Gene Details:
- Gene ID: AT4G27070
- Gene Symbol: TSB2
- Gene Name: tryptophan synthase beta-subunit 2
- Description: tryptophan synthase beta-subunit 2;(source:Araport11)
- TAIR Accession: locus:2005543
- Genome: Araport11_genome_release
- Species: Arabidopsis thaliana
Transcripts:
Gene Ontology:
- GO:0009941 — located in — chloroplast envelope
- GO:0000162 — involved in — tryptophan biosynthetic process
- GO:0009507 — located in — chloroplast
- GO:0000162 — acts upstream of or within — tryptophan biosynthetic process
- GO:0005515 — enables — protein binding
- GO:0009570 — located in — chloroplast stroma
- GO:0004834 — enables — tryptophan synthase activity
- GO:0005737 — is active in — cytoplasm
Literature:
- Cell cycle-regulated gene expression in Arabidopsis. DOI: 10.1074/jbc.M207570200 ; PMID: 12169696
- 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
- Transcriptional divergence of the duplicated oxidative stress-responsive genes in the Arabidopsis genome. DOI: 10.1111/j.1365-313X.2004.02295.x ; PMID: 15634198
- Retrograde plastid redox signals in the expression of nuclear genes for chloroplast proteins of Arabidopsis thaliana. DOI: 10.1074/jbc.M406358200 ; PMID: 15561727
- Genome-wide transcriptional analysis of the Arabidopsis thaliana interaction with the plant pathogen Pseudomonas syringae pv. tomato DC3000 and the human pathogen Escherichia coli O157:H7. DOI: 10.1111/j.1365-313X.2006.02725.x ; PMID: 16553894
- Oviposition by pierid butterflies triggers defense responses in Arabidopsis. DOI: 10.1104/pp.106.090837 ; PMID: 17142483
- The genetic basis of zinc tolerance in the metallophyte Arabidopsis halleri ssp. halleri (Brassicaceae): an analysis of quantitative trait loci. DOI: 10.1534/genetics.106.064485 ; PMID: 17409091
- Rhizobacterial volatile emissions regulate auxin homeostasis and cell expansion in Arabidopsis. DOI: 10.1007/s00425-007-0530-2 ; PMID: 17497164
- Genotypic variation in genome-wide transcription profiles induced by insect feeding: Brassica oleracea–Pieris rapae interactions. DOI: 10.1186/1471-2164-8-239 ; PMID: 17640338
- MYC2 differentially modulates diverse jasmonate-dependent functions in Arabidopsis. DOI: 10.1105/tpc.106.048017 ; PMID: 17616737
- Principal transcriptional programs regulating plant amino acid metabolism in response to abiotic stresses. DOI: 10.1104/pp.108.115733 ; PMID: 18375600
- Transcriptome analyses show changes in gene expression to accompany pollen germination and tube growth in Arabidopsis. DOI: 10.1104/pp.108.126375 ; PMID: 18775970
- Endogenous Arabidopsis messenger RNAs transported to distant tissues. DOI: 10.1038/nplants.2015.25 ; PMID: 27247031
- 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
- The AP2/ERF domain transcription factor ORA59 integrates jasmonic acid and ethylene signals in plant defense. DOI: 10.1104/pp.108.117523 ; PMID: 18467450
Sequence:
cDNA Sequence
- >AT4G27070.1 GTTTACCAAAAGAAAATAGATAACACTAAAATTAGGCATGTGATAAACACTCCAACCCCCAAAATGTACACCGCCCTATTCTCACCAACCTCTTCTGACTCTTCTCTCATTTTCTGTTGTTCACAAATAAGTTAACGTGGTACCGAACTACCGATTTCCTCCACTATTTTATTGAATTTCTGGTCAAAAAACTTAAGTGTTACATAACGAATCTATAAAAAGAACCCTCACTTTCAAGGTTTTTGTCAGCAAAACATTTGTCTTCGTGTTTGAAAGCTAGATAAAAGATTCACTAAATGGCCACCGCAAGCACCGCTGCTACTTTCAGACCCTCCTCCGTTTCAGCTTCTTCCGAATTAACCCATCTGAGATCACCCTCCAAACTCCCCAAATTTACGCCTCTGCCATCGGCTCGCTCACGGTCCTCTTCTTCGTTCTCCGTCTCCTGCACCATCGCTAAGGACCCAGCTGTTGTCATGGCGGACTCGGAGAAGATTAAGGCCGCTGGATCTGATCCGACTATGTGGCAACGACCTGATTCATTCGGTCGTTTCGGGAAGTTTGGCGGCAAGTACGTCCCCGAAACTCTAATGCACGCCCTCTCTGAACTCGAAACGGCTTTCTATTCGCTCGCCACCGACGAAGATTTCCAGAGAGAATTAGCAGAGATCTTGAAAGACTACGTTGGTCGGGAAAGTCCTCTTTACTTTGCAGAGAGGCTCACGGAGCATTACCGCCGTGAAAACGGTGAAGGGCCGCTCATATACCTCAAAAGGGAAGACTTGAACCACACCGGTGCTCACAAGATCAACAACGCTGTGGCTCAGGCTCTTCTCGCCAAGCGTCTAGGAAAGAAACGAATTATTGCTGAGACAGGGGCTGGTCAACATGGTGTAGCCACAGCTACTGTGTGTGCACGTTTCGGTTTGCAGTGCATTATCTACATGGGTGCTCAAGACATGGAGAGACAAGCTCTTAATGTGTTCAGAATGCGTCTTCTCGGTGCTGAGGTAAGGGGAGTCCACTCTGGAACAGCCACTTTAAAGGACGCAACTTCTGAAGCTATAAGGGATTGGGTGACCAATGTGGAGACTACACATTACATATTGGGATCCGTTGCGGGTCCTCATCCTTATCCTATGATGGTCAGAGACTTTCACGCGGTGATTGGTAAAGAAACAAGGAAACAAGCGATGGAGAAATGGGGCGGGAAGCCTGATGTTCTGGTTGCTTGTGTCGGTGGTGGTTCAAATGCTATGGGACTCTTCCATGAATTTGTCGATGACACAGAGGTTCGAATGATTGGTGTGGAAGCCGCTGGATTTGGATTGGACAGCGGCAAACATGCTGCCACATTGACAAAAGGAGATGTCGGTGTACTCCACGGAGCTATGAGTTACTTGCTGCAAGATGATGATGGCCAAATCATTGAACCACACTCCATCAGTGCCGGATTGGACTACCCTGGAGTCGGACCTGAGCATAGTTTCCTTAAAGACGTGGGAAGGGCTGAATACTTTAGCGTTACTGATGAAGAAGCATTAGAAGCTTTCAAGAGAGTGTCTCGGTTGGAGGGAATAATCCCGGCATTGGAGACATCGCACGCATTGGCCCATCTGGAGAAGCTTTGTCCGACGTTACCTGATGGAGCCAGAGTGGTATTAAACTTCAGTGGGAGAGGCGACAAGGATGTTCAGACTGCAATCAAGTATCTCGAAGTTTAAAGAGTGTAGATTACTTTCATTTTCACACAGTGCTATTTCTTTTATGTAGTTTGTTAGTTCTCCTTGCTTATGGTCGGGAATCCAAAAGTTTGGATCAAAGGGTTAAGAAGAGAATAAGTGTTATGAATGTATCATATAAATAAAAATGTTCTATGGAACGTTTGATGTTCTTATAAGCAATTCGAACTGTTTTGTTCTTGACTTAGCTGGTTTTCCCTTTCATATCTTAATTTCACCAATGCTTAGAAAAAACAACTCTGATCGAATGATTTATAAAC
CDS Sequence
Protein Sequence