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YEAST:YAP1

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Species (Taxon ID) Saccharomyces cerevisiae (strain ATCC 204508 / S288c) (Baker's yeast). (559292)
Gene Name(s) YAP1 (synonyms: PAR1, PDR4, SNQ3)
Protein Name(s) AP-1-like transcription factor YAP1

Phenanthroline resistance protein PAR1 Pleiotropic drug resistance protein PDR4

External Links
UniProt P19880
EMBL X58693
X53830
X60780
X63268
Z49810
BK006946
PIR S16706
RefSeq NP_013707.1
PDB 1SSE
PDBsum 1SSE
ProteinModelPortal P19880
SMR P19880
BioGrid 35163
DIP DIP-1752N
IntAct P19880
MINT MINT-505627
MaxQB P19880
PaxDb P19880
EnsemblFungi [example_ID YML007W]
GeneID 855005
KEGG sce:YML007W
CYGD YML007w
SGD S000004466
eggNOG NOG72873
GeneTree ENSGT00530000069148
HOGENOM HOG000142347
InParanoid P19880
KO K09043
OMA CSERGVV
OrthoDB EOG7GFBHK
BioCyc YEAST:G3O-32612-MONOMER
EvolutionaryTrace P19880
NextBio 978163
Proteomes UP000002311
Genevestigator P19880
GO GO:0005737
GO:0005634
GO:0043565
GO:0003700
GO:0043619
GO:0046686
GO:0042493
GO:0009408
GO:0010038
GO:0000304
GO:0006351
Gene3D 1.10.238.100
InterPro IPR004827
IPR013910
IPR023167
Pfam PF00170
PF08601
SMART SM00338
PROSITE PS50217
PS00036

Annotations

Qualifier GO ID GO term name Reference ECO ID ECO term name with/from Aspect Extension Notes Status

part_of

GO:0005634

nucleus

PMID:11914276[1]

ECO:0007005

high throughput direct assay evidence used in manual assertion

C

Seeded From UniProt

complete

part_of

GO:0005737

cytoplasm

PMID:11914276[1]

ECO:0007005

high throughput direct assay evidence used in manual assertion

C

Seeded From UniProt

complete

part_of

GO:0005737

cytoplasm

PMID:22842922[2]

ECO:0007005

high throughput direct assay evidence used in manual assertion

C

Seeded From UniProt

complete

part_of

GO:0005634

nucleus

PMID:22842922[2]

ECO:0007005

high throughput direct assay evidence used in manual assertion

C

Seeded From UniProt

complete

involved_in

GO:0061395

positive regulation of transcription from RNA polymerase II promoter in response to arsenic-containing substance

PMID:15575969[3]

ECO:0007001

high throughput mutant phenotype evidence used in manual assertion

P

Seeded From UniProt

complete

involved_in

GO:1900101

regulation of endoplasmic reticulum unfolded protein response

PMID:27373166[4]

ECO:0000315

mutant phenotype evidence used in manual assertion

P

Seeded From UniProt

complete

part_of

GO:0005634

nucleus

PMID:27838435[5]

ECO:0000314

direct assay evidence used in manual assertion

C

exists_during:(GO:0034599)

Seeded From UniProt

complete

involved_in

GO:0043619

regulation of transcription from RNA polymerase II promoter in response to oxidative stress

PMID:11056165[6]

ECO:0000314

direct assay evidence used in manual assertion

P

Seeded From UniProt

complete

involved_in

GO:0042493

response to drug

PMID:15713640[7]

ECO:0000315

mutant phenotype evidence used in manual assertion

P

Seeded From UniProt

complete

involved_in

GO:0010038

response to metal ion

PMID:8360174[8]

ECO:0000315

mutant phenotype evidence used in manual assertion

P

Seeded From UniProt

complete

involved_in

GO:0009408

response to heat

PMID:10809786[9]

ECO:0000315

mutant phenotype evidence used in manual assertion

P

Seeded From UniProt

complete

part_of

GO:0005737

cytoplasm

PMID:9130715[10]

ECO:0000314

direct assay evidence used in manual assertion

C

Seeded From UniProt

complete

part_of

GO:0005737

cytoplasm

PMID:24034606[11]

ECO:0000314

direct assay evidence used in manual assertion

C

Seeded From UniProt

complete

part_of

GO:0005737

cytoplasm

PMID:12582119[12]

ECO:0000314

direct assay evidence used in manual assertion

C

Seeded From UniProt

complete

part_of

GO:0005634

nucleus

PMID:9130715[10]

ECO:0000314

direct assay evidence used in manual assertion

C

Seeded From UniProt

complete

part_of

GO:0005634

nucleus

PMID:24034606[11]

ECO:0000314

direct assay evidence used in manual assertion

C

exists_during:(GO:0034599)

Seeded From UniProt

complete

part_of

GO:0005634

nucleus

PMID:12582119[12]

ECO:0000314

direct assay evidence used in manual assertion

C

Seeded From UniProt

complete

enables

GO:0003700

DNA-binding transcription factor activity

PMID:11056165[6]

ECO:0000314

direct assay evidence used in manual assertion

F

Seeded From UniProt

complete

involved_in

GO:0000304

response to singlet oxygen

PMID:16862604[13]

ECO:0000315

mutant phenotype evidence used in manual assertion

P

Seeded From UniProt

complete

enables

GO:0003700

DNA-binding transcription factor activity

GO_REF:0000002

ECO:0000256

match to sequence model evidence used in automatic assertion

InterPro:IPR004827

F

Seeded From UniProt

complete

involved_in

GO:0006355

regulation of transcription, DNA-templated

GO_REF:0000002

ECO:0000256

match to sequence model evidence used in automatic assertion

InterPro:IPR004827

P

Seeded From UniProt

complete

part_of

GO:0005634

nucleus

GO_REF:0000037
GO_REF:0000039

ECO:0000322

imported manually asserted information used in automatic assertion

UniProtKB-KW:KW-0539
UniProtKB-SubCell:SL-0191

C

Seeded From UniProt

complete

enables

GO:0003677

DNA binding

GO_REF:0000037

ECO:0000322

imported manually asserted information used in automatic assertion

UniProtKB-KW:KW-0238

F

Seeded From UniProt

complete

part_of

GO:0005737

cytoplasm

GO_REF:0000037
GO_REF:0000039

ECO:0000322

imported manually asserted information used in automatic assertion

UniProtKB-KW:KW-0963
UniProtKB-SubCell:SL-0086

C

Seeded From UniProt

complete

involved_in

GO:0046686

response to cadmium ion

GO_REF:0000037

ECO:0000322

imported manually asserted information used in automatic assertion

UniProtKB-KW:KW-0105

P

Seeded From UniProt

complete

Notes

References

See Help:References for how to manage references in GONUTS.

  1. 1.0 1.1 Kumar, A et al. (2002) Subcellular localization of the yeast proteome. Genes Dev. 16 707-19 PubMed GONUTS page
  2. 2.0 2.1 Tkach, JM et al. (2012) Dissecting DNA damage response pathways by analysing protein localization and abundance changes during DNA replication stress. Nat. Cell Biol. 14 966-76 PubMed GONUTS page
  3. Haugen, AC et al. (2004) Integrating phenotypic and expression profiles to map arsenic-response networks. Genome Biol. 5 R95 PubMed GONUTS page
  4. Maity, S et al. (2016) Oxidative Homeostasis Regulates the Response to Reductive Endoplasmic Reticulum Stress through Translation Control. Cell Rep 16 851-65 PubMed GONUTS page
  5. Yi, DG et al. (2016) Yap1 and Skn7 genetically interact with Rad51 in response to oxidative stress and DNA double-strand break in Saccharomyces cerevisiae. Free Radic. Biol. Med. 101 424-433 PubMed GONUTS page
  6. 6.0 6.1 Nguyên, DT et al. (2001) Multiple Yap1p-binding sites mediate induction of the yeast major facilitator FLR1 gene in response to drugs, oxidants, and alkylating agents. J. Biol. Chem. 276 1138-45 PubMed GONUTS page
  7. Lucau-Danila, A et al. (2005) Early expression of yeast genes affected by chemical stress. Mol. Cell. Biol. 25 1860-8 PubMed GONUTS page
  8. Wu, A et al. (1993) Yeast bZip proteins mediate pleiotropic drug and metal resistance. J. Biol. Chem. 268 18850-8 PubMed GONUTS page
  9. Sugiyama, K et al. (2000) The Yap1p-dependent induction of glutathione synthesis in heat shock response of Saccharomyces cerevisiae. J. Biol. Chem. 275 15535-40 PubMed GONUTS page
  10. 10.0 10.1 Kuge, S et al. (1997) Regulation of yAP-1 nuclear localization in response to oxidative stress. EMBO J. 16 1710-20 PubMed GONUTS page
  11. 11.0 11.1 Bauer, NC et al. (2013) Automated quantification of the subcellular localization of multicompartment proteins via Q-SCAn. Traffic 14 1200-8 PubMed GONUTS page
  12. 12.0 12.1 Wiatrowski, HA & Carlson, M (2003) Yap1 accumulates in the nucleus in response to carbon stress in Saccharomyces cerevisiae. Eukaryotic Cell 2 19-26 PubMed GONUTS page
  13. Brombacher, K et al. (2006) The role of Yap1p and Skn7p-mediated oxidative stress response in the defence of Saccharomyces cerevisiae against singlet oxygen. Yeast 23 741-50 PubMed GONUTS page