Basic Information
Gene Structure
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Domain
| Database | EntryID | E-Value | Start | end | InterPro ID | Description |
|---|
Regulation&Interaction
Annotation
Orthologous Group
| Orthologous ID | Species Number | All hits in PereRegDB | Hits of this species | Orthologous Detail |
|---|
Pathway
| GO Term | Description | GO Category |
|---|---|---|
| GO:0000209 | protein polyubiquitination | BP |
| GO:0003674 | molecular_function | MF |
| GO:0003824 | catalytic activity | MF |
| GO:0004842 | ubiquitin-protein transferase activity | MF |
| GO:0005575 | cellular_component | CC |
| GO:0005622 | intracellular anatomical structure | CC |
| GO:0005623 | obsolete cell | CC |
| GO:0005634 | nucleus | CC |
| GO:0005737 | cytoplasm | CC |
| GO:0005829 | cytosol | CC |
| GO:0006464 | protein modification process | BP |
| GO:0006508 | proteolysis | BP |
| GO:0006511 | ubiquitin-dependent protein catabolic process | BP |
| GO:0006807 | nitrogen compound metabolic process | BP |
| GO:0006950 | response to stress | BP |
| GO:0008150 | biological_process | BP |
| GO:0008152 | metabolic process | BP |
| GO:0009056 | catabolic process | BP |
| GO:0009057 | macromolecule catabolic process | BP |
| GO:0009987 | cellular process | BP |
| GO:0010033 | response to organic substance | BP |
| GO:0010243 | response to organonitrogen compound | BP |
| GO:0010498 | proteasomal protein catabolic process | BP |
| GO:0016567 | protein ubiquitination | BP |
| GO:0016740 | transferase activity | MF |
| GO:0019538 | protein metabolic process | BP |
| GO:0019787 | ubiquitin-like protein transferase activity | MF |
| GO:0019941 | modification-dependent protein catabolic process | BP |
| GO:0030163 | protein catabolic process | BP |
| GO:0030433 | ubiquitin-dependent ERAD pathway | BP |
| GO:0032446 | protein modification by small protein conjugation | BP |
| GO:0033554 | cellular response to stress | BP |
| GO:0034450 | ubiquitin-ubiquitin ligase activity | MF |
| GO:0034976 | response to endoplasmic reticulum stress | BP |
| GO:0036211 | protein modification process | BP |
| GO:0036503 | ERAD pathway | BP |
| GO:0042221 | response to chemical | BP |
| GO:0043161 | proteasome-mediated ubiquitin-dependent protein catabolic process | BP |
| GO:0043170 | macromolecule metabolic process | BP |
| GO:0043226 | organelle | CC |
| GO:0043227 | membrane-bounded organelle | CC |
| GO:0043229 | intracellular organelle | CC |
| GO:0043231 | intracellular membrane-bounded organelle | CC |
| GO:0043412 | macromolecule modification | BP |
| GO:0043632 | modification-dependent macromolecule catabolic process | BP |
| GO:0044237 | cellular metabolic process | BP |
| GO:0044238 | primary metabolic process | BP |
| GO:0044248 | cellular catabolic process | BP |
| GO:0044257 | protein catabolic process | BP |
| GO:0044260 | cellular macromolecule metabolic process | BP |
| GO:0044265 | cellular macromolecule catabolic process | BP |
| GO:0044267 | protein metabolic process | BP |
| GO:0044424 | obsolete intracellular part | CC |
| GO:0044444 | obsolete cytoplasmic part | CC |
| GO:0044464 | obsolete cell part | CC |
| GO:0050896 | response to stimulus | BP |
| GO:0051603 | proteolysis involved in protein catabolic process | BP |
| GO:0051716 | cellular response to stimulus | BP |
| GO:0061630 | ubiquitin protein ligase activity | MF |
| GO:0061659 | ubiquitin-like protein ligase activity | MF |
| GO:0070647 | protein modification by small protein conjugation or removal | BP |
| GO:0071704 | organic substance metabolic process | BP |
| GO:0140096 | catalytic activity, acting on a protein | MF |
| GO:1901564 | organonitrogen compound metabolic process | BP |
| GO:1901565 | organonitrogen compound catabolic process | BP |
| GO:1901575 | organic substance catabolic process | BP |
| GO:1901698 | response to nitrogen compound | BP |
| KEGG Term | Name | Description |
|---|---|---|
| map04141 | Protein processing in endoplasmic reticulum | The endoplasmic reticulum (ER) is a subcellular organelle where proteins are folded with the help of lumenal chaperones. Newly synthesized peptides enter the ER via the sec61 pore and are glycosylated. Correctly folded proteins are packaged into transport vesicles that shuttle them to the Golgi complex. Misfolded proteins are retained within the ER lumen in complex with molecular chaperones. Proteins that are terminally misfolded bind to BiP and are directed toward degradation through the proteasome in a process called ER-associated degradation (ERAD). Accumulation of misfolded proteins in the ER causes ER stress and activates a signaling pathway called the unfolded protein response (UPR). In certain severe situations, however, the protective mechanisms activated by the UPR are not sufficient to restore normal ER function and cells die by apoptosis. |
| map04120 | Ubiquitin mediated proteolysis | Protein ubiquitination plays an important role in eukaryotic cellular processes. It mainly functions as a signal for 26S proteasome dependent protein degradation. The addition of ubiquitin to proteins being degraded is performed by a reaction cascade consisting of three enzymes, named E1 (ubiquitin activating enzyme), E2 (ubiquitin conjugating enzyme), and E3 (ubiquitin ligase). Each E3 has specificity to its substrate, or proteins to be targeted by ubiquitination. Many E3s are discovered in eukaryotes and they are classified into four types: HECT type, U-box type, single RING-finger type, and multi-subunit RING-finger type. Multi-subunit RING-finger E3s are exemplified by cullin-Rbx E3s and APC/C. They consist of a RING-finger-containing subunit (RBX1 or RBX2) that functions to bind E2s, a scaffold-like cullin molecule, adaptor proteins, and a target recognizing subunit that binds substrates. |
| map04120 | Ubiquitin mediated proteolysis | Protein ubiquitination plays an important role in eukaryotic cellular processes. It mainly functions as a signal for 26S proteasome dependent protein degradation. The addition of ubiquitin to proteins being degraded is performed by a reaction cascade consisting of three enzymes, named E1 (ubiquitin activating enzyme), E2 (ubiquitin conjugating enzyme), and E3 (ubiquitin ligase). Each E3 has specificity to its substrate, or proteins to be targeted by ubiquitination. Many E3s are discovered in eukaryotes and they are classified into four types: HECT type, U-box type, single RING-finger type, and multi-subunit RING-finger type. Multi-subunit RING-finger E3s are exemplified by cullin-Rbx E3s and APC/C. They consist of a RING-finger-containing subunit (RBX1 or RBX2) that functions to bind E2s, a scaffold-like cullin molecule, adaptor proteins, and a target recognizing subunit that binds substrates. |