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STIFDB - Entry Name : AT4G18440

Stress Signals involved in

 WOUNDING 

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

Gene Description : AT4G18440

Locus IdentifierGene Model NameGene Model DescriptionGene Model Type
AT4G18440AT4G18440.1adenylosuccinate lyase, putative / adenylosuccinase, putative similar to adenylosuccinate lyase, putative / adenylosuccinase, putative [Arabidopsis thaliana] (TAIR:AT1G36280.1) similar to adenylosuccinate-AMP lyase [Vigna unguiculata] (GB:AAL48316.1) similar to Os03g0313600 [Oryza sativa (japonica cultivar-group)] (GB:NP_001049929.1) similar to adenylosuccinate lyase [Nicotiana tabacum] (GB:AAR06293.1) contains InterPro domain Adenylosuccinate lyase (InterPro:IPR004769) contains InterPro domain Fumarate lyase (InterPro:IPR000362) contains InterPro domain L-Aspartase-like (InterPro:IPR008948) contains InterPro domain Adenylosuccinate lyase C-terminal (InterPro:IPR013539)

Gene Ontology Data from TAIR : AT4G18440

GO Category GO Annotation Type GO ID GO Evidence Type References
Cellular CompartmentchloroplastGO:0009507 IDAPublication:501724486|PMID:18431481
Biological Processpurine base biosynthetic processGO:0009113 IEAAnalysisReference:1445901
Cellular Compartmentchloroplast stromaGO:0009570 IDAPublication:501727324|PMID:18633119
Cellular Compartmentchloroplast stromaGO:0009570 IDAPublication:501735990|PMID:20061580
Molecular FunctionN6-(1,2-dicarboxyethyl)AMP AMP-lyase (fumarate-forming) activityGO:0004018 IEAAnalysisReference:501739686
Cellular Compartmentchloroplast stromaGO:0009570 IDAPublication:501728638|PMID:16207701
Biological Processmetabolic processGO:0008152 ISSCommunication:501714663
Molecular FunctionN6-(1,2-dicarboxyethyl)AMP AMP-lyase (fumarate-forming) activityGO:0004018 ISSCommunication:501714663
Biological Processpurine ribonucleotide biosynthetic processGO:0009152 IEAAnalysisReference:501739686
Biological ProcessIMP biosynthetic processGO:0006188 IEAAnalysisReference:501739686
Molecular Functioncatalytic activityGO:0003824 IEAAnalysisReference:501739686
    Biological Process     Molecular Function     Cellular Compartment

Click here for Guide to GO Evidence Codes


Orthologs

Gene IdSorghum bicolorZea maysGlycine Max
AT4G18440----GLYMA14G06780
 
 
           

Contact :

Prof. R. Sowdhamini

STIFDB TEAM :

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

Last Updated :

15th Oct, 2012