Information report for AT5G28237
Gene Details
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Functional Descriptions
- GO:0009507 — located in — chloroplast
- GO:0000162 — involved in — tryptophan biosynthetic process
- GO:0005737 — is active in — cytoplasm
- GO:0004834 — contributes to — tryptophan synthase activity
Functional Keywords
Literature and News
- Analysis of 4,664 high-quality sequence-finished poplar full-length cDNA clones and their utility for the discovery of genes responding to insect feeding. DOI: 10.1186/1471-2164-9-57 ; PMID: 18230180
- AGRONOMICS1: a new resource for Arabidopsis transcriptome profiling. DOI: 10.1104/pp.109.150185 ; PMID: 20032078
- Comparative Coexpression Analysis of Indole Synthase and Tryptophan Synthase A Reveals the Independent Production of Auxin via the Cytosolic Free Indole. DOI: 10.3390/plants12081687 ; PMID: 37111910
Gene Resources
- UniProt: A0A1P8BBQ3
- EMBL: CP002688
- AlphaFoldDB: A0A1P8BBQ3
- EnsemblPlants: AT5G28237.2
- Gramene: AT5G28237.2
- KEGG: ath:AT5G28237
- ExpressionAtlas: AT5G28237
- InterPro: IPR001926, IPR006653, IPR006654
- PANTHER: PTHR48077, PTHR48077:SF4
- SUPFAM: SSF53686
- PROSITE: PS00168
- Gene3D: 3.40.50.1100
- SWISS-MODEL: A0A1P8BBQ3
- Conserved Domain Database: cd06446
Sequences
cDNA Sequence
- >AT5G28237.2
AAGAAAATCTCAAATAGATATAACAAGTATTCTGGAAGAAAGAAAAGAGAGAGAAAATGTCGTCCAGTAAAATCCAGGTACGAGGGCAGCCACTTCTTAGGGTTCCGGCAAGAAACCACCGTATGACACACTTGGTTGTTTGCGGCGTTTCCACAAAACGCCACCACCGTGAAATCAATGCACTCAGCAGTAATAGTGGTCCATCGTTGGATTCGGTCCCAACAAGAACCGACAAGAGGCAGTTTCTTCGTGGTGACGGTAACGGTAAATTCGGGAGGTTCGGTGGGAAGTTTGTACCGGAGACATTGATGTCTCGCCTGATAGAACTTGAAGACGAATTTAACTTTGTTAGGTGCGATCACGAATTTCAGGAGGAGCTTACCACAGCGTTAAGAGACTACGTAGGAAGAGAAACGCCTCTCTACTTCGCCGAACGTCTAACCGAACACTACAAGAACATAGTTCCAACCATCGAAGGTGGACCAGAGATATACTTGAAACGGGAAGATCTTAGCCACTGTGGGTCTCACAAAATCAATAATGCTCTCGCTCAGGCCATGATTTCCCGGCGGCTTGGTTGCAGCCGTGTGGTGGCGGCCACTGGAGCCGGACAACATGGAGTCGCCACAGCGGCTGCATGTGCAAAGCTCTCCTTGGAGTGTACTGTTTTCATGGGAGCTGCTGATATAGAGAAACAATCCTTTAATGTACTTTCCATGAAACTCCTTGGTGCTCAGGTTATATCAGTGGAAGGAACATTCAAAGATGCAAGTTCAGAAGCTATACGAAACTGGGTCGAAAACCTATATACCACATACTACTTATCGGGTACGGTCGTAGGACCGCATCCGTGTCCGATAATAGTACGTGAGTTTCAATCTGTGATCGGGAAAGAGACAAGAAGGCAAGCCAAGCAACTATGGGGTGGTAAGCCTGATGTGTTGGTGGCCTGTGTGGGAAGTGGCTCAAACGCATTGGGTTTGTTCCATGAGTTTGTTGGGGATGAGGATGTGCGGTTAGTCGGTGTCGAGGCTGCGGGGCTTGGTCTGGATTCGGGGAAACATTCAGCTACTTTGGCCTTTGGAGATGTTGGTGTATACCATGGTTCCATGAGCTATTTATTGCAAGATGATCAAGGACAGATACTTAAACCACACTCCGTAGGTGTTGGGTTAGAGTATCCCGGAGTTGGACCGGAGATTAGTTTCATGAAAGAAACTGGCAGAGCGGAGTTCTATACAGCAACAGACGAAGAAGCAATTCAAGGTACGTACCTCATAGTTAGGCATGAGCAAAATTTAATCATAACCGGACCGTTTTTAAACAGTAATTGGACTGTAACCGTAACCATTAACCGTAAAATAGATTAATTAAAAAATATATTAATCGTAACCGTCAATTAACCGTAACCGTATCAAAACTGTAGTAACCGTACAGTCAACCGTGTGTTAACTGTATAGTTAAAACCTTAAAACTACAATTTTATTTATTTGTAATGCAAAAAAAAATGTCGAATGTTCGGATAAAGATTTTTTAAAAAGAGTAATATCGTATAGGAAAAAATATACAACATATTTTTTATCTTATTAAAAAGTCAGAAAATACGTAAGATTTTGCATCTGGTATCATGTATATTGTAATCATCAATAATCAAAAGGGTATTTAACTGTAACTATTGTTACTGTAACCATATTCAATTGTAACCTTATCTAATCATAACCATCTTAACTCTATATATAATGGTTAGATTACGGCAGAGTTGACCCTGAGCACAGCCAATTGAAACAATTGATCGTGCATGCGATTAAGCAGATTGGAGGGAATAATACCGGCATTAGAAGCGTCTCACGCGCTCGCGTTCCTCGACAAACTCGTGCCTACTCTTCGTGATGGAGCCAAGGTGGTAGTGAACTGCAGTGGCCGTGGTGACAAAGATTTAGATACTCTCATCCAACGAGGCATGCCTTCTTCTTTTTGTTGACTCACCAAGATGCCACATTACACTTAACTCTTTTAGAAAACGTATGGTCCAATCACAACCATCATTATAGATGAAATACTAATATATCAATCATTATTTAATTTTTCGATTTACTAATCACCCTAAATTTCCCATCCCCC - >AT5G28237.1
AAGAAAATCTCAAATAGATATAACAAGTATTCTGGAAGAAAGAAAAGAGAGAGAAAATGTCGTCCAGTAAAATCCAGGTACGAGGGCAGCCACTTCTTAGGGTTCCGGCAAGAAACCACCGTATGACACACTTGGTTGTTTGCGGCGTTTCCACAAAACGCCACCACCGTGAAATCAATGCACTCAGCAGTAATAGTGGTCCATCGTTGGATTCGGTCCCAACAAGAACCGACAAGAGGCAGTTTCTTCGTGGTGACGGTAACGGTAAATTCGGGAGGTTCGGTGGGAAGTTTGTACCGGAGACATTGATGTCTCGCCTGATAGAACTTGAAGACGAATTTAACTTTGTTAGGTGCGATCACGAATTTCAGGAGGAGCTTACCACAGCGTTAAGAGACTACGTAGGAAGAGAAACGCCTCTCTACTTCGCCGAACGTCTAACCGAACACTACAAGAACATAGTTCCAACCATCGAAGGTGGACCAGAGATATACTTGAAACGGGAAGATCTTAGCCACTGTGGGTCTCACAAAATCAATAATGCTCTCGCTCAGGCCATGATTTCCCGGCGGCTTGGTTGCAGCCGTGTGGTGGCGGCCACTGGAGCCGGACAACATGGAGTCGCCACAGCGGCTGCATGTGCAAAGCTCTCCTTGGAGTGTACTGTTTTCATGGGAGCTGCTGATATAGAGAAACAATCCTTTAATGTACTTTCCATGAAACTCCTTGGTGCTCAGGTTATATCAGTGGAAGGAACATTCAAAGATGCAAGTTCAGAAGCTATACGAAACTGGGTCGAAAACCTATATACCACATACTACTTATCGGGTACGGTCGTAGGACCGCATCCGTGTCCGATAATAGTACGTGAGTTTCAATCTGTGATCGGGAAAGAGACAAGAAGGCAAGCCAAGCAACTATGGGGTGGTAAGCCTGATGTGTTGGTGGCCTGTGTGGGAAGTGGCTCAAACGCATTGGGTTTGTTCCATGAGTTTGTTGGGGATGAGGATGTGCGGTTAGTCGGTGTCGAGGCTGCGGGGCTTGGTCTGGATTCGGGGAAACATTCAGCTACTTTGGCCTTTGGAGATGTTGGTGTATACCATGGTTCCATGAGCTATTTATTGCAAGATGATCAAGGACAGATACTTAAACCACACTCCGTAGGTGTTGGGTTAGAGTATCCCGGAGTTGGACCGGAGATTAGTTTCATGAAAGAAACTGGCAGAGCGGAGTTCTATACAGCAACAGACGAAGAAGCAATTCAAGGTACGTACCTCATAGTTAGGCATGAGCAAAATTTAATCATAACCGGACCGTTTTTAAACAGTAATTGGACTGTAACCGTAACCATTAACCGTAAAATAGATTAATTAAAAAATATATTAATCGTAACCGTCAATTAACCGTAACCGTATCAAAACTGTAGTAACCGTACAGTCAACCGTGTGTTAACTGTATAGTTAAAACCTTAAAACTACAATTTTATTTATTTGTAATGCAAAAAAAAATGTCGAATGTTCGGATAAAGATTTTTTAAAAAGAGTAATATCGTATAGGAAAAAATATACAACATATTTTTTATCTTATTAAAAAGTCAGAAAATACGTAAGATTTTGCATCTGGTATCATGTATATTGTAATCATCAATAATCAAAAGGGTATTTAACTGTAACTATTGTTACTGTAACCATATTCAATTGTAACCTTATCTAATCATAACCATCTTAACTCTATATATAATGGTTAGATTACGGCAGAGTTGACCCTGAGCACAGCCAATTGAAACAATTGATCGTGCATGCGATTAAGCAGATTGGAGGGAATAATACCGGCATTAGAAGCGTCTCACGCGCTCGCGTTCCTCGACAAACTCGTGCCTACTCTTCGTGATGGAGCCAAGGTGGTAGTGAACTGCAGTGGCCGTGGTGACAAAGATTTAGATACTCTCATCCAACGAGGCATGCCTTCTTCTTTTTGTTGACTCACCAAGATGCCACATTACACTTAACTCTTTTAGAAAACGTATGGTCCAATCACAACCATCATTATAGATGAAATACTAATATATCAATCATTATTTAATTTTTCGATTTACTAATCACCCTAAATTTCCCATCCCCC
CDS Sequence
Protein Sequence