | IEP | Predicted GO |
BP | GO:0006468 | protein phosphorylation | IEP | Predicted GO |
BP | GO:0006606 | protein import into nucleus | IEP | Predicted GO |
BP | GO:0006793 | phosphorus metabolic process | IEP | Predicted GO |
BP | GO:0006796 | phosphate-containing compound metabolic process | IEP | Predicted GO |
BP | GO:0006807 | nitrogen compound metabolic process | IEP | Predicted GO |
BP | GO:0006913 | nucleocytoplasmic transport | IEP | Predicted GO |
MF | GO:0008144 | drug binding | IEP | Predicted GO |
MF | GO:0008408 | 3'-5' exonuclease activity | IEP | Predicted GO |
MF | GO:0015095 | magnesium ion transmembrane transporter activity | IEP | Predicted GO |
BP | GO:0015693 | magnesium ion transport | IEP | Predicted GO |
BP | GO:0015936 | coenzyme A metabolic process | IEP | Predicted GO |
BP | GO:0015937 | coenzyme A biosynthetic process | IEP | Predicted GO |
CC | GO:0016021 | integral component of membrane | IEP | Predicted GO |
MF | GO:0016301 | kinase activity | IEP | Predicted GO |
BP | GO:0016310 | phosphorylation | IEP | Predicted GO |
MF | GO:0016740 | transferase activity | IEP | Predicted GO |
MF | GO:0016772 | transferase activity, transferring phosphorus-containing groups | IEP | Predicted GO |
MF | GO:0016773 | phosphotransferase activity, alcohol group as acceptor | IEP | Predicted GO |
BP | GO:0017038 | protein import | IEP | Predicted GO |
CC | GO:0031224 | intrinsic component of membrane | IEP | Predicted GO |
BP | GO:0033365 | protein localization to organelle | IEP | Predicted GO |
BP | GO:0033865 | nucleoside bisphosphate metabolic process | IEP | Predicted GO |
BP | GO:0033866 | nucleoside bisphosphate biosynthetic process | IEP | Predicted GO |
BP | GO:0033875 | ribonucleoside bisphosphate metabolic process | IEP | Predicted GO |
BP | GO:0034030 | ribonucleoside bisphosphate biosynthetic process | IEP | Predicted GO |
BP | GO:0034032 | purine nucleoside bisphosphate metabolic process | IEP | Predicted GO |
BP | GO:0034033 | purine nucleoside bisphosphate biosynthetic process | IEP | Predicted GO |
BP | GO:0034504 | protein localization to nucleus | IEP | Predicted GO |
BP | GO:0034613 | cellular protein localization | IEP | Predicted GO |
BP | GO:0036211 | protein modification process | IEP | Predicted GO |
MF | GO:0043015 | gamma-tubulin binding | IEP | Predicted GO |
BP | GO:0043412 | macromolecule modification | IEP | Predicted GO |
BP | GO:0044237 | cellular metabolic process | IEP | Predicted GO |
CC | GO:0044425 | membrane part | IEP | Predicted GO |
BP | GO:0051169 | nuclear transport | IEP | Predicted GO |
BP | GO:0051170 | import into nucleus | IEP | Predicted GO |
MF | GO:0061608 | nuclear import signal receptor activity | IEP | Predicted GO |
BP | GO:0070727 | cellular macromolecule localization | IEP | Predicted GO |
BP | GO:0070838 | divalent metal ion transport | IEP | Predicted GO |
BP | GO:0072511 | divalent inorganic cation transport | IEP | Predicted GO |
BP | GO:0072594 | establishment of protein localization to organelle | IEP | Predicted GO |
MF | GO:0140104 | molecular carrier activity | IEP | Predicted GO |
MF | GO:0140142 | nucleocytoplasmic carrier activity | IEP | Predicted GO |
No external refs found! |