Gene Details:
- Gene ID: AT4G19180
- Gene Symbol: APY7, AtAPY7
- Gene Name: apyrase 7
- Description: GDA1/CD39 nucleoside phosphatase family protein;(source:Araport11)
- TAIR Accession: locus:2134731
- Genome: Araport11_genome_release
- Species: Arabidopsis thaliana
Transcripts:
Gene Ontology:
- GO:0010584 — acts upstream of or within — pollen exine formation
- GO:0009901 — acts upstream of or within — anther dehiscence
- GO:0017110 — enables — nucleoside diphosphate phosphatase activity
- GO:0009134 — involved in — nucleoside diphosphate catabolic process
- GO:0005634 — located in — nucleus
- GO:0016020 — is active in — membrane
Literature:
- An auxin-inducible gene from loblolly pine (Pinus taeda L.) is differentially expressed in mature and juvenile-phase shoots and encodes a putative transmembrane protein. DOI: 10.1007/s00425-003-1175-4 ; PMID: 14722770
- Whole genome shotgun sequencing of Brassica oleracea and its application to gene discovery and annotation in Arabidopsis. DOI: 10.1101/gr.3176505 ; PMID: 15805490
- Co-regulation of exine wall patterning, pollen fertility and anther dehiscence by Arabidopsis apyrases 6 and 7. DOI: 10.1016/j.plaphy.2013.04.022 ; PMID: 23728389
- Loss of THIN EXINE2 disrupts multiple processes in the mechanism of pollen exine formation. DOI: 10.1093/plphys/kiab244 ; PMID: 34618131
Sequences:
cDNA Sequence
- >AT4G19180.2
TTCAAACATTCTAAATTTCCCCTGGAAATTGAAAATTGAGCAAGACGTTTTCTGTTGAAGAGAGAAAATAAAAATCAGAGAACAAAAAGGGAAAGAGTCTTTTCTGCACAAAACGGATCTCTCTCCAACGTCTTCGTCTTCCTCTGGTCTGAGTCGTGTGGTTTTAGCCCCGATACTCATCAGATCTGCTTAAGATTCTCGATTTTTCTTATACGAAGACGACGATTGGTTGATTAACTCATATATGTATATGTGCTTTTATACTCCTTAGACGCAGAGCGAGATACGAGATCTAAGAGCTGAGGAAGCTTTGACGGTGGCTGAAGTTTCGTCTTCGTTCTATGCCAATGCGTGTTTCTGTTAACATTTTCTGCAGAAGAATGAAGAATCTGAAGAGTTCGTTGTGCTTCTGCATTTGAGTAAAGACAACGGAGAAGGTTGTGTTGAGTTTGTTAGTATATGTAGGCAAGAGAAATGGTTTTTGGTAGGATCACTGAACTTTTTACAGCTGCGTCAAGTCGATTACCAGCGGGTTCACAATCATCTGTTCCATATATGCCTACTGGATCATCACCGGATGTAGGAACCTCAGTTTCGGATTCAATAAGTATTGGGAATGGTGGACGGAAGAATTGTTTGAGACACTCAGCGTCTCTCCAAGATTTTTCTTCGTACCATGGGTTTGATCCTGAAGAATCCATTCTTCCTCGGGAAGCTATATCATGGGGACAAAATGGATCAAGTTTTTCCAAGGAAAAGGGGAGTGTCCCTAATGGGACCAATCCATCTACACGCCGTAAATTGATACGCGCGGTTATGATTGTTATGTGCCTGTTTCTGTTTGCTTTTCTGGTGTATATAGTCTCCATGTATATTTATACAAACTGGTCACGGGGAGCATCAAGATATTATGTTGTGTTTGACTGTGGAAGTACTGGGACTCGTGCATATGTTTATCAGGCTTCCATAAACTACAAGAAAGATAGTAGTCTCCCCATTGTTATGAAATCTTTGACAGAAGGTATTTCTAGAAAGAGTAGGGGTCGTGCTTATGATCGGATGGAGACAGAGCCTGGGTTTGATAAGCTCGTCAATAACAGAACAGGCCTGAAAACTGCAATTAAACCCCTTATTCAGTGGGCAGAGAAGCAAATCCCAAAGAATGCTCATAGAACCACATCTCTCTTTGTTTACGCAACAGCAGGCGTCCGGAGGCTTCGTCCTGCTGATTCAAGCTGGATTTTAGGTAATGTGTGGTCTATACTAGCGAAGTCTCCCTTCACTTGCCGGAGGGAGTGGGTTAAGATCATCAGTGGTACTGAGGAAGCTTATTTTGGATGGACCGCCCTTAATTACCAAACAAGTATGTTGGGAGCCCTACCAAAGAAGGCAACATTTGGTGCACTTGACTTAGGTGGCTCATCATTGCAGGTAACCTTTGAGAATGAGGAGCGGACGCATAATGAGACCAACCTAAATCTCAGAATTGGGTCTGTTAACCATCATCTTAGTGCATATTCTCTTGCCGGATATGGTCTTAATGATGCGTTTGATAGGTCTGTTGTTCATCTTTTAAAGAAGCTACCAAATGTCAACAAATCTGATTTGATTGAAGGAAAATTGGAAATGAAACACCCGTGCTTAAATTCTGGATACAATGGACAGTACATATGTTCTCAGTGTGCTTCCAGTGTCCAAGGAGGTAAAAAAGGAAAGTCAGGAGTTTCTATCAAGCTCGTTGGTGCTCCAAACTGGGGAGAGTGCAGCGCACTTGCAAAAAATGCTGTAAATAGCTCTGAATGGTCAAACGCAAAACATGGAGTTGATTGTGATTTGCAGCCTTGTGCTCTTCCTGATGGTTACCCTCGTCCTCATGGTCAGTTCTATGCTGTATCCGGATTCTTCGTGGTGTACCGTTTTTTCAACTTAAGTGCTGAAGCATCCCTTGATGATGTATTGGAAAAGGGTAGGGAATTTTGTGACAAGGCTTGGCAAGTAGCCAGAACCAGTGTTTCTCCACAACCCTTCATTGAACAGTACTGCTTTAGAGCGCCATACATAGTCTCCCTGTTACGAGAAGGTTTATATATTACAGATAAGCAAATCATAATTGGGTCTGGGAGTATAACTTGGACACTTGGAGTAGCTCTTCTGGAATCGGGGAAGGCTCTATCTTCTACATTGGGACTGAAGAGCTATGAGACTCTGAGCATGAAGATAAACCCAATTGCCCTTATATCTATCTTGATCTTGTCACTGCTTCTGCTTCTCTGTGCACTATCACGTGTCAGCAATTGTTTGCCAAGATTCTTTAGAAAGTCATATCTCCCACTTTTTAGACACAATAGCACCTCAGCTTCGTCTGTTCTTAACATCCCGTCTCCCTTCAGATTCCAGCGATGGAGTCCTATGAGTACAGGGGTAAAGACACCATTGAGTCCAACAGTTCGGGGATCACCGCGTAGGCCATTTAGTTTTGGAAGCAGCATCCAGCTCATGGAATCTTCATTGTACTCATCGAGTAGCTGCGTTATGCATAGTTGTTCTTCTGATAGCTTAGGGGATATACAATATGACAGTACTGGTTCCTTCTGGTCCTCCCCTCGCAGGAGTCAAATGCGTCTCCAAAGCCGAAGATCGCAATCTCGAGAAGATCTTAGTTCATCGCTCGCTGATTCACACATGCTCAAAATGTAGGAGAAATTTTTGGTACGGCTTTTGTCACTTCCACACCAGCCTAATTTTTTCTATTTTCCGGTTATGAGAATCACAATATAGAAAGGAAAAAAATGGGAAAACTTCATGAGCAAAAATTTCCTTGTTTCAGTTGACATGTAATTCTTTCTATATACCATATACTTATATATGATTACTAATTTAACCTCAGTTC - >AT4G19180.1
TTCAAACATTCTAAATTTCCCCTGGAAATTGAAAATTGAGCAAGACGTTTTCTGTTGAAGAGAGAAAATAAAAATCAGAGAACAAAAAGGGAAAGAGTCTTTTCTGCACAAAACGGATCTCTCTCCAACGTCTTCGTCTTCCTCTGGTCTGAGTCGTGTGGTTTTAGCCCCGATACTCATCAGATCTGCTTAAGATTCTCGATTTTTCTTATACGAAGACGACGATTGGTTGATTAACTCATATATGTATATGTGCTTTTATACTCCTTAGACGCAGAGCGAGATACGAGATCTAAGAGCTGAGGAAGCTTTGACGGTGGCTGAAGTTTCGTCTTCGTTCTATGCCAATGCGTGTTTCTGTTAACATTTTCTGCAGAAGAATGAAGAATCTGAAGAGTTCGTTGTGCTTCTGCATTTGAGTAAAGACAACGGAGAAGGTTGTGTTGAGTTTGTTAGTATATGTAGGCAAGAGAAATGGTTTTTGGTAGGATCACTGAACTTTTTACAGCTGCGTCAAGTCGATTACCAGCGGGTTCACAATCATCTGTTCCATATATGCCTACTGGATCATCACCGGATGTAGGAACCTCAGTTTCGGATTCAATAAGTATTGGGAATGGTGGACGGAAGAATTGTTTGAGACACTCAGCGTCTCTCCAAGATTTTTCTTCGTACCATGGGTTTGATCCTGAAGAATCCATTCTTCCTCGGGAAGCTATATCATGGGGACAAAATGGATCAAGTTTTTCCAAGGAAAAGGGGAGTGTCCCTAATGGGACCAATCCATCTACACGCCGTAAATTGATACGCGCGGTTATGATTGTTATGTGCCTGTTTCTGTTTGCTTTTCTGGTGTATATAGTCTCCATGTATATTTATACAAACTGGTCACGGGGAGCATCAAGATATTATGTTGTGTTTGACTGTGGAAGTACTGGGACTCGTGCATATGTTTATCAGGCTTCCATAAACTACAAGAAAGATAGTAGTCTCCCCATTGTTATGAAATCTTTGACAGAAGGTATTTCTAGAAAGAGTAGGGGTCGTGCTTATGATCGGATGGAGACAGAGCCTGGGTTTGATAAGCTCGTCAATAACAGAACAGGCCTGAAAACTGCAATTAAACCCCTTATTCAGTGGGCAGAGAAGCAAATCCCAAAGAATGCTCATAGAACCACATCTCTCTTTGTTTACGCAACAGCAGGCGTCCGGAGGCTTCGTCCTGCTGATTCAAGCTGGATTTTAGGTAATGTGTGGTCTATACTAGCGAAGTCTCCCTTCACTTGCCGGAGGGAGTGGGTTAAGATCATCAGTGGTACTGAGGAAGCTTATTTTGGATGGACCGCCCTTAATTACCAAACAAGTATGTTGGGAGCCCTACCAAAGAAGGCAACATTTGGTGCACTTGACTTAGGTGGCTCATCATTGCAGGTAACCTTTGAGAATGAGGAGCGGACGCATAATGAGACCAACCTAAATCTCAGAATTGGGTCTGTTAACCATCATCTTAGTGCATATTCTCTTGCCGGATATGGTCTTAATGATGCGTTTGATAGGTCTGTTGTTCATCTTTTAAAGAAGCTACCAAATGTCAACAAATCTGATTTGATTGAAGGAAAATTGGAAATGAAACACCCGTGCTTAAATTCTGGATACAATGGACAGTACATATGTTCTCAGTGTGCTTCCAGTGTCCAAGGAGGTAAAAAAGGAAAGTCAGGAGTTTCTATCAAGCTCGTTGGTGCTCCAAACTGGGGAGAGTGCAGCGCACTTGCAAAAAATGCTGTAAATAGCTCTGAATGGTCAAACGCAAAACATGGAGTTGATTGTGATTTGCAGCCTTGTGCTCTTCCTGATGGTTACCCTCGTCCTCATGGTCAGTTCTATGCTGTATCCGGATTCTTCGTGGTGTACCGTTTTTTCAACTTAAGTGCTGAAGCATCCCTTGATGATGTATTGGAAAAGGGTAGGGAATTTTGTGACAAGGCTTGGCAAGTAGCCAGAACCAGTGTTTCTCCACAACCCTTCATTGAACAGTACTGCTTTAGAGCGCCATACATAGTCTCCCTGTTACGAGAAGGTTTATATATTACAGATAAGCAAATCATAATTGGGTCTGGGAGTATAACTTGGACACTTGGAGTAGCTCTTCTGGAATCGGGGAAGGCTCTATCTTCTACATTGGGACTGAAGAGCTATGAGACTCTGAGCATGAAGATAAACCCAATTGCCCTTATATCTATCTTGATCTTGTCACTGCTTCTGCTTCTCTGTGCACTATCACGTGTCAGCAATTGTTTGCCAAGATTCTTTAGAAAGTCATATCTCCCACTTTTTAGACACAATAGCACCTCAGCTTCGTCTGTTCTTAACATCCCGTCTCCCTTCAGATTCCAGCGATGGAGTCCTATGAGTACAGGGGTAAAGACACCATTGAGTCCAACAGTTCGGGGATCACCGCGTAGGCCATTTAGTTTTGGAAGCAGCATCCAGCTCATGGAATCTTCATTGTACTCATCGAGTAGCTGCGTTATGCATAGTTGTTCTTCTGATAGCTTAGGGGATATACAATATGACAGTACTGGTTCCTTCTGGTCCTCCCCTCGCAGGAGTCAAATGCGTCTCCAAAGCCGAAGATCGCAATCTCGAGAAGATCTTAGTTCATCGCTCGCTGATTCACACATGCTCAAAATGTAGGAGAAATTTTTGGTACGGCTTTTGTCACTTCCACACCAGCCTAATTTTTTCTATTTTCCGGTTATGAGAATCACAATATAGAAAGGAAAAAAATGGGAAAACTTCATGAGCAAAAATTTCCTTGTTTCAGTTGACATGTAATTCTTTCTATATACCATATACTTATATATGATTACTAATTTAACCTCAGTTC - >AT4G19180.3
TTCAAACATTCTAAATTTCCCCTGGAAATTGAAAATTGAGCAAGACGTTTTCTGTTGAAGAGAGAAAATAAAAATCAGAGAACAAAAAGGGAAAGAGTCTTTTCTGCACAAAACGGATCTCTCTCCAACGTCTTCGTCTTCCTCTGGTCTGAGTCGTGTGGTTTTAGCCCCGATACTCATCAGATCTGCTTAAGATTCTCGATTTTTCTTATACGAAGACGACGATTGGTTGATTAACTCATATATGTATATGTGCTTTTATACTCCTTAGACGCAGAGCGAGATACGAGATCTAAGAGCTGAGGAAGCTTTGACGGTGGCTGAAGTTTCGTCTTCGTTCTATGCCAATGCGTGTTTCTGTTAACATTTTCTGCAGAAGAATGAAGAATCTGAAGAGTTCGTTGTGCTTCTGCATTTGAGTAAAGACAACGGAGAAGGTTGTGTTGAGTTTGTTAGTATATGTAGGCAAGAGAAATGGTTTTTGGTAGGATCACTGAACTTTTTACAGCTGCGTCAAGTCGATTACCAGCGGGTTCACAATCATCTGTTCCATATATGCCTACTGGATCATCACCGGATGTAGGAACCTCAGTTTCGGATTCAATAAGTATTGGGAATGGTGGACGGAAGAATTGTTTGAGACACTCAGCGTCTCTCCAAGATTTTTCTTCGTACCATGGGTTTGATCCTGAAGAATCCATTCTTCCTCGGGAAGCTATATCATGGGGACAAAATGGATCAAGTTTTTCCAAGGAAAAGGGGAGTGTCCCTAATGGGACCAATCCATCTACACGCCGTAAATTGATACGCGCGGTTATGATTGTTATGTGCCTGTTTCTGTTTGCTTTTCTGGTGTATATAGTCTCCATGTATATTTATACAAACTGGTCACGGGGAGCATCAAGATATTATGTTGTGTTTGACTGTGGAAGTACTGGGACTCGTGCATATGTTTATCAGGCTTCCATAAACTACAAGAAAGATAGTAGTCTCCCCATTGTTATGAAATCTTTGACAGAAGGTATTTCTAGAAAGAGTAGGGGTCGTGCTTATGATCGGATGGAGACAGAGCCTGGGTTTGATAAGCTCGTCAATAACAGAACAGGCCTGAAAACTGCAATTAAACCCCTTATTCAGTGGGCAGAGAAGCAAATCCCAAAGAATGCTCATAGAACCACATCTCTCTTTGTTTACGCAACAGCAGGCGTCCGGAGGCTTCGTCCTGCTGATTCAAGCTGGATTTTAGGTAATGTGTGGTCTATACTAGCGAAGTCTCCCTTCACTTGCCGGAGGGAGTGGGTTAAGATCATCAGTGGTACTGAGGAAGCTTATTTTGGATGGACCGCCCTTAATTACCAAACAAGTATGTTGGGAGCCCTACCAAAGAAGGCAACATTTGGTGCACTTGACTTAGGTGGCTCATCATTGCAGGTAACCTTTGAGAATGAGGAGCGGACGCATAATGAGACCAACCTAAATCTCAGAATTGGGTCTGTTAACCATCATCTTAGTGCATATTCTCTTGCCGGATATGGTCTTAATGATGCGTTTGATAGGTCTGTTGTTCATCTTTTAAAGAAGCTACCAAATGTCAACAAATCTGATTTGATTGAAGGAAAATTGGAAATGAAACACCCGTGCTTAAATTCTGGATACAATGGACAGTACATATGTTCTCAGTGTGCTTCCAGTGTCCAAGGAGGTAAAAAAGGAAAGTCAGGAGTTTCTATCAAGCTCGTTGGTGCTCCAAACTGGGGAGAGTGCAGCGCACTTGCAAAAAATGCTGTAAATAGCTCTGAATGGTCAAACGCAAAACATGGAGTTGATTGTGATTTGCAGCCTTGTGCTCTTCCTGATGGTTACCCTCGTCCTCATGGTCAGTTCTATGCTGTATCCGGATTCTTCGTGGTGTACCGTTTTTTCAACTTAAGTGCTGAAGCATCCCTTGATGATGTATTGGAAAAGGGTAGGGAATTTTGTGACAAGGCTTGGCAAGTAGCCAGAACCAGTGTTTCTCCACAACCCTTCATTGAACAGTACTGCTTTAGAGCGCCATACATAGTCTCCCTGTTACGAGAAGGTTTATATATTACAGATAAGCAAATCATAATTGGGTCTGGGAGTATAACTTGGACACTTGGAGTAGCTCTTCTGGAATCGGGGAAGGCTCTATCTTCTACATTGGGACTGAAGAGCTATGAGACTCTGAGCATGAAGATAAACCCAATTGCCCTTATATCTATCTTGATCTTGTCACTGCTTCTGCTTCTCTGTGCACTATCACGTGTCAGCAATTGTTTGCCAAGATTCTTTAGAAAGTCATATCTCCCACTTTTTAGACACAATAGCACCTCAGCTTCGTCTGTTCTTAACATCCCGTCTCCCTTCAGATTCCAGCGATGGAGTCCTATGAGTACAGGGGTAAAGACACCATTGAGTCCAACAGTTCGGGGATCACCGCGTAGGCCATTTAGTTTTGGAAGCAGCATCCAGCTCATGGAATCTTCATTGTACTCATCGAGTAGCTGCGTTATGCATAGTTGTTCTTCTGATAGCTTAGGGGATATACAATATGACAGTACTGGTTCCTTCTGGTCCTCCCCTCGCAGGAGTCAAATGCGTCTCCAAAGCCGAAGATCGCAATCTCGAGAAGATCTTAGTTCATCGCTCGCTGATTCACACATGCTCAAAATGTAGGAGAAATTTTTGGTACGGCTTTTGTCACTTCCACACCAGCCTAATTTTTTCTATTTTCCGGTTATGAGAATCACAATATAGAAAGGAAAAAAATGGGAAAACTTCATGAGCAAAAATTTCCTTGTTTCAGTTGACATGTAATTCTTTCTATATACCATATACTTATATATGATTACTAATTTAACCTCAGTTC
CDS Sequence
Protein Sequence