Gene Details:
- Gene ID: AT4G18010
- Gene Symbol: 5PTASE2, AT5PTASE2, IP5PII
- Gene Name: myo-inositol polyphosphate 5-phosphatase 2, myo-inositol polyphosphate 5-phosphatase 2, INOSITOL(1,4,5)P3 5-PHOSPHATASE II
- Description: myo-inositol polyphosphate 5-phosphatase 2;(source:Araport11)
- TAIR Accession: locus:2141095
- 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)
Gene Ontology:
- GO:0046856 — involved in — phosphatidylinositol dephosphorylation
- GO:0052659 — enables — inositol-1,3,4,5-tetrakisphosphate 5-phosphatase activity
- GO:0032957 — involved in — inositol trisphosphate metabolic process
- GO:0034485 — enables — phosphatidylinositol-3,4,5-trisphosphate 5-phosphatase activity
- GO:0009737 — acts upstream of or within — response to abscisic acid
- GO:0009845 — acts upstream of or within — seed germination
- GO:0004445 — enables — inositol-polyphosphate 5-phosphatase activity
- GO:0005737 — located in — cytoplasm
- GO:0004439 — enables — phosphatidylinositol-4,5-bisphosphate 5-phosphatase activity
- GO:0005515 — enables — protein binding
- GO:0090351 — involved in — seedling development
- GO:0052658 — enables — inositol-1,4,5-trisphosphate 5-phosphatase activity
Function-related keywords:
Literature:
- Arabidopsis PLC1 is required for secondary responses to abscisic acid signals. DOI: 10.1105/tpc.13.5.1143 ; PMID: 11340187
- DNA chip-based expression profile analysis indicates involvement of the phosphatidylinositol signaling pathway in multiple plant responses to hormone and abiotic treatments. DOI: 10.1038/sj.cr.7290200 ; PMID: 15040888
- Binding of arabinogalactan proteins by Yariv phenylglycoside triggers wound-like responses in Arabidopsis cell cultures. DOI: 10.1104/pp.104.039370 ; PMID: 15235117
- Molecular phenotyping of the pal1 and pal2 mutants of Arabidopsis thaliana reveals far-reaching consequences on phenylpropanoid, amino acid, and carbohydrate metabolism. DOI: 10.1105/tpc.104.023705 ; PMID: 15377757
- A two-step strategy for detecting differential gene expression in cDNA microarray data. DOI: 10.1007/s00294-004-0551-3 ; PMID: 15688252
- and darkness-regulated Arabidopsis genes: a focus on calmodulin-like and XTH genes. DOI: 10.1111/j.1469-8137.2004.01238.x ; PMID: 15720654
- The Arabidopsis cold-responsive transcriptome and its regulation by ICE1. DOI: 10.1105/tpc.105.035568 ; PMID: 16214899
- A subgroup of MYB transcription factor genes undergoes highly conserved alternative splicing in Arabidopsis and rice. DOI: 10.1093/jxb/erj094 ; PMID: 16531467
- Development of Arabidopsis whole-genome microarrays and their application to the discovery of binding sites for the TGA2 transcription factor in salicylic acid-treated plants. DOI: 10.1111/j.1365-313X.2006.02770.x ; PMID: 16824183
- Abscisic acid antagonizes ethylene-induced hyponastic growth in Arabidopsis. DOI: 10.1104/pp.106.092700 ; PMID: 17158582
- Inositol polyphosphate 5-phosphatases 1 and 2 are required for regulating seedling growth. DOI: 10.1104/pp.106.089474 ; PMID: 17237190
- Integration of Arabidopsis thaliana stress-related transcript profiles, promoter structures, and cell-specific expression. DOI: 10.1186/gb-2007-8-4-r49 ; PMID: 17408486
- 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
- Inositol polyphosphate 5-phosphatase7 regulates the production of reactive oxygen species and salt tolerance in Arabidopsis. DOI: 10.1104/pp.111.176883 ; PMID: 21677096
- Transcriptional dynamics of two seed compartments with opposing roles in Arabidopsis seed germination. DOI: 10.1104/pp.113.223511 ; PMID: 23858430
- Inositol polyphosphate 5-phosphatases 1 and 2 are required for regulating seedling growth. DOI: 10.1104/pp.106.089474 ; PMID: 17237190
Sequences:
cDNA Sequence
- >AT4G18010.2
CGCAAGTTGCAGTTTGGTTCTTTACGGGCAACGAAGGCTGTTAAATAACAGCCATAGCTTTTCTTCGAAACGAACCCAAAAAATAATATCAGAGAATTTTCATCATTACACCTTTTTTTTTCTTTTGCCTTTGCCTTTGCCTTCACACGTCTTCTTGTTTGTACTCTCCACTTTTTTTTTCTTTGTGTCCTTTCTTCTTGTTCTTGCTCTAGTTCGTGTCTCTTCTTTAACTCTCTGTCACTATTATAAATATCAAACTCTGACATTTTCTTCTGTTCAAATTCTCCTCGAAACTCCCCCAAAGAAACAAAATCTTTTTCTGAGATCTAAGAAGATGAAAACAAGACGTGGGAAACGTCCTGAGAGGTTTTGGCCATCAATTGTGATGAATAAATGGTTAAACAGAAAACCTAAAGTTTACGATTTTAGCGAAGACGAAATTGATACAGAACCTGAGAGCGAAGACGATGTATGTTCGGTCAAAGACGTCCCAAATGTTCACTGTGTAACTGATGAAGACAGCCATAATGGTCGTCGAGGTAGCGAAGCTGATCACGGCAATAATATTTCAGATGGTGGTGTGAGTGTGAGGGGTGGTTACCAAAGGAAACACCGGCGAGGCAAATCGGAGACTTTGAGAGCTCAATACATTAACACAAAGGATATCAAAGTGACGGTGGCTACATGGAACGTCGCCGGAAAACGTCCCTCCGATGATCTCGAGATTGAAGATTGGCTCTCTACTGATAATCCTTCAGATATTTACATTATCGGGTTTCAAGAAGTGGTTCCATTAAACGCTGGAAACGTTTTCGGAGCAGAAGATAGAGGTCCGATTCCGAAATGGGAATCGATAATTCGTAGAACACTAAACAAATCCAATAAAGAATCAGTTTATGATCAATCGCCAAGCTGCAACAACAACGCTCTTCATAGATCTCACAGCGCGCCGTCGTCTCCTATCTTGGCACAAGAAGCAAACTCCATTATCTCTCATGTCATGGTAGAGAATCTAGTTGCGGACCACTCGCTGGATTTAGCTACAAACGAGTTCATCGATGCTGCAACCGCTTTACCGAGCCTTGAACCACAGCGGAATCCGAACATGGACTGGCCGGAACTAGCTTTAGATAGCAACCCTCAGATAGTTGGATCAGAGGGGAAGCTAAGGAGGGTATTTAGCAGCAACGCGACGCTAGGATTTAAGCTACCGGAGAATCCATCAGGAGCTAGTAGATTTGCTTCGGAAGCAAGACAATTGAAACGCTCACGGAGCTTTGAAACTTTAAACTTGAGTTGGAATGATATAAAAGAAGAGATTGATAATAGGTCCTCCTCCTCGTCCGAAGCGGAAGAAGCTGCAAAAATCATGCATGATGATTCATCAGACGGAGATTCGTCTTCCCAGGACGAAGAGGATGGTGACAAGATCAGAAATAGTTATGGATTGCCGGAAGATTTGGTGGAGGAGTGTCGGAAAGTGAAAGATAGTCAAAAGTATGTAAGGATAGTAAGTAAGCAAATGGTTGGGATCTATGTATCGGTTTGGATCCGACGACGGTTAAGAAGACATGTCAACAACCTGAAAGTCTCACCGGTCGGAGTTGGCTTGATGGGCTACATGGGAAACAAGGGATCAGTGTCGATTAGCATGACGTTGTATCAATCACGGATGTGTTTTGTGTGCTCACACTTAACTTCCGGCCACAAAGACGGTGCTGAGCAACGCCGGAATGCTGACGTGTACGAAATCATACGTAGGACTCGTTTTGCATCGGTTCTTGACACTGATCAACCAAGGACGATTCCATGTCACGATCAAGTATTTTGGTTCGGAGATTTGAACTACCGACTTAATATGTCAGACGGTGAAGTAAGAAAGCTTGTCTCACAAAAACGATGGGATGAGCTCAAGAACAGTGATCAGTTGATTAGAGAATTAAGAAGAGGGCATGTTTTTGATGGATGGAGAGAAGGACCGATTAAATTCCCTCCAACCTATAAATACGAATTCGATTCTGATCGTTACGCCGGAGAAAACTTGAGAGAACCGGAGAAGAAGAGAGCTCCTGCTTGGTAAGTGACTAAATTGAACATTTGAAAATTATGTGGTTATTTTTAAATTTACGAAACATTTGGGTGATTCTTAAATTGTTTATCTTGTTGGTGTTATTAATAGGTGTGATAGGATATTATGGTTAGGAAAAGGAATAAGACAAGAATGTTATAAGAGATCGGAGATAAGAATGTCCGATCACCGGCCGGTGACTTCGATTTTTAACGTTGGAGTTGAAGTGTTCGATCACCGGAAACTTCAAAGAGCTCTTCACGTTAATAACGCAGCTGCTTCTGCTGTTCATCCTGAACCTTCTTTTTGAGTCTAATAAGTGTCTTATAAAAAAGAATAATAATTTATACGCTAATTTCTGTAATTTTTTTTATACATGGGATTCGTTTGGGTTTTGATTTTGTTATTGTTTTGTTCCGGTTAATCTATAATCTAACCAAATTTATTTTTTTTACTTGTCAATACGAGCCTTTTAATTTATTTGAATTCACTTTATGATCTACTATTTATCATTAA - >AT4G18010.1
CGCAAGTTGCAGTTTGGTTCTTTACGGGCAACGAAGGCTGTTAAATAACAGCCATAGCTTTTCTTCGAAACGAACCCAAAAAATAATATCAGAGAATTTTCATCATTACACCTTTTTTTTTCTTTTGCCTTTGCCTTTGCCTTCACACGTCTTCTTGTTTGTACTCTCCACTTTTTTTTTCTTTGTGTCCTTTCTTCTTGTTCTTGCTCTAGTTCGTGTCTCTTCTTTAACTCTCTGTCACTATTATAAATATCAAACTCTGACATTTTCTTCTGTTCAAATTCTCCTCGAAACTCCCCCAAAGAAACAAAATCTTTTTCTGAGATCTAAGAAGATGAAAACAAGACGTGGGAAACGTCCTGAGAGGTTTTGGCCATCAATTGTGATGAATAAATGGTTAAACAGAAAACCTAAAGTTTACGATTTTAGCGAAGACGAAATTGATACAGAACCTGAGAGCGAAGACGATGTATGTTCGGTCAAAGACGTCCCAAATGTTCACTGTGTAACTGATGAAGACAGCCATAATGGTCGTCGAGGTAGCGAAGCTGATCACGGCAATAATATTTCAGATGGTGGTGTGAGTGTGAGGGGTGGTTACCAAAGGAAACACCGGCGAGGCAAATCGGAGACTTTGAGAGCTCAATACATTAACACAAAGGATATCAAAGTGACGGTGGCTACATGGAACGTCGCCGGAAAACGTCCCTCCGATGATCTCGAGATTGAAGATTGGCTCTCTACTGATAATCCTTCAGATATTTACATTATCGGGTTTCAAGAAGTGGTTCCATTAAACGCTGGAAACGTTTTCGGAGCAGAAGATAGAGGTCCGATTCCGAAATGGGAATCGATAATTCGTAGAACACTAAACAAATCCAATAAAGAATCAGTTTATGATCAATCGCCAAGCTGCAACAACAACGCTCTTCATAGATCTCACAGCGCGCCGTCGTCTCCTATCTTGGCACAAGAAGCAAACTCCATTATCTCTCATGTCATGGTAGAGAATCTAGTTGCGGACCACTCGCTGGATTTAGCTACAAACGAGTTCATCGATGCTGCAACCGCTTTACCGAGCCTTGAACCACAGCGGAATCCGAACATGGACTGGCCGGAACTAGCTTTAGATAGCAACCCTCAGATAGTTGGATCAGAGGGGAAGCTAAGGAGGGTATTTAGCAGCAACGCGACGCTAGGATTTAAGCTACCGGAGAATCCATCAGGAGCTAGTAGATTTGCTTCGGAAGCAAGACAATTGAAACGCTCACGGAGCTTTGAAACTTTAAACTTGAGTTGGAATGATATAAAAGAAGAGATTGATAATAGGTCCTCCTCCTCGTCCGAAGCGGAAGAAGCTGCAAAAATCATGCATGATGATTCATCAGACGGAGATTCGTCTTCCCAGGACGAAGAGGATGGTGACAAGATCAGAAATAGTTATGGATTGCCGGAAGATTTGGTGGAGGAGTGTCGGAAAGTGAAAGATAGTCAAAAGTATGTAAGGATAGTAAGTAAGCAAATGGTTGGGATCTATGTATCGGTTTGGATCCGACGACGGTTAAGAAGACATGTCAACAACCTGAAAGTCTCACCGGTCGGAGTTGGCTTGATGGGCTACATGGGAAACAAGGGATCAGTGTCGATTAGCATGACGTTGTATCAATCACGGATGTGTTTTGTGTGCTCACACTTAACTTCCGGCCACAAAGACGGTGCTGAGCAACGCCGGAATGCTGACGTGTACGAAATCATACGTAGGACTCGTTTTGCATCGGTTCTTGACACTGATCAACCAAGGACGATTCCATGTCACGATCAAGTATTTTGGTTCGGAGATTTGAACTACCGACTTAATATGTCAGACGGTGAAGTAAGAAAGCTTGTCTCACAAAAACGATGGGATGAGCTCAAGAACAGTGATCAGTTGATTAGAGAATTAAGAAGAGGGCATGTTTTTGATGGATGGAGAGAAGGACCGATTAAATTCCCTCCAACCTATAAATACGAATTCGATTCTGATCGTTACGCCGGAGAAAACTTGAGAGAACCGGAGAAGAAGAGAGCTCCTGCTTGGTAAGTGACTAAATTGAACATTTGAAAATTATGTGGTTATTTTTAAATTTACGAAACATTTGGGTGATTCTTAAATTGTTTATCTTGTTGGTGTTATTAATAGGTGTGATAGGATATTATGGTTAGGAAAAGGAATAAGACAAGAATGTTATAAGAGATCGGAGATAAGAATGTCCGATCACCGGCCGGTGACTTCGATTTTTAACGTTGGAGTTGAAGTGTTCGATCACCGGAAACTTCAAAGAGCTCTTCACGTTAATAACGCAGCTGCTTCTGCTGTTCATCCTGAACCTTCTTTTTGAGTCTAATAAGTGTCTTATAAAAAAGAATAATAATTTATACGCTAATTTCTGTAATTTTTTTTATACATGGGATTCGTTTGGGTTTTGATTTTGTTATTGTTTTGTTCCGGTTAATCTATAATCTAACCAAATTTATTTTTTTTACTTGTCAATACGAGCCTTTTAATTTATTTGAATTCACTTTATGATCTACTATTTATCATTAA
CDS Sequence
Protein Sequence