Gene: SGA_v2.0_scaffold186G40215
General Information
Structural Information
- Species Striga asiatica
- Gene Identifier SGA_v2.0_scaffold186G40215
- Transcript Identifier SGA_v2.0_scaffold186T40215
- Gene Type Coding gene
- Location scaffold186 : 594171-597312 : negative
Gene Family Information
- ID HOM05D004008
- #Genes/#Species 175/98
- Phylogenetic origin
- ID ORTHO05D005383
- #Genes/#Species 159/98
- Phylogenetic origin
Gene Duplication Information
- Block Duplication Block duplicate
Labels
Identifiers
Descriptions
- product Porphobilinogen deaminase
- Loading (ortholog descriptions from ath)...
Functional Annotation
Biological Process
| GO term | Evidence(s) | Provider(s) | Description | Source(s) |
|---|---|---|---|---|
| GO:0033014 | IEA | InterPro | tetrapyrrole biosynthetic process | |
| GO:0015995 | ISO | PLAZA Integrative Orthology | chlorophyll biosynthetic process | AT5G08280 |
| GO:0006779 | ISO | PLAZA Integrative Orthology | porphyrin-containing compound biosynthetic process | AT5G08280 |
| GO:1900865 | ISO | PLAZA Integrative Orthology | chloroplast RNA modification | AT5G08280 |
| GO:0042742 | ISO | PLAZA Integrative Orthology | defense response to bacterium | AT5G08280 |
Molecular Function
| GO term | Evidence(s) | Provider(s) | Description | Source(s) |
|---|---|---|---|---|
| GO:0004418 | IEA | InterPro | hydroxymethylbilane synthase activity | |
| GO:0005515 | ISO | PLAZA Integrative Orthology | protein binding | AT5G08280 |
Cellular Component
| GO term | Evidence(s) | Provider(s) | Description | Source(s) |
|---|---|---|---|---|
| GO:0009570 | ISO | PLAZA Integrative Orthology | chloroplast stroma | AT5G08280 |
| GO:0009507 | ISO | PLAZA Integrative Orthology | chloroplast | AT5G08280 |
| GO:0048046 | ISO | PLAZA Integrative Orthology | apoplast | AT5G08280 |
| GO:0009941 | ISO | PLAZA Integrative Orthology | chloroplast envelope | AT5G08280 |
Color Legend
| Experimental Evidence |
| Computational Reviewed Evidence |
| Electronic Evidence |
| Mapman id | Description |
|---|---|
| 7.12.2.2 | Coenzyme metabolism.tetrapyrrol biosynthesis.uroporphyrinogen III formation.porphobilinogen deaminase |