Gene: FAN14G5181
General Information
Structural Information
- Species Fragaria x ananassa
- Gene Identifier FAN14G5181
- Transcript Identifier FAN14G5181.1
- Gene Type Coding gene
- Location Fvb6-1 : 32668546-32680588 : negative
Gene Family Information
- ID HOM05D001310
- #Genes/#Species 480/100
- Phylogenetic origin
- ID ORTHO05D008060
- #Genes/#Species 124/91
- Phylogenetic origin
Gene Duplication Information
- Block Duplication Block duplicate
Labels
Identifiers
- id maker-Fvb6-1-snap-gene-326.74.v1.0.a1
- pacid 50523970
Descriptions
- Description 3.5.1.4 - Amidase / Acylase
- Loading (ortholog descriptions from ath)...
Functional Annotation
Biological Process
GO term | Evidence(s) | Provider(s) | Description | Source(s) |
---|---|---|---|---|
GO:0009684 | ISO | PLAZA Integrative Orthology | indoleacetic acid biosynthetic process | AT1G08980 |
GO:0009851 | ISO | PLAZA Integrative Orthology | auxin biosynthetic process | AT1G08980 |
Molecular Function
GO term | Evidence(s) | Provider(s) | Description | Source(s) |
---|---|---|---|---|
GO:0046872 | IEA | InterPro | metal ion binding | |
GO:0016810 | ISO | PLAZA Integrative Orthology | hydrolase activity, acting on carbon-nitrogen (but not peptide) bonds | AT1G08980 |
GO:0005515 | ISO | PLAZA Homology (enrichment) | protein binding | HOM05D001310 |
GO:0004040 | ISO | PLAZA Integrative Orthology | amidase activity | AT1G08980 |
GO:0043864 | ISO | PLAZA Integrative Orthology | indoleacetamide hydrolase activity | AT1G08980 |
Cellular Component
GO term | Evidence(s) | Provider(s) | Description | Source(s) |
---|---|---|---|---|
GO:0005737 | ISO | PLAZA Integrative Orthology | cytoplasm | AT1G08980 |
GO:0005829 | ISO | PLAZA Integrative Orthology | cytosol | AT1G08980 |
GO:0005654 | ISO | PLAZA Integrative Orthology | nucleoplasm | AT1G08980 |
Color Legend
Experimental Evidence |
Computational Reviewed Evidence |
Electronic Evidence |
Mapman id | Description |
---|---|
11.2.1.2.1 | Phytohormone action.auxin.biosynthesis.indole-3-acetamide (IAM) pathway.indole-3-acetamide hydrolase |