Gene Details:
- Gene ID: AT5G34930
- Gene Symbol: TyrA1
- Gene Name: TyrA arogenate dehydrogenase1
- Description: arogenate dehydrogenase;(source:Araport11)
- TAIR Accession: locus:2183532
- Genome: Araport11_genome_release
- Species: Arabidopsis thaliana
Transcripts:
Plant Ontology Annotations:
- PO:0009005 — root — raíz (Spanish, exact), radices (exact, plural), radix (exact), 根 (Japanese, exact), aerial root (narrow), climbing root (narrow)
- PO:0000084 — plant sperm cell — célula espermática o esperma (Spanish, exact), male gamete (exact), microgamete (exact), 植物精子細胞 (Japanese, exact), sperm nucleus (related), sperm cell (broad)
Gene Ontology:
- GO:0006571 — involved in — tyrosine biosynthetic process
- GO:0033730 — enables — arogenate dehydrogenase (NADP+) activity
- GO:0006570 — involved in — tyrosine metabolic process
- GO:0070403 — enables — NAD+ binding
- GO:0009507 — located in — chloroplast
- GO:0004665 — enables — prephenate dehydrogenase (NADP+) activity
Function-related keywords:
Literature:
- Molecular and biochemical characterization of an Arabidopsis thaliana arogenate dehydrogenase with two highly similar and active protein domains. DOI: 10.1023/a:1014018926676 ; PMID: 11905963
- Purification and kinetic analysis of the two recombinant arogenate dehydrogenase isoforms of Arabidopsis thaliana. DOI: 10.1046/j.1432-1033.2002.03172.x ; PMID: 12354106
- Inactivation of the chloroplast ATP synthase gamma subunit results in high non-photochemical fluorescence quenching and altered nuclear gene expression in Arabidopsis thaliana. DOI: 10.1074/jbc.M308435200 ; PMID: 14576160
- Dynamic evolution at pericentromeres. DOI: 10.1101/gr.4399206 ; PMID: 16461884
- Differential regulation of closely related R2R3-MYB transcription factors controls flavonol accumulation in different parts of the Arabidopsis thaliana seedling. DOI: 10.1111/j.1365-313X.2007.03078.x ; PMID: 17419845
- Principal transcriptional programs regulating plant amino acid metabolism in response to abiotic stresses. DOI: 10.1104/pp.108.115733 ; PMID: 18375600
- Global analysis of Arabidopsis gene expression uncovers a complex array of changes impacting pathogen response and cell cycle during geminivirus infection. DOI: 10.1104/pp.108.121038 ; PMID: 18650403
- Transcriptome analyses show changes in gene expression to accompany pollen germination and tube growth in Arabidopsis. DOI: 10.1104/pp.108.126375 ; PMID: 18775970
- Tyrosine and phenylalanine are synthesized within the plastids in Arabidopsis. DOI: 10.1104/pp.108.130070 ; PMID: 19136569
- Endogenous Arabidopsis messenger RNAs transported to distant tissues. DOI: 10.1038/nplants.2015.25 ; PMID: 27247031
- Imbalance of tyrosine by modulating TyrA arogenate dehydrogenases impacts growth and development of Arabidopsis thaliana. DOI: 10.1111/tpj.14169 ; PMID: 30457178
- Two independently evolved natural mutations additively deregulate TyrA enzymes and boost tyrosine production in planta. DOI: 10.1111/tpj.15597 ; PMID: 34807484
Sequences:
cDNA Sequence
- >AT5G34930.3
CATCTTCCTCCTCCTTCTTCTTCCTCCCAAAGCTCATCACCAAACCTCCTCTCTCCCTCTCATTTACCTCTCTTTCCTCAATGCTCCCTTCTCTCTCTCTCTCCACCGCCAACCGCCACCTCTCCGTCACCGACACCATCCCTCTTCCCAACTCCAACTCCAACGCCACCCCTCCTCTCCGTATCGCCATCATCGGATTCGGAAACTACGGCCAATTCCTTGCCGAAACCCTAATTTCTCAAGGCCACATTCTCTTCGCTCACTCCCGATCCGATCACTCCTCCGCCGCTCGCCGTCTCGGTGTCTCATACTTCACCGATCTTCACGATCTCTGCGAACGTCATCCTGACGTAGTCCTTCTCTGTACTTCAATCCTCTCCATAGAGAATATTCTCAAAACGTTGCCGTTTCAGAGACTCCGTCGCAACACTCTCTTCGTTGATGTTCTCTCCGTTAAAGAGTTTGCTAAAACTCTTCTCCTTCAATACTTACCTGAAGATTTCGATATTCTTTGTACACATCCAATGTTTGGTCCTCAGAGTGTGAGTTCAAATCATGGCTGGAGAGGATTAAGATTTGTGTATGATAAAGTTAGGATTGGGGAAGAGAGATTGAGAGTCTCAAGGTGTGAGAGTTTTCTTGAGATTTTTGTTAGAGAAGGATGTGAGATGGTGGAGATGAGTGTTACTGATCATGATAAGTTTGCTGCTGAATCACAGTTTATAACTCATACTCTTGGTAGGCTTTTGGGGATGTTGAAGTTGATATCGACGCCGATTAATACGAAAGGGTACGAGGCGTTGCTTGATTTAGCTGAGAATATTTGTGGGGATAGTTTTGATTTGTATTATGGGTTGTTTGTGTATAATAACAACTCTTTGGAGGTGTTAGAGAGGATTGATTTGGCTTTCGAGGCTTTGCGTAAGGAGCTTTTTAGTCGGCTTCACGGTGTTGTGAGGAAGCAGTCTTTTGAAGGTGAAGCAAAGAAAGTTCATGTTTTTCCAAATTGTGGTGAAAATGATGCTTCTTTGGATATGATGAGGTCAGAAGATGTTGTTGTGAAGTATGAATATAACTCCCAGGTGTCTGGTAGTGTTAATGACGGTTCGAGGCTCAAGATTGGTATCGTCGGGTTTGGAAATTTTGGACAGTTTCTAGGTAAAACCATGGTCAAGCAGGGTCACACTGTGTTAGCTTATTCCAGAAGTGACTACACTGATGAAGCAGCAAAGCTCGGTGTTTCGTATTTTTCAGATCTTGATGATCTATTTGAAGAGCATCCTGAAGTTATTATTCTCTGTACGTCAATCCTTTCGACTGAAAAAGTTCTCGAGTCACTACCGTTTCAGAGACTGAAGAGAAGCACACTTTTTGTGGATGTACTCTCAGTAAAAGAGTTCCCGAGGAATTTATTTCTTCAAACTCTCCCACAAGATTTTGATATTTTGTGCACGCATCCTATGTTTGGGCCAGAGAGTGGTAAAAATGGATGGAACAATCTTGCCTTTGTGTTTGATAAGGTTAGGATTGGAATGGATGATAGAAGAAAATCGAGGTGTAACAGTTTTCTTGATATTTTTGCCCGTGAAGGATGTCGTATGGTGGAGATGTCGTGTGCTGAACATGATTGGCATGCTGCTGGATCACAGTTTATCACACACACAGTGGGAAGGCTTCTGGAGAAGCTGAGCTTGGAATCTACTCCTATAGATACCAAAGGTTATGAGACATTGCTAAAACTGGTGGAGAATACTGCTGGTGACAGCTTTGATCTGTACTATGGACTATTTTTATACAATCCTAATGCAATGGAACAGCTTGAGAGGTTTCATGTGGCTTTTGAATCATTGAAGACACAGCTCTTTGGACGACTACATTCTCAACATTCTCATGAGCTAGCTAAATCATCTTCCCCAAAGACAACTAAGCTATTAACTAGCTAAAGTTAATATTCTCTCAGTCATGCTCCTTGACTACTAATTATACTGTTCTACTCAATACTCAATATGGTGGAAATCGTTTGGTCTTTGAAAGGCTTTGATGTAAGTTTCTTTCTTTCTTTGTAGCTTTATTTGACCCTTTTGTGGGTTTGTTGTGTCTTTTGTCCTCGATACGGGCTTCACAGTCCCAACCAGTTTGAATGTTAAACAGAAATAAAGTGCAGACAAGATTTTGAGTTTGGAA - >AT5G34930.1
CATCTTCCTCCTCCTTCTTCTTCCTCCCAAAGCTCATCACCAAACCTCCTCTCTCCCTCTCATTTACCTCTCTTTCCTCAATGCTCCCTTCTCTCTCTCTCTCCACCGCCAACCGCCACCTCTCCGTCACCGACACCATCCCTCTTCCCAACTCCAACTCCAACGCCACCCCTCCTCTCCGTATCGCCATCATCGGATTCGGAAACTACGGCCAATTCCTTGCCGAAACCCTAATTTCTCAAGGCCACATTCTCTTCGCTCACTCCCGATCCGATCACTCCTCCGCCGCTCGCCGTCTCGGTGTCTCATACTTCACCGATCTTCACGATCTCTGCGAACGTCATCCTGACGTAGTCCTTCTCTGTACTTCAATCCTCTCCATAGAGAATATTCTCAAAACGTTGCCGTTTCAGAGACTCCGTCGCAACACTCTCTTCGTTGATGTTCTCTCCGTTAAAGAGTTTGCTAAAACTCTTCTCCTTCAATACTTACCTGAAGATTTCGATATTCTTTGTACACATCCAATGTTTGGTCCTCAGAGTGTGAGTTCAAATCATGGCTGGAGAGGATTAAGATTTGTGTATGATAAAGTTAGGATTGGGGAAGAGAGATTGAGAGTCTCAAGGTGTGAGAGTTTTCTTGAGATTTTTGTTAGAGAAGGATGTGAGATGGTGGAGATGAGTGTTACTGATCATGATAAGTTTGCTGCTGAATCACAGTTTATAACTCATACTCTTGGTAGGCTTTTGGGGATGTTGAAGTTGATATCGACGCCGATTAATACGAAAGGGTACGAGGCGTTGCTTGATTTAGCTGAGAATATTTGTGGGGATAGTTTTGATTTGTATTATGGGTTGTTTGTGTATAATAACAACTCTTTGGAGGTGTTAGAGAGGATTGATTTGGCTTTCGAGGCTTTGCGTAAGGAGCTTTTTAGTCGGCTTCACGGTGTTGTGAGGAAGCAGTCTTTTGAAGGTGAAGCAAAGAAAGTTCATGTTTTTCCAAATTGTGGTGAAAATGATGCTTCTTTGGATATGATGAGGTCAGAAGATGTTGTTGTGAAGTATGAATATAACTCCCAGGTGTCTGGTAGTGTTAATGACGGTTCGAGGCTCAAGATTGGTATCGTCGGGTTTGGAAATTTTGGACAGTTTCTAGGTAAAACCATGGTCAAGCAGGGTCACACTGTGTTAGCTTATTCCAGAAGTGACTACACTGATGAAGCAGCAAAGCTCGGTGTTTCGTATTTTTCAGATCTTGATGATCTATTTGAAGAGCATCCTGAAGTTATTATTCTCTGTACGTCAATCCTTTCGACTGAAAAAGTTCTCGAGTCACTACCGTTTCAGAGACTGAAGAGAAGCACACTTTTTGTGGATGTACTCTCAGTAAAAGAGTTCCCGAGGAATTTATTTCTTCAAACTCTCCCACAAGATTTTGATATTTTGTGCACGCATCCTATGTTTGGGCCAGAGAGTGGTAAAAATGGATGGAACAATCTTGCCTTTGTGTTTGATAAGGTTAGGATTGGAATGGATGATAGAAGAAAATCGAGGTGTAACAGTTTTCTTGATATTTTTGCCCGTGAAGGATGTCGTATGGTGGAGATGTCGTGTGCTGAACATGATTGGCATGCTGCTGGATCACAGTTTATCACACACACAGTGGGAAGGCTTCTGGAGAAGCTGAGCTTGGAATCTACTCCTATAGATACCAAAGGTTATGAGACATTGCTAAAACTGGTGGAGAATACTGCTGGTGACAGCTTTGATCTGTACTATGGACTATTTTTATACAATCCTAATGCAATGGAACAGCTTGAGAGGTTTCATGTGGCTTTTGAATCATTGAAGACACAGCTCTTTGGACGACTACATTCTCAACATTCTCATGAGCTAGCTAAATCATCTTCCCCAAAGACAACTAAGCTATTAACTAGCTAAAGTTAATATTCTCTCAGTCATGCTCCTTGACTACTAATTATACTGTTCTACTCAATACTCAATATGGTGGAAATCGTTTGGTCTTTGAAAGGCTTTGATGTAAGTTTCTTTCTTTCTTTGTAGCTTTATTTGACCCTTTTGTGGGTTTGTTGTGTCTTTTGTCCTCGATACGGGCTTCACAGTCCCAACCAGTTTGAATGTTAAACAGAAATAAAGTGCAGACAAGATTTTGAGTTTGGAA - >AT5G34930.2
CATCTTCCTCCTCCTTCTTCTTCCTCCCAAAGCTCATCACCAAACCTCCTCTCTCCCTCTCATTTACCTCTCTTTCCTCAATGCTCCCTTCTCTCTCTCTCTCCACCGCCAACCGCCACCTCTCCGTCACCGACACCATCCCTCTTCCCAACTCCAACTCCAACGCCACCCCTCCTCTCCGTATCGCCATCATCGGATTCGGAAACTACGGCCAATTCCTTGCCGAAACCCTAATTTCTCAAGGCCACATTCTCTTCGCTCACTCCCGATCCGATCACTCCTCCGCCGCTCGCCGTCTCGGTGTCTCATACTTCACCGATCTTCACGATCTCTGCGAACGTCATCCTGACGTAGTCCTTCTCTGTACTTCAATCCTCTCCATAGAGAATATTCTCAAAACGTTGCCGTTTCAGAGACTCCGTCGCAACACTCTCTTCGTTGATGTTCTCTCCGTTAAAGAGTTTGCTAAAACTCTTCTCCTTCAATACTTACCTGAAGATTTCGATATTCTTTGTACACATCCAATGTTTGGTCCTCAGAGTGTGAGTTCAAATCATGGCTGGAGAGGATTAAGATTTGTGTATGATAAAGTTAGGATTGGGGAAGAGAGATTGAGAGTCTCAAGGTGTGAGAGTTTTCTTGAGATTTTTGTTAGAGAAGGATGTGAGATGGTGGAGATGAGTGTTACTGATCATGATAAGTTTGCTGCTGAATCACAGTTTATAACTCATACTCTTGGTAGGCTTTTGGGGATGTTGAAGTTGATATCGACGCCGATTAATACGAAAGGGTACGAGGCGTTGCTTGATTTAGCTGAGAATATTTGTGGGGATAGTTTTGATTTGTATTATGGGTTGTTTGTGTATAATAACAACTCTTTGGAGGTGTTAGAGAGGATTGATTTGGCTTTCGAGGCTTTGCGTAAGGAGCTTTTTAGTCGGCTTCACGGTGTTGTGAGGAAGCAGTCTTTTGAAGGTGAAGCAAAGAAAGTTCATGTTTTTCCAAATTGTGGTGAAAATGATGCTTCTTTGGATATGATGAGGTCAGAAGATGTTGTTGTGAAGTATGAATATAACTCCCAGGTGTCTGGTAGTGTTAATGACGGTTCGAGGCTCAAGATTGGTATCGTCGGGTTTGGAAATTTTGGACAGTTTCTAGGTAAAACCATGGTCAAGCAGGGTCACACTGTGTTAGCTTATTCCAGAAGTGACTACACTGATGAAGCAGCAAAGCTCGGTGTTTCGTATTTTTCAGATCTTGATGATCTATTTGAAGAGCATCCTGAAGTTATTATTCTCTGTACGTCAATCCTTTCGACTGAAAAAGTTCTCGAGTCACTACCGTTTCAGAGACTGAAGAGAAGCACACTTTTTGTGGATGTACTCTCAGTAAAAGAGTTCCCGAGGAATTTATTTCTTCAAACTCTCCCACAAGATTTTGATATTTTGTGCACGCATCCTATGTTTGGGCCAGAGAGTGGTAAAAATGGATGGAACAATCTTGCCTTTGTGTTTGATAAGGTTAGGATTGGAATGGATGATAGAAGAAAATCGAGGTGTAACAGTTTTCTTGATATTTTTGCCCGTGAAGGATGTCGTATGGTGGAGATGTCGTGTGCTGAACATGATTGGCATGCTGCTGGATCACAGTTTATCACACACACAGTGGGAAGGCTTCTGGAGAAGCTGAGCTTGGAATCTACTCCTATAGATACCAAAGGTTATGAGACATTGCTAAAACTGGTGGAGAATACTGCTGGTGACAGCTTTGATCTGTACTATGGACTATTTTTATACAATCCTAATGCAATGGAACAGCTTGAGAGGTTTCATGTGGCTTTTGAATCATTGAAGACACAGCTCTTTGGACGACTACATTCTCAACATTCTCATGAGCTAGCTAAATCATCTTCCCCAAAGACAACTAAGCTATTAACTAGCTAAAGTTAATATTCTCTCAGTCATGCTCCTTGACTACTAATTATACTGTTCTACTCAATACTCAATATGGTGGAAATCGTTTGGTCTTTGAAAGGCTTTGATGTAAGTTTCTTTCTTTCTTTGTAGCTTTATTTGACCCTTTTGTGGGTTTGTTGTGTCTTTTGTCCTCGATACGGGCTTCACAGTCCCAACCAGTTTGAATGTTAAACAGAAATAAAGTGCAGACAAGATTTTGAGTTTGGAA
CDS Sequence
Protein Sequence