Information report for AT5G12950
Gene Details
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Functional Descriptions
- PO:0000293 — guard cell — célula guardiana (Spanish, exact), occlusive cell (exact), 孔辺細胞 (Japanese, exact)
- SALK_096059 — Late flowering.
Functional Keywords
Literature and News
- 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
- The vegetative vacuole proteome of Arabidopsis thaliana reveals predicted and unexpected proteins. DOI: 10.1105/tpc.104.027078 ; PMID: 15539469
- A sub-proteome of Arabidopsis thaliana mature stems trapped on Concanavalin A is enriched in cell wall glycoside hydrolases. DOI: 10.1093/jxb/erm082 ; PMID: 17526915
- Analysis of protein complexes in Arabidopsis leaves using size exclusion chromatography and label-free protein correlation profiling. DOI: 10.1016/j.jprot.2017.06.004 ; PMID: 28627464
Gene Resources
- UniProt: Q9LXU4
- EMBL: AK118034, AL353013, CP002688
- AlphaFoldDB: Q9LXU4
- EnsemblPlants: AT5G12950.1
- Gramene: AT5G12950.1
- KEGG: ath:AT5G12950
- Orthologous matrix: HVGCRTR
- ExpressionAtlas: AT5G12950
- InterPro: IPR008928, IPR012878, IPR049046
- PANTHER: PTHR31151, PTHR31151:SF0
- SUPFAM: SSF48208
- Gene3D: 2.80.10.50
- SWISS-MODEL: Q9LXU4
Sequences
cDNA Sequence
- >AT5G12950.1
TTTGTATGAATCTCCTTCAACCTTTTTTCCCCAAAACTCCTCTCTTCTTCTCTGCAACGAAAAACCTCTTCTTCTTCTTCTCTCTCTCTATCCATTTTCACTAATTAGCGATTAAAAAGGATTCTTTTTGTGTGTATTAATTATCGCTTAAATCTTAAATAATTCTCCTAATCGTCTCTGCACGTTGGTGATGGTGTTTAGTTGTCAATTCTACATCTCGAGGAAATCCAGAAACAGCTCACTGATCTATCGAAACAGTTTTTTTTCTTTTTACAGAGTCAATAGAACAAAACCAGATAACAGAGATAGTGACAAACCATCCGTGACCTCCTCTGTTTTTATCCTAATCTCTCTGCTTTCTCTTTCACGTGATTGAATTCTTTTTCTTTGTTAGACATTGCTTAAATCTTCACAACTCTTTTGCTTTATATATGTCTCTTCTCACATTATCCTCTTCTTCATATTCAAATCTCCTCTCCCTAACTGTTTTATGGTCTCTTGGATTCTGAATTTGGGATCTTGGGGTTTCGGGTTTTGAACCATCTCTTTAGACTTTAGTTACACTTTTTTCATTCTTTTTTAAGACAAAAGAGATACGATGAAGTCTGGTCTCATCATAACCATTGCTCTGTTACTATACACAAGCAGCTTTGTTCTTGTTTCTGTAGCGAAAGAGTGTACCAACACTCCTACGCAGCTCTCATCCCATACTTTCCGCAGCGAGCTTCTGCAATCAAAGAACGAAACTTTGAAGACAGAGTTGTTCTCTCATTACCATTTAACTCCAGCTGATGACTCTGCTTGGTCTAGTTTATTGCCAAGGAAGATGTTGAAAGAAGAGGCAGATGAATTTGCTTGGACTATGTTGTATAGGAAGTTCAAGGACTCTAATTCCTCTGGTAACTTTCTTAAAGATGTCTCTTTGCACGACGTTAGGCTCGACCCAGACTCCTTTCATTGGAGGGCTCAGCAGACAAACCTTGAGTATCTATTGATGTTGGATGTTGATGGTTTGGCCTGGAGCTTCCGTAAAGAAGCTGGTCTTGATGCACCTGGAGATTACTATGGAGGATGGGAGAGACCAGATAGTGAACTCCGTGGCCATTTTGTCGGTCACTATTTGAGTGCAACAGCTTATATGTGGGCTAGTACTCATAATGATACTCTCAAGGAGAAAATGTCAGCTCTTGTCTCAGCTCTATCGGAATGCCAACAGAAGTCTGGCACAGGATATCTCTCTGCTTTTCCTTCCAGTTTTTTCGACCGCTTTGAAGCTATAACACCTGTTTGGGCTCCTTACTACACCATTCACAAGATTTTAGCTGGTCTGGTTGATCAATACAAGTTGGCTGGGAACAGTCAAGCTTTAAAGATGGCAACCGGGATGGCTGATTATTTCTATGGCCGTGTTCGTAATGTGATAAGGAAGTACAGTGTTGAACGACATTGGCAATCACTAAACGAAGAGACTGGTGGCATGAATGATGTTCTTTATCAGCTATACAGCATCACTGGAGATTCCAAGTATTTGCTGCTCGCACATCTCTTTGACAAGCCTTGCTTTCTCGGAGTCCTCGCAATTCAGGCCGATGATATTAGTGGATTCCACGCTAATACACATATTCCCATCGTCGTTGGATCCCAACAACGGTATGAAATCACTGGTGATCTACTCCATAAGGAAATCTCGATGTTCTTTATGGACATTTTTAATGCTTCTCACAGCTATGCAACAGGAGGAACATCAGTCAGTGAGTTCTGGCAAGATCCCAAGAGAATGGCGACTGCACTGCAAACTGAAAACGAGGAATCATGTACTACTTATAACATGCTCAAGGTCTCTAGGAATCTGTTCAGATGGACAAAAGAGGTTAGCTATGCAGACTATTACGAGCGCGCCTTGACCAACGGCGTGTTGGGAATTCAAAGAGGAACCCAGCCTGGACTGATGATCTACATGCTCCCATTAGGTAAAGGTGTTTCTAAGGCTGTGACTTATCACGGTTGGGGAACACCTTATGATTCCTTCTGGTGTTGCTATGGCACTGGAATTGAATCCTTCTCAAAACTGGGAGATTCCATATATTTTCAAGAAGATGGTGCAACTCCAGCTCTTTATGTCACCCAATATATATCAAGCTCACTTGATTGGAAATCTGCTGGTCTTTCAATATCTCAGAAAGTTAATCCTGTTGTGTCGTGGGATCCGTACATGCGTGTGACATTCACTCTTTCTTCTTCCAAAGTGGGAGTGGCGAAGGAGTCGACTTTGAATCTAAGAATTCCTGTTTGGACTAACTCTATAGGTGCCAAAGTATCTTTGAATGGGCGACCCTTAAACGTACCAACTTCAGGTAATTTCCTATCAATCAAACAGAAATGGAAATCTGGTGATCAAGTAACCATGGAGCTACCAATGAGTATCAGAACCGAAGCTATAAAAGATGATCGGCCAGAGTACGCATCTCTTCAAGCCATACTCTATGGCCCCTACTTGTTAGCCGGACACACGAGCAGGGACTGGAGCATCACAACTCAGGCTAAACCTGGAAAATGGATAACCCCTATACCTGAAACTCAAAACAGTTACCTTGTCACACTCTCACAACAATCTGGAAACGTATCTTACGTGTTTTCAAATAGCAACCAAACCATCACAATGAGAGTATCACCCGAGCCAGGGACACAAGATGCCGTTGCAGCGACTTTCAGGCTCGTGACTGATAATTCTAAACCACGGATTTCGGGTCCAGAAGGACTAATTGGAAGGCTGGTCATGCTTGAGCCGTTTGATTTCCCTGGCATGATTGTAAAGCAAGCAACTGATAGCTCCCTCACAGTTCAAGCTTCTTCTCCTAGTGACAAAGGAGCTTCTAGCTTTCGGTTAGTATCTGGACTTGACGGGAAGCTAGGAAGCGTTTCGTTAAGACTAGAGAGCAAAAAAGGTTGTTTTGTGTACAGCGATCAAACCCTAAAGCAAGGGACAAAACTAAGGCTAGAATGTGGTTCGGATGCGACTGATGAGAAGTTTAAAGAGGCAGCAAGCTTTAGTTTAAAGACAGGAATGCATCAATACAATCCAATGAGTTTCGTGATGAGCGGAACACAGAGGAACTTTGTGTTATCGCCATTGTTTAGCTTAAGAGATGAAACATACAATGTGTACTTCAGTGTGCAAACTTGAAGAAAGAAACCCTTATTGGGTGAAAATATAAGAAAGAAAAGTCTCATTTGAAATATAGACATGTGTTTAGATGTTTAGCCTCTTAGGTTTGTTTGTGATTTTGTGTTCTGCAATGTCATCTAAAAATGTATGTTGCTGTTACAATAAATATAAACAAATGTGTTTTTATAAATTGTGCTAACGATGAATCCATGTCTTTCTTTATATTCTAAATATAGAGTGGAGAATAGTGTGTTGCCTTGAGCTTTCATGA
CDS Sequence
Protein Sequence