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CAEEL:ACOX5
Contents
| Species (Taxon ID) | Caenorhabditis elegans. (6239) | |
| Gene Name(s) | acox-5 (ECO:0000312 with WormBase:C48B4.1) | |
| Protein Name(s) | Probable peroxisomal acyl-coenzyme A oxidase 5 (ECO:0000250 with UniProtKB:Q15067)
AOX 5 (ECO:0000250 with UniProtKB:Q15067) Acyl-CoA oxidase 5 (ECO:0000312 with WormBase:C48B4.1) | |
| External Links | ||
| UniProt | P34355 | |
| EMBL | Z29117 | |
| PIR | S40722 | |
| RefSeq | NP_499119.1 | |
| UniGene | Cel.10702 | |
| ProteinModelPortal | P34355 | |
| SMR | P34355 | |
| STRING | 6239.C48B4.1.2 | |
| EPD | P34355 | |
| PaxDb | P34355 | |
| EnsemblMetazoa | [example_ID C48B4.1] | |
| GeneID | 176353 | |
| KEGG | cel:CELE_C48B4.1 | |
| UCSC | C48B4.1.1 | |
| CTD | 176353 | |
| WormBase | C48B4.1 | |
| eggNOG | KOG0136 COG1960 | |
| GeneTree | ENSGT00530000062919 | |
| HOGENOM | HOG000181256 | |
| InParanoid | P34355 | |
| KO | K00232 | |
| OMA | HIARHRV | |
| PhylomeDB | P34355 | |
| Reactome | [www.reactome.org/content/detail/R-CEL-2046106 R-CEL-2046106] [www.reactome.org/content/detail/R-CEL-390247 R-CEL-390247] | |
| UniPathway | UPA00661 | |
| PRO | PR:P34355 | |
| Proteomes | UP000001940 | |
| GO | GO:0005777 GO:0003995 GO:0003997 GO:0050660 GO:0033540 GO:0042811 | |
| Gene3D | 1.10.540.10 | |
| InterPro | IPR029320 IPR006091 IPR012258 IPR002655 IPR009075 IPR013786 IPR009100 | |
| Pfam | PF01756 PF00441 PF02770 PF14749 | |
| PIRSF | PIRSF000168 | |
| SUPFAM | SSF47203 SSF56645 | |
Annotations
| Qualifier | GO ID | GO term name | Reference | ECO ID | ECO term name | with/from | Aspect | Extension | Notes | Status |
|---|---|---|---|---|---|---|---|---|---|---|
| GO:0042811 |
pheromone biosynthetic process |
ECO:0000315 |
P |
Figure 2 |
complete | |||||
|
involved_in |
GO:0042811 |
pheromone biosynthetic process |
ECO:0000315 |
mutant phenotype evidence used in manual assertion |
P |
Seeded From UniProt |
complete | |||
|
involved_in |
GO:0055088 |
lipid homeostasis |
ECO:0000318 |
biological aspect of ancestor evidence used in manual assertion |
PANTHER:PTN000097533 |
P |
Seeded From UniProt |
complete | ||
|
enables |
GO:0050660 |
flavin adenine dinucleotide binding |
ECO:0000318 |
biological aspect of ancestor evidence used in manual assertion |
PANTHER:PTN000097533 |
F |
Seeded From UniProt |
complete | ||
|
involved_in |
GO:0033540 |
fatty acid beta-oxidation using acyl-CoA oxidase |
ECO:0000318 |
biological aspect of ancestor evidence used in manual assertion |
PANTHER:PTN000097533 |
P |
Seeded From UniProt |
complete | ||
|
part_of |
GO:0005777 |
peroxisome |
ECO:0000318 |
biological aspect of ancestor evidence used in manual assertion |
FB:FBgn0032775 |
C |
Seeded From UniProt |
complete | ||
|
enables |
GO:0005504 |
fatty acid binding |
ECO:0000318 |
biological aspect of ancestor evidence used in manual assertion |
PANTHER:PTN000097533 |
F |
Seeded From UniProt |
complete | ||
|
enables |
GO:0003997 |
acyl-CoA oxidase activity |
ECO:0000318 |
biological aspect of ancestor evidence used in manual assertion |
PANTHER:PTN000097533 |
F |
Seeded From UniProt |
complete | ||
|
enables |
GO:0003997 |
acyl-CoA oxidase activity |
ECO:0000256 |
match to sequence model evidence used in automatic assertion |
F |
Seeded From UniProt |
complete | |||
|
part_of |
GO:0005777 |
peroxisome |
ECO:0000256 |
match to sequence model evidence used in automatic assertion |
C |
Seeded From UniProt |
complete | |||
|
involved_in |
GO:0006631 |
fatty acid metabolic process |
ECO:0000256 |
match to sequence model evidence used in automatic assertion |
P |
Seeded From UniProt |
complete | |||
|
involved_in |
GO:0006635 |
fatty acid beta-oxidation |
ECO:0000256 |
match to sequence model evidence used in automatic assertion |
P |
Seeded From UniProt |
complete | |||
|
enables |
GO:0016627 |
oxidoreductase activity, acting on the CH-CH group of donors |
ECO:0000256 |
match to sequence model evidence used in automatic assertion |
InterPro:IPR006091 |
F |
Seeded From UniProt |
complete | ||
|
enables |
GO:0050660 |
flavin adenine dinucleotide binding |
ECO:0000256 |
match to sequence model evidence used in automatic assertion |
F |
Seeded From UniProt |
complete | |||
|
involved_in |
GO:0055114 |
oxidation-reduction process |
ECO:0000256 |
match to sequence model evidence used in automatic assertion |
InterPro:IPR006091 |
P |
Seeded From UniProt |
complete | ||
|
enables |
GO:0071949 |
FAD binding |
ECO:0000256 |
match to sequence model evidence used in automatic assertion |
F |
Seeded From UniProt |
complete | |||
|
enables |
GO:0003997 |
acyl-CoA oxidase activity |
ECO:0000501 |
evidence used in automatic assertion |
F |
Seeded From UniProt |
complete | |||
|
involved_in |
GO:0055114 |
oxidation-reduction process |
ECO:0000322 |
imported manually asserted information used in automatic assertion |
P |
Seeded From UniProt |
complete | |||
|
involved_in |
GO:0006629 |
lipid metabolic process |
ECO:0000322 |
imported manually asserted information used in automatic assertion |
P |
Seeded From UniProt |
complete | |||
|
enables |
GO:0016491 |
oxidoreductase activity |
ECO:0000322 |
imported manually asserted information used in automatic assertion |
F |
Seeded From UniProt |
complete | |||
|
part_of |
GO:0005777 |
peroxisome |
ECO:0000322 |
imported manually asserted information used in automatic assertion |
C |
Seeded From UniProt |
complete | |||
|
involved_in |
GO:0006631 |
fatty acid metabolic process |
ECO:0000322 |
imported manually asserted information used in automatic assertion |
P |
Seeded From UniProt |
complete | |||
|
involved_in |
GO:0033540 |
fatty acid beta-oxidation using acyl-CoA oxidase |
ECO:0000322 |
imported manually asserted information used in automatic assertion |
UniPathway:UPA00661 |
P |
Seeded From UniProt |
complete | ||
Notes
References
See Help:References for how to manage references in GONUTS.
- ↑ 1.0 1.1 Joo, HJ et al. (2010) Contribution of the peroxisomal acox gene to the dynamic balance of daumone production in Caenorhabditis elegans. J. Biol. Chem. 285 29319-25 PubMed GONUTS page
- ↑ 2.0 2.1 2.2 2.3 2.4 2.5 Gaudet, P et al. (2011) Phylogenetic-based propagation of functional annotations within the Gene Ontology consortium. Brief. Bioinformatics 12 449-62 PubMed GONUTS page
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