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YEAST:PAD1
Contents
| Species (Taxon ID) | Saccharomyces cerevisiae (strain ATCC 204508 / S288c) (Baker's yeast). (559292) | |
| Gene Name(s) | PAD1 (synonyms: POF1) | |
| Protein Name(s) | Phenylacrylic acid decarboxylase 1, mitochondrial
PAD | |
| External Links | ||
| UniProt | P33751 | |
| EMBL | L09263 U43834 BK006938 | |
| PIR | S62017 | |
| RefSeq | NP_010827.3 | |
| ProteinModelPortal | P33751 | |
| SMR | P33751 | |
| BioGrid | 32585 | |
| DIP | DIP-5454N | |
| IntAct | P33751 | |
| MINT | MINT-503534 | |
| STRING | 4932.YDR538W | |
| MaxQB | P33751 | |
| PaxDb | P33751 | |
| PeptideAtlas | P33751 | |
| EnsemblFungi | [example_ID YDR538W] | |
| GeneID | 852150 | |
| KEGG | sce:YDR538W | |
| CYGD | YDR538w | |
| SGD | S000002946 | |
| eggNOG | COG0163 | |
| HOGENOM | HOG000225437 | |
| InParanoid | P33751 | |
| KO | K12468 | |
| OMA | IIMPREM | |
| OrthoDB | EOG7P2Z49 | |
| BioCyc | MetaCyc:MONOMER-623 YEAST:YDR538W-MONOMER | |
| NextBio | 970576 | |
| PRO | PR:P33751 | |
| Proteomes | UP000002311 | |
| Genevestigator | P33751 | |
| GO | GO:0005739 GO:0016831 GO:0003729 GO:0019439 GO:0046281 | |
| Gene3D | 3.40.50.1950 | |
| InterPro | IPR003382 IPR004507 | |
| Pfam | PF02441 | |
| SUPFAM | SSF52507 | |
| TIGRFAMs | TIGR00421 | |
Annotations
| Qualifier | GO ID | GO term name | Reference | ECO ID | ECO term name | with/from | Aspect | Extension | Notes | Status |
|---|---|---|---|---|---|---|---|---|---|---|
| GO:0034599 |
cellular response to oxidative stress |
ECO:0000314 |
P |
Figure 1. assay showing response of pof1 cells to oxidative stress (H202) |
complete | |||||
|
part_of |
GO:0005739 |
mitochondrion |
ECO:0007005 |
high throughput direct assay evidence used in manual assertion |
C |
Seeded From UniProt |
complete | |||
|
involved_in |
GO:0051188 |
cofactor biosynthetic process |
ECO:0000314 |
direct assay evidence used in manual assertion |
P |
Seeded From UniProt |
complete | |||
|
involved_in |
GO:0034599 |
cellular response to oxidative stress |
ECO:0000314 |
direct assay evidence used in manual assertion |
P |
Seeded From UniProt |
complete | |||
|
involved_in |
GO:0046281 |
cinnamic acid catabolic process |
ECO:0000315 |
mutant phenotype evidence used in manual assertion |
P |
Seeded From UniProt |
complete | |||
|
involved_in |
GO:0046281 |
cinnamic acid catabolic process |
ECO:0000315 |
mutant phenotype evidence used in manual assertion |
P |
Seeded From UniProt |
complete | |||
|
involved_in |
GO:0019439 |
aromatic compound catabolic process |
ECO:0000315 |
mutant phenotype evidence used in manual assertion |
P |
Seeded From UniProt |
complete | |||
|
enables |
GO:0016831 |
carboxy-lyase activity |
ECO:0000315 |
mutant phenotype evidence used in manual assertion |
F |
Seeded From UniProt |
complete | |||
|
enables |
GO:0016831 |
carboxy-lyase activity |
ECO:0000315 |
mutant phenotype evidence used in manual assertion |
F |
Seeded From UniProt |
complete | |||
|
part_of |
GO:0005739 |
mitochondrion |
ECO:0000314 |
direct assay evidence used in manual assertion |
C |
Seeded From UniProt |
complete | |||
|
enables |
GO:0003729 |
mRNA binding |
ECO:0000314 |
direct assay evidence used in manual assertion |
F |
Seeded From UniProt |
complete | |||
|
enables |
GO:0016831 |
carboxy-lyase activity |
ECO:0000318 |
biological aspect of ancestor evidence used in manual assertion |
PANTHER:PTN000764671 |
F |
Seeded From UniProt |
complete | ||
|
involved_in |
GO:0009108 |
coenzyme biosynthetic process |
ECO:0000318 |
biological aspect of ancestor evidence used in manual assertion |
EcoGene:EG11044 |
P |
Seeded From UniProt |
complete | ||
|
enables |
GO:0003824 |
catalytic activity |
ECO:0000256 |
match to sequence model evidence used in automatic assertion |
F |
Seeded From UniProt |
complete | |||
|
enables |
GO:0106141 |
flavin prenyltransferase activity |
ECO:0000501 |
evidence used in automatic assertion |
F |
Seeded From UniProt |
complete | |||
|
involved_in |
GO:0051188 |
cofactor biosynthetic process |
ECO:0000256 |
match to sequence model evidence used in automatic assertion |
UniRule:UR000375818 |
P |
Seeded From UniProt |
complete | ||
|
part_of |
GO:0005739 |
mitochondrion |
ECO:0000256 |
match to sequence model evidence used in automatic assertion |
UniRule:UR000375818 |
C |
Seeded From UniProt |
complete | ||
|
enables |
GO:0004659 |
prenyltransferase activity |
ECO:0000256 |
match to sequence model evidence used in automatic assertion |
UniRule:UR000375818 |
F |
Seeded From UniProt |
complete | ||
|
enables |
GO:0016740 |
transferase activity |
ECO:0000322 |
imported manually asserted information used in automatic assertion |
F |
Seeded From UniProt |
complete | |||
|
enables |
GO:0004659 |
prenyltransferase activity |
ECO:0000322 |
imported manually asserted information used in automatic assertion |
F |
Seeded From UniProt |
complete | |||
|
part_of |
GO:0005739 |
mitochondrion |
ECO:0000322 |
imported manually asserted information used in automatic assertion |
C |
Seeded From UniProt |
complete | |||
|
enables |
GO:0003723 |
RNA binding |
ECO:0000322 |
imported manually asserted information used in automatic assertion |
F |
Seeded From UniProt |
complete | |||
Notes
References
See Help:References for how to manage references in GONUTS.
- ↑ 1.0 1.1 Costa, IM et al. (2011) The promoter of filamentation (POF1) protein from Saccharomyces cerevisiae is an ATPase involved in the protein quality control process. BMC Microbiol. 11 268 PubMed GONUTS page
- ↑ Huh, WK et al. (2003) Global analysis of protein localization in budding yeast. Nature 425 686-91 PubMed GONUTS page
- ↑ Lin, F et al. (2015) Isofunctional enzymes PAD1 and UbiX catalyze formation of a novel cofactor required by ferulic acid decarboxylase and 4-hydroxy-3-polyprenylbenzoic acid decarboxylase. ACS Chem. Biol. 10 1137-44 PubMed GONUTS page
- ↑ 4.0 4.1 Clausen, M et al. (1994) PAD1 encodes phenylacrylic acid decarboxylase which confers resistance to cinnamic acid in Saccharomyces cerevisiae. Gene 142 107-12 PubMed GONUTS page
- ↑ Mukai, N et al. (2010) PAD1 and FDC1 are essential for the decarboxylation of phenylacrylic acids in Saccharomyces cerevisiae. J. Biosci. Bioeng. 109 564-9 PubMed GONUTS page
- ↑ 6.0 6.1 Larsson, S et al. (2001) Effect of overexpression of Saccharomyces cerevisiae Pad1p on the resistance to phenylacrylic acids and lignocellulose hydrolysates under aerobic and oxygen-limited conditions. Appl. Microbiol. Biotechnol. 57 167-74 PubMed GONUTS page
- ↑ Perocchi, F et al. (2006) Assessing systems properties of yeast mitochondria through an interaction map of the organelle. PLoS Genet. 2 e170 PubMed GONUTS page
- ↑ Tsvetanova, NG et al. (2010) Proteome-wide search reveals unexpected RNA-binding proteins in Saccharomyces cerevisiae. PLoS ONE 5 PubMed GONUTS page
- ↑ 9.0 9.1 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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