Information report for AT5G14060
Gene Details
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Functional Descriptions
- GO:0005829 — is active in — cytosol
- GO:0009067 — acts upstream of or within — aspartate family amino acid biosynthetic process
- GO:0009089 — involved in — lysine biosynthetic process via diaminopimelate
- GO:0004072 — enables — aspartate kinase activity
- GO:0009088 — involved in — threonine biosynthetic process
- GO:0009570 — located in — chloroplast stroma
- GO:0009090 — involved in — homoserine biosynthetic process
- GO:0009507 — located in — chloroplast
Functional Keywords
Literature and News
- Genome-wide analysis of NBS-LRR-encoding genes in Arabidopsis. DOI: 10.1105/tpc.009308 ; PMID: 12671079
- 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
- Genome-wide analysis of Arabidopsis responsive transcriptome to nitrogen limitation and its regulation by the ubiquitin ligase gene NLA. DOI: 10.1007/s11103-007-9241-0 ; PMID: 17885809
- 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
Gene Resources
- UniProt: A0A178UPF4
- EMBL: CACRSJ010000110, LR881470, LUHQ01000005
- AlphaFoldDB: A0A178UPF4
- EnsemblPlants: AT5G14060.1, AT5G14060.2
- Gramene: AT5G14060.1, AT5G14060.2
- KEGG: ath:AT5G14060
- Orthologous matrix: IMIGTRR
- ExpressionAtlas: AT5G14060
- InterPro: IPR001048, IPR001341, IPR002912
- PANTHER: PTHR21499, PTHR21499:SF54
- SUPFAM: SSF53633, SSF55021
- PROSITE: PS00324, PS51671
- Gene3D: 1.20.120.1320, 3.30.70.260, 3.40.1160.10
- SWISS-MODEL: A0A178UPF4
Sequences
cDNA Sequence
- >AT5G14060.2
TAAAAATAAAAATGCAGGAGAAAAAGAAAGATGTCAACATTATTTCATGGATTAACACAAAGTACAAATTTTAGTAGAGTGGCTTACTAATAGCTGAAAGGGTATCTCGACCCAGAGATTGAATCTGAACCGTCCATTCTGGGAAGGGCAAACAAAACAGTGTTTGTGTCTCACGTTCTCTTCCTTCTCTAATAGAGTCTTAAGCCGCTTTTTCACTCCTTAAACCCAAAAAAAAACATTAGTACTATTTCCTTCGGAGCCTGGCCGGCGAATCCGACAGGTCGTTTCAGCTGTGTCCGAAGGAAAGTTCCAATTTTTATCTGTTTTTCTTCACGGAAATCCAGTTAAGTTGCAGGTTTCCACATTGCACAGCTGTACCATTTGTCGAGATCACAACACGCAAGTCTCTTAGATTTAGCAAGCTTATGGCTTCATTGCAGTTGTACGGAGTTAAAACTCCAGGGCTTGCTTTAAGTTCAAAGAGGCTTGAGTTTGCTTCAAAGGGGGCATGTTTTTCAGTTACGTTGCCCTCAAGTAGTGCTGTCTTTAGAGACGTAGAGCATTCTTGTAGGAATATAGGTTTGAGAGTTAGTTGTGAAGCTCTAAGAGTCGATTTGCTTCAAAGAAAAGAGCCTGAGACGTGCGATTCAAGCGGAACTGGCAAAGAGTTGACATGTGTAATGAAATTTGGCGGTTCATCAGTGGAATCAGCAGAGAGGATGAAAGAAGTTGCCAATCTTATACTCAGCTTTCCAGATGAGAGGCCCGTCATTGTGCTATCAGCAATGGGAAAGACGACTAATAAGCTTTTGAAGGCTGGAGAGAAGGCTGTTACTTGCGGTGTCACTAACGTAGAAAGTATTGAAGAATTGAGCTTTATAAAGGAACTCCATTTAAGAACTGCTCATGAGCTTGGAGTGGAAACAACGGTTATTGAAAAACACCTAGAAGGACTACACCAGCTTCTCAAAGGCATATCAATGATGAAAGAGCTAACCTTACGCACAAGGGACTACTTGGTTTCATTTGGAGAGTGCATGTCCACAAGGCTTTTCTCTGCGTATCTCAATAAAATTGGCCACAAAGCGCGTCAATATGATGCATTTGAGATCGGATTTATCACCACAGACGACTTTACTAATGCTGATATACTTGAAGCAACATACCCTGCCGTCTCAAAAACACTTGTTGGCGACTGGAGCAAGGAAAATGCAGTCCCTGTTGTTACTGGCTACCTCGGAAAGGGATGGAGGTCTTGTGCTATCACTACGCTGGGTAGGGGTGGCAGTGATTTGACAGCTACAACGATTGGGAAAGCGCTAGGACTGCGGGAAATTCAGGTTTGGAAAGATGTGGATGGAGTTTTGACTTGTGATCCTAACATATATCCTGGAGCTCAATCTGTTCCGTACTTAACGTTCGATGAGGCAGCTGAGCTTGCTTACTTTGGTGCCCAGGTGTTGCATCCACTGTCTATGAGGCCAGCAAGAGATGGCGACATTCCTGTGAGGGTTAAGAACTCGTACAACCCCACTGCTCCAGGAACTGTCATCACCAGATCAAGAGACATGAGTAAGGCTGTGCTAACCAGCATTGTTCTGAAACGTAATGTGACCATGTTGGACATAGCAAGCACCCGTATGCTTGGCCAATATGGTTTCCTTGCCAAGGTGTTTACCACATTTGAAGATTTAGGTATATCGGTTGATGTTGTGGCAACAAGTGAAGTTAGTATATCATTGACATTGGATCCAGCAAAGCTCTGGGGTAGAGAGTTAATTCAGCGAGTAAATGAACTGGATAATTTGGTGGAAGAGCTAGAGAAGATTGCTGTTGTGAAACTACTTCAACGCAGATCAATCATCTCTCTCATAGGAAATGTTCAGAAATCCTCACTCATATTAGAGAAGGTGTTCCAAGTATTTAGAAGCAATGGAGTGAATGTGCAGATGATCTCGCAGGGTGCATCTAAGGTAAACATCTCATTGATAGTGAATGATGAAGAGGCAGAGCAATGTGTGAGGGCTCTCCACTCCGCCTTCTTTGAGACCGATCCTTAGTGCAACACAGAGCACCCATCTCTCTCCTTCAACTCTGCTTCTGTGCGTAGTTTAATGCTAAGAATGTGTCAAGACTTGGAACTATTTCAAATTCTTGTCCATTGTTGTTGTTGTTGTTGTTGTTGTTGTGATACAATACATCATAATTTGAGCCAAAGCCTATAATCTTTTAATTTAAAGAGTACATAGACAAGCTCAAAAAGAAATAAAGAAATAACCAGTGTGTTGAGTAGGGATTCAGATTTAAAGCTTAGTTTTTAGGATTTAAGATTTGGTTTTATGACATAAGGTTTACAATTATTAGTCAATGGTAATTATAC - >AT5G14060.1
TAAAAATAAAAATGCAGGAGAAAAAGAAAGATGTCAACATTATTTCATGGATTAACACAAAGTACAAATTTTAGTAGAGTGGCTTACTAATAGCTGAAAGGGTATCTCGACCCAGAGATTGAATCTGAACCGTCCATTCTGGGAAGGGCAAACAAAACAGTGTTTGTGTCTCACGTTCTCTTCCTTCTCTAATAGAGTCTTAAGCCGCTTTTTCACTCCTTAAACCCAAAAAAAAACATTAGTACTATTTCCTTCGGAGCCTGGCCGGCGAATCCGACAGGTCGTTTCAGCTGTGTCCGAAGGAAAGTTCCAATTTTTATCTGTTTTTCTTCACGGAAATCCAGTTAAGTTGCAGGTTTCCACATTGCACAGCTGTACCATTTGTCGAGATCACAACACGCAAGTCTCTTAGATTTAGCAAGCTTATGGCTTCATTGCAGTTGTACGGAGTTAAAACTCCAGGGCTTGCTTTAAGTTCAAAGAGGCTTGAGTTTGCTTCAAAGGGGGCATGTTTTTCAGTTACGTTGCCCTCAAGTAGTGCTGTCTTTAGAGACGTAGAGCATTCTTGTAGGAATATAGGTTTGAGAGTTAGTTGTGAAGCTCTAAGAGTCGATTTGCTTCAAAGAAAAGAGCCTGAGACGTGCGATTCAAGCGGAACTGGCAAAGAGTTGACATGTGTAATGAAATTTGGCGGTTCATCAGTGGAATCAGCAGAGAGGATGAAAGAAGTTGCCAATCTTATACTCAGCTTTCCAGATGAGAGGCCCGTCATTGTGCTATCAGCAATGGGAAAGACGACTAATAAGCTTTTGAAGGCTGGAGAGAAGGCTGTTACTTGCGGTGTCACTAACGTAGAAAGTATTGAAGAATTGAGCTTTATAAAGGAACTCCATTTAAGAACTGCTCATGAGCTTGGAGTGGAAACAACGGTTATTGAAAAACACCTAGAAGGACTACACCAGCTTCTCAAAGGCATATCAATGATGAAAGAGCTAACCTTACGCACAAGGGACTACTTGGTTTCATTTGGAGAGTGCATGTCCACAAGGCTTTTCTCTGCGTATCTCAATAAAATTGGCCACAAAGCGCGTCAATATGATGCATTTGAGATCGGATTTATCACCACAGACGACTTTACTAATGCTGATATACTTGAAGCAACATACCCTGCCGTCTCAAAAACACTTGTTGGCGACTGGAGCAAGGAAAATGCAGTCCCTGTTGTTACTGGCTACCTCGGAAAGGGATGGAGGTCTTGTGCTATCACTACGCTGGGTAGGGGTGGCAGTGATTTGACAGCTACAACGATTGGGAAAGCGCTAGGACTGCGGGAAATTCAGGTTTGGAAAGATGTGGATGGAGTTTTGACTTGTGATCCTAACATATATCCTGGAGCTCAATCTGTTCCGTACTTAACGTTCGATGAGGCAGCTGAGCTTGCTTACTTTGGTGCCCAGGTGTTGCATCCACTGTCTATGAGGCCAGCAAGAGATGGCGACATTCCTGTGAGGGTTAAGAACTCGTACAACCCCACTGCTCCAGGAACTGTCATCACCAGATCAAGAGACATGAGTAAGGCTGTGCTAACCAGCATTGTTCTGAAACGTAATGTGACCATGTTGGACATAGCAAGCACCCGTATGCTTGGCCAATATGGTTTCCTTGCCAAGGTGTTTACCACATTTGAAGATTTAGGTATATCGGTTGATGTTGTGGCAACAAGTGAAGTTAGTATATCATTGACATTGGATCCAGCAAAGCTCTGGGGTAGAGAGTTAATTCAGCGAGTAAATGAACTGGATAATTTGGTGGAAGAGCTAGAGAAGATTGCTGTTGTGAAACTACTTCAACGCAGATCAATCATCTCTCTCATAGGAAATGTTCAGAAATCCTCACTCATATTAGAGAAGGTGTTCCAAGTATTTAGAAGCAATGGAGTGAATGTGCAGATGATCTCGCAGGGTGCATCTAAGGTAAACATCTCATTGATAGTGAATGATGAAGAGGCAGAGCAATGTGTGAGGGCTCTCCACTCCGCCTTCTTTGAGACCGATCCTTAGTGCAACACAGAGCACCCATCTCTCTCCTTCAACTCTGCTTCTGTGCGTAGTTTAATGCTAAGAATGTGTCAAGACTTGGAACTATTTCAAATTCTTGTCCATTGTTGTTGTTGTTGTTGTTGTTGTTGTGATACAATACATCATAATTTGAGCCAAAGCCTATAATCTTTTAATTTAAAGAGTACATAGACAAGCTCAAAAAGAAATAAAGAAATAACCAGTGTGTTGAGTAGGGATTCAGATTTAAAGCTTAGTTTTTAGGATTTAAGATTTGGTTTTATGACATAAGGTTTACAATTATTAGTCAATGGTAATTATAC - >AT5G14060.3
TAAAAATAAAAATGCAGGAGAAAAAGAAAGATGTCAACATTATTTCATGGATTAACACAAAGTACAAATTTTAGTAGAGTGGCTTACTAATAGCTGAAAGGGTATCTCGACCCAGAGATTGAATCTGAACCGTCCATTCTGGGAAGGGCAAACAAAACAGTGTTTGTGTCTCACGTTCTCTTCCTTCTCTAATAGAGTCTTAAGCCGCTTTTTCACTCCTTAAACCCAAAAAAAAACATTAGTACTATTTCCTTCGGAGCCTGGCCGGCGAATCCGACAGGTCGTTTCAGCTGTGTCCGAAGGAAAGTTCCAATTTTTATCTGTTTTTCTTCACGGAAATCCAGTTAAGTTGCAGGTTTCCACATTGCACAGCTGTACCATTTGTCGAGATCACAACACGCAAGTCTCTTAGATTTAGCAAGCTTATGGCTTCATTGCAGTTGTACGGAGTTAAAACTCCAGGGCTTGCTTTAAGTTCAAAGAGGCTTGAGTTTGCTTCAAAGGGGGCATGTTTTTCAGTTACGTTGCCCTCAAGTAGTGCTGTCTTTAGAGACGTAGAGCATTCTTGTAGGAATATAGGTTTGAGAGTTAGTTGTGAAGCTCTAAGAGTCGATTTGCTTCAAAGAAAAGAGCCTGAGACGTGCGATTCAAGCGGAACTGGCAAAGAGTTGACATGTGTAATGAAATTTGGCGGTTCATCAGTGGAATCAGCAGAGAGGATGAAAGAAGTTGCCAATCTTATACTCAGCTTTCCAGATGAGAGGCCCGTCATTGTGCTATCAGCAATGGGAAAGACGACTAATAAGCTTTTGAAGGCTGGAGAGAAGGCTGTTACTTGCGGTGTCACTAACGTAGAAAGTATTGAAGAATTGAGCTTTATAAAGGAACTCCATTTAAGAACTGCTCATGAGCTTGGAGTGGAAACAACGGTTATTGAAAAACACCTAGAAGGACTACACCAGCTTCTCAAAGGCATATCAATGATGAAAGAGCTAACCTTACGCACAAGGGACTACTTGGTTTCATTTGGAGAGTGCATGTCCACAAGGCTTTTCTCTGCGTATCTCAATAAAATTGGCCACAAAGCGCGTCAATATGATGCATTTGAGATCGGATTTATCACCACAGACGACTTTACTAATGCTGATATACTTGAAGCAACATACCCTGCCGTCTCAAAAACACTTGTTGGCGACTGGAGCAAGGAAAATGCAGTCCCTGTTGTTACTGGCTACCTCGGAAAGGGATGGAGGTCTTGTGCTATCACTACGCTGGGTAGGGGTGGCAGTGATTTGACAGCTACAACGATTGGGAAAGCGCTAGGACTGCGGGAAATTCAGGTTTGGAAAGATGTGGATGGAGTTTTGACTTGTGATCCTAACATATATCCTGGAGCTCAATCTGTTCCGTACTTAACGTTCGATGAGGCAGCTGAGCTTGCTTACTTTGGTGCCCAGGTGTTGCATCCACTGTCTATGAGGCCAGCAAGAGATGGCGACATTCCTGTGAGGGTTAAGAACTCGTACAACCCCACTGCTCCAGGAACTGTCATCACCAGATCAAGAGACATGAGTAAGGCTGTGCTAACCAGCATTGTTCTGAAACGTAATGTGACCATGTTGGACATAGCAAGCACCCGTATGCTTGGCCAATATGGTTTCCTTGCCAAGGTGTTTACCACATTTGAAGATTTAGGTATATCGGTTGATGTTGTGGCAACAAGTGAAGTTAGTATATCATTGACATTGGATCCAGCAAAGCTCTGGGGTAGAGAGTTAATTCAGCGAGTAAATGAACTGGATAATTTGGTGGAAGAGCTAGAGAAGATTGCTGTTGTGAAACTACTTCAACGCAGATCAATCATCTCTCTCATAGGAAATGTTCAGAAATCCTCACTCATATTAGAGAAGGTGTTCCAAGTATTTAGAAGCAATGGAGTGAATGTGCAGATGATCTCGCAGGGTGCATCTAAGGTAAACATCTCATTGATAGTGAATGATGAAGAGGCAGAGCAATGTGTGAGGGCTCTCCACTCCGCCTTCTTTGAGACCGATCCTTAGTGCAACACAGAGCACCCATCTCTCTCCTTCAACTCTGCTTCTGTGCGTAGTTTAATGCTAAGAATGTGTCAAGACTTGGAACTATTTCAAATTCTTGTCCATTGTTGTTGTTGTTGTTGTTGTTGTTGTGATACAATACATCATAATTTGAGCCAAAGCCTATAATCTTTTAATTTAAAGAGTACATAGACAAGCTCAAAAAGAAATAAAGAAATAACCAGTGTGTTGAGTAGGGATTCAGATTTAAAGCTTAGTTTTTAGGATTTAAGATTTGGTTTTATGACATAAGGTTTACAATTATTAGTCAATGGTAATTATAC
CDS Sequence
Protein Sequence