Information report for AT5G23720
Gene Details
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Functional Descriptions
- PO:0009005 — root — raíz (Spanish, exact), radices (exact, plural), radix (exact), 根 (Japanese, exact), aerial root (narrow), climbing root (narrow)
- SAIL_1293_C02 — Embryonic lethal in homozygotes.
- SALK_150750 — Hypersensitive to ABA in respect to seed germination and stomatal behaviour..
- phs1-1 — phs1-1 exhibits phenotypes indicative of compromised cortical microtubule functions, such as left-handed helical growth of seedling roots, defective anisotropic growth at low doses of microtubule-destabilizing drugs, enhancement of the temperature-sensitive microtubule organization1-1 phenotype, and less ordered and more fragmented cortical microtubule arrays compared with the wild type.
Functional Keywords
Literature and News
- IBR5, a dual-specificity phosphatase-like protein modulating auxin and abscisic acid responsiveness in Arabidopsis. DOI: 10.1105/tpc.017046 ; PMID: 14630970
- A semidominant mutation in an Arabidopsis mitogen-activated protein kinase phosphatase-like gene compromises cortical microtubule organization. DOI: 10.1105/tpc.021865 ; PMID: 15208393
- A subgroup of MYB transcription factor genes undergoes highly conserved alternative splicing in Arabidopsis and rice. DOI: 10.1093/jxb/erj094 ; PMID: 16531467
- Identification of a vacuolar sucrose transporter in barley and Arabidopsis mesophyll cells by a tonoplast proteomic approach. DOI: 10.1104/pp.106.079533 ; PMID: 16581873
- The phs1-3 mutation in a putative dual-specificity protein tyrosine phosphatase gene provokes hypersensitive responses to abscisic acid in Arabidopsis thaliana. DOI: 10.1111/j.1365-313X.2006.02823.x ; PMID: 16889651
- Evolutionary radiation pattern of novel protein phosphatases revealed by analysis of protein data from the completely sequenced genomes of humans, green algae, and higher plants. DOI: 10.1104/pp.107.111393 ; PMID: 18156295
- Transcriptome analyses show changes in gene expression to accompany pollen germination and tube growth in Arabidopsis. DOI: 10.1104/pp.108.126375 ; PMID: 18775970
- Arabidopsis mitogen-activated protein kinase MPK18 mediates cortical microtubule functions in plant cells. DOI: 10.1111/j.1365-313X.2009.03895.x ; PMID: 19392697
- A survey of dominant mutations in Arabidopsis thaliana. DOI: 10.1016/j.tplants.2012.08.006 ; PMID: 22995285
- The mitogen-activated protein kinase phosphatase PHS1 regulates flowering in Arabidopsis thaliana. DOI: 10.1007/s00425-015-2447-5 ; PMID: 26721646
- A dual-specificity phosphatase, MAP kinase phosphatase 1, positively regulates blue light-mediated seedling development in Arabidopsis. DOI: 10.1007/s00425-021-03649-6 ; PMID: 34057637
- Dpe2/phs1 revealed unique starch metabolism with three distinct phases characterized by different starch granule numbers per chloroplast, allowing insights into the control mechanism of granule number regulation by gene co-regulation and metabolic profiling. DOI: 10.3389/fpls.2022.1039534 ; PMID: 36407636
Gene Resources
- UniProt: A0A654G3I7
- EMBL: CACRSJ010000110
- AlphaFoldDB: A0A654G3I7
- EnsemblPlants: AT5G23720.1
- Gramene: AT5G23720.1
- KEGG: ath:AT5G23720
- Orthologous matrix: THMDSND
- ExpressionAtlas: AT5G23720
- InterPro: IPR000340, IPR000387, IPR011009
- PANTHER: PTHR47100, PTHR47100:SF5
- SUPFAM: SSF52799, SSF56112
- PROSITE: PS00383, PS50054, PS50056
- Gene3D: 1.10.1070.11, 3.90.190.10
- SWISS-MODEL: A0A654G3I7
- Conserved Domain Database: cd05124, cd14498
Sequences
cDNA Sequence
- >AT5G23720.1
CGACAAGTTCATATTAATTAAAGATACCTTGAGACTTTCCTCTTCTCAGATACAAAGCTGACATTTGAAGAAAAAGACATTTCTAAAATTAAACAGAACCTAAGCTTTTGCAATGGCGGAACCTGAGAAGAAGCGAGATCAACCATTTTCTCAAGAAAAAGACGAAGAGAAAGATCTATACCTTGTTCACGACGAGCACGAGTCTCCTCTTCCTCTCACCGTCACTTCTCGTGTTTTGTACATGTTAGGAGATATAGCATCTGGTCCAGCTTATAGGTTTACTCAATGGTTGGATTTAGTTCGTAAACGAAGTGCTACTTACGGATCCTCTGGCTTCCCTCACCGCCTTCACCGCATCGATGATATGGTCACTAGTGCAGGAGAGAGGAATACTGATCCTAAAAGTCCACCAAGTAGGCAGAGTTCAGAGATTAGTTTGTGGGAAAGGCTTGGTAAAGCTTCTACTGTGGATATTGATTCGAGCTGTTTTTCATGGAATATGTTGTCTTCACTTCATCATACTGAACATAGTAGTAGCACTGATCATTCTGAAGAAGACCAGAGTAAACCACTTGAGGTTACTGTGAATTCTGGAGGAGTTGTTTTCTTTGCCCTGTTCAATAGTTCCAGCTCTGAAGATGCCTCTCGTAAGGAAGAAGCAGCAGTTATTAAATTTGCATCATCGAGGATGGCCACGCAATCAGAACGTCTAGGTTATGAGTTTTCCAAGTGGCTAGGGGTGCAGATTCCGCAGGCTAGAGTAATTCACAGCTGTAATCCTGAGTGGACACTGATCAAAGAAGCCACTGAAAAAGCACAAGCTAAAGCGACTTCGGAGGGGGACGAGGTTGGTGAAATGACATGTTCAGAACTTCTGGAAGCCCTTGAGCTCAGCCGTTGTCTTCTCTTAATGAGTTATGTTCATGGATGTCCAATGCTGGAGAGCATGAGTAGTTTTGAAACTGAAGAAAAAGCAGAGAGAGCTGCTGCAGCTCTAGGGAGAATCTTGGTGTTAGATCTAGTAATTAGGAATGAAGACAGATTACCGTGTCGTCAGCTGAGATGGCGTGGCAACCCGGCAAATCTGTTACTGACAGACAGAATTGTGTCTTCTGCAAAGCATCATGAATGTTCATTTGATGAAGCTTTTGATTCCGCCATCAAACGGTACCATCCAAAGGACTATAGATCCATTCAAAGGGAAAGAAGAGCTTCTTCCGTAGATAGCAGATCCAGGTTGAGTATCAGTGATCAAATGTTGGTCTCACAGGCTTCTGATTTTTCTGATATAACGGAATCACCTAGATCATATGATACTGGTTTAATGAGTCCAATGTCTGATAGATCAGTAGCTGCCGATTTTCACCTCGTTGCCATAGACTCGGGTGTTCCACGGCGGCCTCCTGCTGGAAAACGGGCAAGCGACCAAGAAATTTATCCAAGATTAGTTGAGTTACTCCTCAATAGTAGCCAATATTCTTCGAATTTGTTACATGAAATAACAGAAGGAAGTTTAGGATATCCACAGGCAGAAGATGGTGAAGAAACATCTAATGTTCGATCTGTAGTAACACCAGTTGTACGCGAGTTTCGAAATGGTTTCCGAGCTGGTCTCAGGGATTTGCAAGAGTTTCACATCTTCCTTGTCACCCTTCATCAGAAATTAGATGTGTTGCTTCGGGCATTTTTTAGTATGATGGACAAAACAATGTGTGCAGATTTTGACAGAGAAGACTTTGCTGTTCCTGAGTCACCTTCACATACTCATGGGCATGAGGTGAATCATTATCCATCTCCCTCAAAAGATCGGGTGCCTAGTGATAACAGCTCTGATCACAGTGAGTCAGATATGCAAAAATCAGTTCCTAGGACACCAAATTCAGAAAACAAAGAAGACGGGTCTTCGCCTAAGTCACGTGAAAGTTGGCACGGAAGATCCGGTAAAGGTGGAGAATCTCTTAGCAGTCAGCGTTTGGCAGCAAAGCTCCGTGACTTCCATAAGTTTGCAAAGGTTGATGCTGAGTCTAATAAAGAACTAGACCAGTGGAATGAAACACTGCGGAATGAAGTGATGAAACTTTGCCAAGAGAACGGTTTCAACACTGGTTTTTTTGAGGGCAGTGATAATAACAGTTGCACAGATGCTTATGAGCTAAAGGTTAGACTTGAGCATATTCTTGAGAGGATATCATTGATTAGCAAAGCTGCTAATACAGAGAAACCATCAATGATACAAGAAAATCTTTTTATCGGGGGAGGATTGGCTGCAAGGTCGATTTACACTCTTCAGCATTTAGGTATAACTCATGTTCTATGTTTGTGCGCTAATGAAATCGGGCAATCGGATACTCAATACCCGGATCTCTTCGAGTACCAAAACTTCTCAATAACCGATGATGAAGACTCAAATATCGAGAGCATCTTTCAAGAAGCTCTCGATTTCATCAAGCATGGCGAAGAAACTGGTGGCAAGATTTTAGTTCATTGCTTCGAAGGTCGGAGTAGAAGCGCAACAGTAGTGCTTGCTTACCTAATGCTCCAAAAGAAGCTCACACTTTTAGAAGCATGGAGCAAACTGAGGAAAGTTCATAGACGAGCTCAACCGAATGATGGATTTGCGCGGATCTTAATAAACCTCGACAAGAAATGTCACGGGAAAGTATCAATGGAGTGGAGACAGAGGAAACCGACAATGAAAGTGTGTCCGGTTTGTGGAAAGAACGCAGGTCTAAGCAGCAGTTCTTTGAAGCTTCATCTCCAGAAATCTCACAGGAAACTGTCTTCGGGAAGTGTTGACAGTGCAATGAACATGGAGATTCAAAAGGCTTTGGAGGCTCTTAAACTCAGCACTGGCCGTGGCTCAAGTGCTAGTTCCAATTCTTTCCAATCTCATCCTGGTTAGAGAGTCCGGTTTGGTTTTATCTATGGTTTGTCCCGGTTAAAGTCTCTCTAATCGTACATCTCTGAACAAAAACATTGATCTGTTTTGTTTTGTTTTTTACTGTAACGATCTTTGTACTTGTATACGCAAGTAAATAAAAAGCCGAAAAGCTGAATAGAAGTCACTGGGAAACGTCATAATAAGCTAATGTAACATTTGTAACTCTTTTTCCCTTGTGCTTTGTGTTAAGAAAGTAAGATTTGGCCCAAAAATGT - >AT5G23720.2
CGACAAGTTCATATTAATTAAAGATACCTTGAGACTTTCCTCTTCTCAGATACAAAGCTGACATTTGAAGAAAAAGACATTTCTAAAATTAAACAGAACCTAAGCTTTTGCAATGGCGGAACCTGAGAAGAAGCGAGATCAACCATTTTCTCAAGAAAAAGACGAAGAGAAAGATCTATACCTTGTTCACGACGAGCACGAGTCTCCTCTTCCTCTCACCGTCACTTCTCGTGTTTTGTACATGTTAGGAGATATAGCATCTGGTCCAGCTTATAGGTTTACTCAATGGTTGGATTTAGTTCGTAAACGAAGTGCTACTTACGGATCCTCTGGCTTCCCTCACCGCCTTCACCGCATCGATGATATGGTCACTAGTGCAGGAGAGAGGAATACTGATCCTAAAAGTCCACCAAGTAGGCAGAGTTCAGAGATTAGTTTGTGGGAAAGGCTTGGTAAAGCTTCTACTGTGGATATTGATTCGAGCTGTTTTTCATGGAATATGTTGTCTTCACTTCATCATACTGAACATAGTAGTAGCACTGATCATTCTGAAGAAGACCAGAGTAAACCACTTGAGGTTACTGTGAATTCTGGAGGAGTTGTTTTCTTTGCCCTGTTCAATAGTTCCAGCTCTGAAGATGCCTCTCGTAAGGAAGAAGCAGCAGTTATTAAATTTGCATCATCGAGGATGGCCACGCAATCAGAACGTCTAGGTTATGAGTTTTCCAAGTGGCTAGGGGTGCAGATTCCGCAGGCTAGAGTAATTCACAGCTGTAATCCTGAGTGGACACTGATCAAAGAAGCCACTGAAAAAGCACAAGCTAAAGCGACTTCGGAGGGGGACGAGGTTGGTGAAATGACATGTTCAGAACTTCTGGAAGCCCTTGAGCTCAGCCGTTGTCTTCTCTTAATGAGTTATGTTCATGGATGTCCAATGCTGGAGAGCATGAGTAGTTTTGAAACTGAAGAAAAAGCAGAGAGAGCTGCTGCAGCTCTAGGGAGAATCTTGGTGTTAGATCTAGTAATTAGGAATGAAGACAGATTACCGTGTCGTCAGCTGAGATGGCGTGGCAACCCGGCAAATCTGTTACTGACAGACAGAATTGTGTCTTCTGCAAAGCATCATGAATGTTCATTTGATGAAGCTTTTGATTCCGCCATCAAACGGTACCATCCAAAGGACTATAGATCCATTCAAAGGGAAAGAAGAGCTTCTTCCGTAGATAGCAGATCCAGGTTGAGTATCAGTGATCAAATGTTGGTCTCACAGGCTTCTGATTTTTCTGATATAACGGAATCACCTAGATCATATGATACTGGTTTAATGAGTCCAATGTCTGATAGATCAGTAGCTGCCGATTTTCACCTCGTTGCCATAGACTCGGGTGTTCCACGGCGGCCTCCTGCTGGAAAACGGGCAAGCGACCAAGAAATTTATCCAAGATTAGTTGAGTTACTCCTCAATAGTAGCCAATATTCTTCGAATTTGTTACATGAAATAACAGAAGGAAGTTTAGGATATCCACAGGCAGAAGATGGTGAAGAAACATCTAATGTTCGATCTGTAGTAACACCAGTTGTACGCGAGTTTCGAAATGGTTTCCGAGCTGGTCTCAGGGATTTGCAAGAGTTTCACATCTTCCTTGTCACCCTTCATCAGAAATTAGATGTGTTGCTTCGGGCATTTTTTAGTATGATGGACAAAACAATGTGTGCAGATTTTGACAGAGAAGACTTTGCTGTTCCTGAGTCACCTTCACATACTCATGGGCATGAGGTGAATCATTATCCATCTCCCTCAAAAGATCGGGTGCCTAGTGATAACAGCTCTGATCACAGTGAGTCAGATATGCAAAAATCAGTTCCTAGGACACCAAATTCAGAAAACAAAGAAGACGGGTCTTCGCCTAAGTCACGTGAAAGTTGGCACGGAAGATCCGGTAAAGGTGGAGAATCTCTTAGCAGTCAGCGTTTGGCAGCAAAGCTCCGTGACTTCCATAAGTTTGCAAAGGTTGATGCTGAGTCTAATAAAGAACTAGACCAGTGGAATGAAACACTGCGGAATGAAGTGATGAAACTTTGCCAAGAGAACGGTTTCAACACTGGTTTTTTTGAGGGCAGTGATAATAACAGTTGCACAGATGCTTATGAGCTAAAGGTTAGACTTGAGCATATTCTTGAGAGGATATCATTGATTAGCAAAGCTGCTAATACAGAGAAACCATCAATGATACAAGAAAATCTTTTTATCGGGGGAGGATTGGCTGCAAGGTCGATTTACACTCTTCAGCATTTAGGTATAACTCATGTTCTATGTTTGTGCGCTAATGAAATCGGGCAATCGGATACTCAATACCCGGATCTCTTCGAGTACCAAAACTTCTCAATAACCGATGATGAAGACTCAAATATCGAGAGCATCTTTCAAGAAGCTCTCGATTTCATCAAGCATGGCGAAGAAACTGGTGGCAAGATTTTAGTTCATTGCTTCGAAGGTCGGAGTAGAAGCGCAACAGTAGTGCTTGCTTACCTAATGCTCCAAAAGAAGCTCACACTTTTAGAAGCATGGAGCAAACTGAGGAAAGTTCATAGACGAGCTCAACCGAATGATGGATTTGCGCGGATCTTAATAAACCTCGACAAGAAATGTCACGGGAAAGTATCAATGGAGTGGAGACAGAGGAAACCGACAATGAAAGTGTGTCCGGTTTGTGGAAAGAACGCAGGTCTAAGCAGCAGTTCTTTGAAGCTTCATCTCCAGAAATCTCACAGGAAACTGTCTTCGGGAAGTGTTGACAGTGCAATGAACATGGAGATTCAAAAGGCTTTGGAGGCTCTTAAACTCAGCACTGGCCGTGGCTCAAGTGCTAGTTCCAATTCTTTCCAATCTCATCCTGGTTAGAGAGTCCGGTTTGGTTTTATCTATGGTTTGTCCCGGTTAAAGTCTCTCTAATCGTACATCTCTGAACAAAAACATTGATCTGTTTTGTTTTGTTTTTTACTGTAACGATCTTTGTACTTGTATACGCAAGTAAATAAAAAGCCGAAAAGCTGAATAGAAGTCACTGGGAAACGTCATAATAAGCTAATGTAACATTTGTAACTCTTTTTCCCTTGTGCTTTGTGTTAAGAAAGTAAGATTTGGCCCAAAAATGT - >AT5G23720.3
CGACAAGTTCATATTAATTAAAGATACCTTGAGACTTTCCTCTTCTCAGATACAAAGCTGACATTTGAAGAAAAAGACATTTCTAAAATTAAACAGAACCTAAGCTTTTGCAATGGCGGAACCTGAGAAGAAGCGAGATCAACCATTTTCTCAAGAAAAAGACGAAGAGAAAGATCTATACCTTGTTCACGACGAGCACGAGTCTCCTCTTCCTCTCACCGTCACTTCTCGTGTTTTGTACATGTTAGGAGATATAGCATCTGGTCCAGCTTATAGGTTTACTCAATGGTTGGATTTAGTTCGTAAACGAAGTGCTACTTACGGATCCTCTGGCTTCCCTCACCGCCTTCACCGCATCGATGATATGGTCACTAGTGCAGGAGAGAGGAATACTGATCCTAAAAGTCCACCAAGTAGGCAGAGTTCAGAGATTAGTTTGTGGGAAAGGCTTGGTAAAGCTTCTACTGTGGATATTGATTCGAGCTGTTTTTCATGGAATATGTTGTCTTCACTTCATCATACTGAACATAGTAGTAGCACTGATCATTCTGAAGAAGACCAGAGTAAACCACTTGAGGTTACTGTGAATTCTGGAGGAGTTGTTTTCTTTGCCCTGTTCAATAGTTCCAGCTCTGAAGATGCCTCTCGTAAGGAAGAAGCAGCAGTTATTAAATTTGCATCATCGAGGATGGCCACGCAATCAGAACGTCTAGGTTATGAGTTTTCCAAGTGGCTAGGGGTGCAGATTCCGCAGGCTAGAGTAATTCACAGCTGTAATCCTGAGTGGACACTGATCAAAGAAGCCACTGAAAAAGCACAAGCTAAAGCGACTTCGGAGGGGGACGAGGTTGGTGAAATGACATGTTCAGAACTTCTGGAAGCCCTTGAGCTCAGCCGTTGTCTTCTCTTAATGAGTTATGTTCATGGATGTCCAATGCTGGAGAGCATGAGTAGTTTTGAAACTGAAGAAAAAGCAGAGAGAGCTGCTGCAGCTCTAGGGAGAATCTTGGTGTTAGATCTAGTAATTAGGAATGAAGACAGATTACCGTGTCGTCAGCTGAGATGGCGTGGCAACCCGGCAAATCTGTTACTGACAGACAGAATTGTGTCTTCTGCAAAGCATCATGAATGTTCATTTGATGAAGCTTTTGATTCCGCCATCAAACGGTACCATCCAAAGGACTATAGATCCATTCAAAGGGAAAGAAGAGCTTCTTCCGTAGATAGCAGATCCAGGTTGAGTATCAGTGATCAAATGTTGGTCTCACAGGCTTCTGATTTTTCTGATATAACGGAATCACCTAGATCATATGATACTGGTTTAATGAGTCCAATGTCTGATAGATCAGTAGCTGCCGATTTTCACCTCGTTGCCATAGACTCGGGTGTTCCACGGCGGCCTCCTGCTGGAAAACGGGCAAGCGACCAAGAAATTTATCCAAGATTAGTTGAGTTACTCCTCAATAGTAGCCAATATTCTTCGAATTTGTTACATGAAATAACAGAAGGAAGTTTAGGATATCCACAGGCAGAAGATGGTGAAGAAACATCTAATGTTCGATCTGTAGTAACACCAGTTGTACGCGAGTTTCGAAATGGTTTCCGAGCTGGTCTCAGGGATTTGCAAGAGTTTCACATCTTCCTTGTCACCCTTCATCAGAAATTAGATGTGTTGCTTCGGGCATTTTTTAGTATGATGGACAAAACAATGTGTGCAGATTTTGACAGAGAAGACTTTGCTGTTCCTGAGTCACCTTCACATACTCATGGGCATGAGGTGAATCATTATCCATCTCCCTCAAAAGATCGGGTGCCTAGTGATAACAGCTCTGATCACAGTGAGTCAGATATGCAAAAATCAGTTCCTAGGACACCAAATTCAGAAAACAAAGAAGACGGGTCTTCGCCTAAGTCACGTGAAAGTTGGCACGGAAGATCCGGTAAAGGTGGAGAATCTCTTAGCAGTCAGCGTTTGGCAGCAAAGCTCCGTGACTTCCATAAGTTTGCAAAGGTTGATGCTGAGTCTAATAAAGAACTAGACCAGTGGAATGAAACACTGCGGAATGAAGTGATGAAACTTTGCCAAGAGAACGGTTTCAACACTGGTTTTTTTGAGGGCAGTGATAATAACAGTTGCACAGATGCTTATGAGCTAAAGGTTAGACTTGAGCATATTCTTGAGAGGATATCATTGATTAGCAAAGCTGCTAATACAGAGAAACCATCAATGATACAAGAAAATCTTTTTATCGGGGGAGGATTGGCTGCAAGGTCGATTTACACTCTTCAGCATTTAGGTATAACTCATGTTCTATGTTTGTGCGCTAATGAAATCGGGCAATCGGATACTCAATACCCGGATCTCTTCGAGTACCAAAACTTCTCAATAACCGATGATGAAGACTCAAATATCGAGAGCATCTTTCAAGAAGCTCTCGATTTCATCAAGCATGGCGAAGAAACTGGTGGCAAGATTTTAGTTCATTGCTTCGAAGGTCGGAGTAGAAGCGCAACAGTAGTGCTTGCTTACCTAATGCTCCAAAAGAAGCTCACACTTTTAGAAGCATGGAGCAAACTGAGGAAAGTTCATAGACGAGCTCAACCGAATGATGGATTTGCGCGGATCTTAATAAACCTCGACAAGAAATGTCACGGGAAAGTATCAATGGAGTGGAGACAGAGGAAACCGACAATGAAAGTGTGTCCGGTTTGTGGAAAGAACGCAGGTCTAAGCAGCAGTTCTTTGAAGCTTCATCTCCAGAAATCTCACAGGAAACTGTCTTCGGGAAGTGTTGACAGTGCAATGAACATGGAGATTCAAAAGGCTTTGGAGGCTCTTAAACTCAGCACTGGCCGTGGCTCAAGTGCTAGTTCCAATTCTTTCCAATCTCATCCTGGTTAGAGAGTCCGGTTTGGTTTTATCTATGGTTTGTCCCGGTTAAAGTCTCTCTAATCGTACATCTCTGAACAAAAACATTGATCTGTTTTGTTTTGTTTTTTACTGTAACGATCTTTGTACTTGTATACGCAAGTAAATAAAAAGCCGAAAAGCTGAATAGAAGTCACTGGGAAACGTCATAATAAGCTAATGTAACATTTGTAACTCTTTTTCCCTTGTGCTTTGTGTTAAGAAAGTAAGATTTGGCCCAAAAATGT
CDS Sequence
Protein Sequence