Gene: Aa31LG2G15040
General Information
Structural Information
- Species Aethionema arabicum
- Gene Identifier Aa31LG2G15040
- Transcript Identifier Aa31LG2G15040.mRNA1
- Gene Type Coding gene
- Location LG-2 : 6858282-6863285 : positive
Gene Family Information
- ID HOM05D003927
- #Genes/#Species 177/99
- Phylogenetic origin
- ID ORTHO05D004905
- #Genes/#Species 168/99
- Phylogenetic origin
Gene Duplication Information
- Block Duplication Block duplicate
Labels
Identifiers
- tid Aa31LG2G15040.mRNA1
- Alias Aa31LG2G15040
- Alias Aa31LG2G15040-mRNA-1
Descriptions
- Loading (ortholog descriptions from ath)...
Functional Annotation
Biological Process
| GO term | Evidence(s) | Provider(s) | Description | Source(s) |
|---|---|---|---|---|
| GO:0009793 | ISO | PLAZA Integrative Orthology | embryo development ending in seed dormancy | AT1G31070 |
| GO:0019276 | ISO | PLAZA Integrative Orthology | UDP-N-acetylgalactosamine metabolic process | AT1G31070 |
| GO:0006047 | ISO | PLAZA Integrative Orthology | UDP-N-acetylglucosamine metabolic process | AT1G31070 |
| GO:0009555 | ISO | PLAZA Integrative Orthology | pollen development | AT1G31070 |
| GO:0009553 | ISO | PLAZA Integrative Orthology | embryo sac development | AT1G31070 |
Molecular Function
| GO term | Evidence(s) | Provider(s) | Description | Source(s) |
|---|---|---|---|---|
| GO:0070569 | IEA | InterPro | uridylyltransferase activity | |
| GO:0052630 | ISO | PLAZA Integrative Orthology | UDP-N-acetylgalactosamine diphosphorylase activity | AT1G31070 |
| GO:0003977 | ISO | PLAZA Integrative Orthology | UDP-N-acetylglucosamine diphosphorylase activity | AT1G31070 |
Cellular Component
| GO term | Evidence(s) | Provider(s) | Description | Source(s) |
|---|---|---|---|---|
| GO:0005829 | ISO | PLAZA Integrative Orthology | cytosol | AT1G31070 |
| GO:0005886 | ISO | PLAZA Integrative Orthology | plasma membrane | AT1G31070 |
Color Legend
| Experimental Evidence |
| Computational Reviewed Evidence |
| Electronic Evidence |
| Mapman id | Description |
|---|---|
| 3.13.9.1.4 | Carbohydrate metabolism.nucleotide sugar biosynthesis.UDP-N-acetylglucosamine biosynthesis.de novo biosynthesis.UDP-N-acetylglucosamine pyrophosphorylase |