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STIFDB - Entry Name : AT3G45640

Stress Signals involved in

 DROUGHT 

STIFDB Provides Data in 2 levels:
1000bp Data
100bp Data

Gene Description : AT3G45640

Locus IdentifierGene Model NameGene Model DescriptionGene Model Type
AT3G45640AT3G45640.1Encodes a mitogen-activated kinase whose mRNA levels increase in response to touch, cold, salinity stress and chitin oligomers.

Gene Ontology Data from TAIR : AT3G45640

GO Category GO Annotation Type GO ID GO Evidence Type References
Biological Processabscisic acid mediated signalingGO:0009738 TASPublication:501682501|PMID:12434021
Biological Processactivation of MAPK activity during osmolarity sensingGO:0000169 IDAPublication:501682342|PMID:0012220631
Molecular Functionprotein kinase activityGO:0004672 TASPublication:501682501|PMID:12434021
Biological Processresponse to chitinGO:0010200 IEPPublication:501716437|PMID:15923325
Biological Processstomatal complex developmentGO:0010374 IGIPublication:501720689|PMID:17259259
Molecular Functionprotein bindingGO:0005515 IPIPublication:501682759|PMID:12506203
Biological Processresponse to osmotic stressGO:0006970 IDAPublication:501682342|PMID:0012220631
Biological Processsignal transductionGO:0007165 ICPublication:501683496|PMID:12119167
Biological Processresponse to stressGO:0006950 TASPublication:501683496|PMID:12119167
Molecular FunctionMAP kinase activityGO:0004707 ISSPublication:501683496|PMID:12119167
Biological Processcamalexin biosynthetic processGO:0010120 IMPPublication:501724638|PMID:18378893
Biological Processresponse to oxidative stressGO:0006979 TASPublication:501683496|PMID:12119167
Biological Processovule developmentGO:0048481 IGIPublication:501724280|PMID:18364464
Biological Processresponse to oxidative stressGO:0006979 IEPPublication:658|PMID:10717008
Biological Processresponse to coldGO:0009409 IEPPublication:4055|PMID:8570631
Biological Processstomatal complex patterningGO:0010375 IGIPublication:501720689|PMID:17259259
Molecular Functionkinase activityGO:0016301 ISSCommunication:501714663
    Biological Process     Molecular Function     Cellular Compartment

Click here for Guide to GO Evidence Codes


Orthologs

Gene IdSorghum bicolorZea maysGlycine Max
AT3G45640Sb01g038750GRMZM2G053987GLYMA11G15700
 
 
           

Contact :

Prof. R. Sowdhamini

STIFDB TEAM :

Prof. R. Sowdhamini | Shameer Khader
Mahantesha Naika B. N. | Oommen K. M.

Last Updated :

15th Oct, 2012