PlantTFDB
PlantRegMap/PlantTFDB v5.0
Plant Transcription Factor Database
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(e.g., LFY)
Transcription Factor Information
Basic Information | Signature Domain | Sequence | 
Basic Information? help Back to Top
TF ID EcC054703.70
Organism
Eucalyptus camaldulensis
Taxonomic ID
Taxonomic Lineage
cellular organisms; Eukaryota; Viridiplantae; Streptophyta; Streptophytina; Embryophyta; Tracheophyta; Euphyllophyta; Spermatophyta; Magnoliophyta; Mesangiospermae; eudicotyledons; Gunneridae; Pentapetalae; rosids; malvids; Myrtales; Myrtaceae; Myrtoideae; Eucalypteae; Eucalyptus
Family AP2
Protein Properties Length: 409aa    MW: 45122.9 Da    PI: 6.1232
Description AP2 family protein
Gene Model
Gene Model ID Type Source Coding Sequence
EcC054703.70genomeECGDView CDS
Signature Domain? help Back to Top
Signature Domain
No. Domain Score E-value Start End HMM Start HMM End
1AP239.31.6e-1270126155
           AP2   1 sgykGVrwdkkrgrWvAeIrd.pseng.krkrfslgkfgtaeeAakaaiaarkkleg 55 
                   s y+GV++++++gr++A+++d  s+n+ ++k+ + g ++ +e Aa+ ++ a++k++g
  EcC054703.70  70 SIYRGVTRHRWTGRFEAHLWDkSSWNNtQNKKGRQGAYDNEEAAARTYDLAALKYWG 126
                   57*******************7777**99988888********************98 PP
2AP251.13.4e-16169221156
           AP2   1 sgykGVrwdkkrgrWvAeIrdpsengkrkrfslgkfgtaeeAakaaiaarkklege 56 
                   s+y+GV +++ +grW+A+I  +     +k+ +lg++ t eeAa+a++ a+ +++g+
  EcC054703.70 169 SKYRGVARHHHNGRWEARIGRVLG---NKYLYLGTYNTQEEAAAAYDMAAIQYRGA 221
                   89****99**********988422...5*************************985 PP
Protein Features ? help Back to Top
3D Structure
Database Entry ID E-value Start End InterPro ID Description
PROSITE profilePS512576124No hitNo description
SuperFamilySSF541711.77E-1470135IPR016177DNA-binding domain
PfamPF008476.5E-970126IPR001471AP2/ERF domain
CDDcd000181.09E-1770136No hitNo description
PROSITE profilePS5103218.9471134IPR001471AP2/ERF domain
Gene3DG3DSA:3.30.730.101.2E-1171134IPR001471AP2/ERF domain
SMARTSM003801.8E-1871140IPR001471AP2/ERF domain
PRINTSPR003672.0E-67283IPR001471AP2/ERF domain
PfamPF008479.9E-12169220IPR001471AP2/ERF domain
CDDcd000181.27E-15169230No hitNo description
SuperFamilySSF541715.69E-18169230IPR016177DNA-binding domain
Gene3DG3DSA:3.30.730.109.4E-19170228IPR001471AP2/ERF domain
PROSITE profilePS5103218.228170228IPR001471AP2/ERF domain
SMARTSM003807.1E-26170234IPR001471AP2/ERF domain
PRINTSPR003672.0E-6210230IPR001471AP2/ERF domain
Gene Ontology ? help Back to Top
GO Term GO Category GO Description
GO:0006265Biological ProcessDNA topological change
GO:0006355Biological Processregulation of transcription, DNA-templated
GO:0006810Biological Processtransport
GO:0005694Cellular Componentchromosome
GO:0005739Cellular Componentmitochondrion
GO:0009295Cellular Componentnucleoid
GO:0009507Cellular Componentchloroplast
GO:0016592Cellular Componentmediator complex
GO:0003690Molecular Functiondouble-stranded DNA binding
GO:0003700Molecular Functiontranscription factor activity, sequence-specific DNA binding
GO:0003918Molecular FunctionDNA topoisomerase type II (ATP-hydrolyzing) activity
GO:0005515Molecular Functionprotein binding
GO:0005524Molecular FunctionATP binding
GO:0016791Molecular Functionphosphatase activity
Sequence ? help Back to Top
Protein Sequence    Length: 409 aa     Download sequence    Send to blast
MRRSPPSSSC SSSPSSSSSS SASCVVGSGS PHDIAEKPKR KRSRKVQNLN SSPDDQSQNA  60
NSPSSARRSS IYRGVTRHRW TGRFEAHLWD KSSWNNTQNK KGRQGAYDNE EAAARTYDLA  120
ALKYWGPDTI LNFPIDGYEK ELEEMQNVSK EEYLASLRRR SSGFSRGVSK YRGVARHHHN  180
GRWEARIGRV LGNKYLYLGT YNTQEEAAAA YDMAAIQYRG ANAVTNFDIS NYVERLKKKG  240
VHIDLPQPQA TPADPPKSQQ MQCVVVHDDP TPPTTLKQEK LQQPVLRYAD DLDLGPSPNC  300
MDMDSSGMMD STNDRELAPW SFCMDVIGLN PLPVPNLMIE KGGELPDLFG ERGFEDDIDL  360
IFGGDGGVVE VEGNVVEGND GQGMMLLCER SSSSPSSSTT SVSCDYSSV
Functional Description ? help Back to Top
Source Description
UniProtMay be involved in the regulation of gene expression by stress factors and by components of stress signal transduction pathways (By similarity). Transcriptional activator involved in the activation of a subset of sugar-responsive genes and the control of carbon flow from sucrose import to oil accumulation in developing seeds. Binds to the GCC-box pathogenesis-related promoter element. Promotes sugar uptake and seed oil accumulation by glycolysis. Required for embryo development, seed germination and, indirectly, for seedling establishment. Negative regulator of the ABA-mediated germination inhibition. {ECO:0000250, ECO:0000269|PubMed:12084821, ECO:0000269|PubMed:15500472, ECO:0000269|PubMed:15753106, ECO:0000269|PubMed:16553903, ECO:0000269|PubMed:16632590, ECO:0000269|PubMed:9733529}.
Regulation -- Description ? help Back to Top
Source Description
UniProtINDUCTION: Transiantly in leaves by sucrose, but not by abscisic acid (ABA). {ECO:0000269|PubMed:15753106}.
Annotation -- Protein ? help Back to Top
Source Hit ID E-value Description
RefseqXP_010031344.10.0PREDICTED: ethylene-responsive transcription factor WRI1
SwissprotQ6X5Y61e-122WRI1_ARATH; Ethylene-responsive transcription factor WRI1
TrEMBLA0A059A9T50.0A0A059A9T5_EUCGR; Uncharacterized protein (Fragment)
STRINGXP_010031344.10.0(Eucalyptus grandis)
Best hit in Arabidopsis thaliana ? help Back to Top
Hit ID E-value Description
AT3G54320.33e-93AP2 family protein
Publications ? help Back to Top
  1. Kim HU, et al.
    Ectopic overexpression of castor bean LEAFY COTYLEDON2 (LEC2) in Arabidopsis triggers the expression of genes that encode regulators of seed maturation and oil body proteins in vegetative tissues.
    FEBS Open Bio, 2013. 4: p. 25-32
    [PMID:24363987]
  2. Wu XL,Liu ZH,Hu ZH,Huang RZ
    BnWRI1 coordinates fatty acid biosynthesis and photosynthesis pathways during oil accumulation in rapeseed.
    J Integr Plant Biol, 2014. 56(6): p. 582-93
    [PMID:24393360]
  3. Shigematsu H, et al.
    Structural characterization of the mechanosensitive channel candidate MCA2 from Arabidopsis thaliana.
    PLoS ONE, 2014. 9(1): p. e87724
    [PMID:24475319]
  4. Kim HU, et al.
    Senescence-inducible LEC2 enhances triacylglycerol accumulation in leaves without negatively affecting plant growth.
    Plant Biotechnol. J., 2015. 13(9): p. 1346-59
    [PMID:25790072]
  5. Grimberg Å,Carlsson AS,Marttila S,Bhalerao R,Hofvander P
    Transcriptional transitions in Nicotiana benthamiana leaves upon induction of oil synthesis by WRINKLED1 homologs from diverse species and tissues.
    BMC Plant Biol., 2015. 15: p. 192
    [PMID:26253704]
  6. Kanai M,Mano S,Kondo M,Hayashi M,Nishimura M
    Extension of oil biosynthesis during the mid-phase of seed development enhances oil content in Arabidopsis seeds.
    Plant Biotechnol. J., 2016. 14(5): p. 1241-50
    [PMID:26503031]
  7. Li Q, et al.
    Wrinkled1 Accelerates Flowering and Regulates Lipid Homeostasis between Oil Accumulation and Membrane Lipid Anabolism in Brassica napus.
    Front Plant Sci, 2015. 6: p. 1015
    [PMID:26635841]
  8. Hofvander P, et al.
    Potato tuber expression of Arabidopsis WRINKLED1 increase triacylglycerol and membrane lipids while affecting central carbohydrate metabolism.
    Plant Biotechnol. J., 2016. 14(9): p. 1883-98
    [PMID:26914183]
  9. Shen SL, et al.
    CitAP2.10 activation of the terpene synthase CsTPS1 is associated with the synthesis of (+)-valencene in 'Newhall' orange.
    J. Exp. Bot., 2016. 67(14): p. 4105-15
    [PMID:27194737]
  10. Adhikari ND,Bates PD,Browse J
    WRINKLED1 Rescues Feedback Inhibition of Fatty Acid Synthesis in Hydroxylase-Expressing Seeds.
    Plant Physiol., 2016. 171(1): p. 179-91
    [PMID:27208047]
  11. Kim MJ,Jang IC,Chua NH
    The Mediator Complex MED15 Subunit Mediates Activation of Downstream Lipid-Related Genes by the WRINKLED1 Transcription Factor.
    Plant Physiol., 2016. 171(3): p. 1951-64
    [PMID:27246098]
  12. Bhattacharya S,Das N,Maiti MK
    Cumulative effect of heterologous AtWRI1 gene expression and endogenous BjAGPase gene silencing increases seed lipid content in Indian mustard Brassica juncea.
    Plant Physiol. Biochem., 2016. 107: p. 204-213
    [PMID:27314514]
  13. Ma W, et al.
    14-3-3 protein mediates plant seed oil biosynthesis through interaction with AtWRI1.
    Plant J., 2016. 88(2): p. 228-235
    [PMID:27322486]
  14. Li D, et al.
    MYB89 Transcription Factor Represses Seed Oil Accumulation.
    Plant Physiol., 2017. 173(2): p. 1211-1225
    [PMID:27932421]
  15. Ivarson E, et al.
    Effects of Overexpression of WRI1 and Hemoglobin Genes on the Seed Oil Content of Lepidium campestre.
    Front Plant Sci, 2016. 7: p. 2032
    [PMID:28119714]
  16. An D, et al.
    Expression of Camelina WRINKLED1 Isoforms Rescue the Seed Phenotype of the Arabidopsis wri1 Mutant and Increase the Triacylglycerol Content in Tobacco Leaves.
    Front Plant Sci, 2017. 8: p. 34
    [PMID:28174580]
  17. Zhai Z,Liu H,Shanklin J
    Phosphorylation of WRINKLED1 by KIN10 Results in Its Proteasomal Degradation, Providing a Link between Energy Homeostasis and Lipid Biosynthesis.
    Plant Cell, 2017. 29(4): p. 871-889
    [PMID:28314829]
  18. Jin J, et al.
    Transcriptome and functional analysis reveals hybrid vigor for oil biosynthesis in oil palm.
    Sci Rep, 2017. 7(1): p. 439
    [PMID:28348403]
  19. Kong Q, et al.
    The Arabidopsis WRINKLED1 transcription factor affects auxin homeostasis in roots.
    J. Exp. Bot., 2017. 68(16): p. 4627-4634
    [PMID:28981783]
  20. Kang NK, et al.
    Increased lipid production by heterologous expression of AtWRI1 transcription factor in Nannochloropsis salina.
    Biotechnol Biofuels, 2017. 10: p. 231
    [PMID:29046718]
  21. Pellaud S, et al.
    WRINKLED1 and ACYL-COA:DIACYLGLYCEROL ACYLTRANSFERASE1 regulate tocochromanol metabolism in Arabidopsis.
    New Phytol., 2018. 217(1): p. 245-260
    [PMID:29105089]
  22. Hanano A,Almousally I,Shaban M,Murphy DJ
    Arabidopsis plants exposed to dioxin result in a WRINKLED seed phenotype due to 20S proteasomal degradation of WRI1.
    J. Exp. Bot., 2018. 69(7): p. 1781-1794
    [PMID:29394403]