Gene Details:
- Gene ID: AT5G20380
- Gene Symbol: PHT4;5
- Gene Name: phosphate transporter 4;5
- Description: phosphate transporter 4;(source:Araport11)
- TAIR Accession:
- 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)
Function-related keywords:
Literature:
- Characterization of a protein of the plastid inner envelope having homology to animal inorganic phosphate, chloride and organic-anion transporters. DOI: 10.1007/s00425-003-1121-5 ; PMID: 14564522
- Gene trapping with firefly luciferase in Arabidopsis. Tagging of stress-responsive genes. DOI: 10.1104/pp.103.027151 ; PMID: 14730060
- Predicting transmembrane protein topology with a hidden Markov model: application to complete genomes. DOI: 10.1006/jmbi.2000.4315 ; PMID: 11152613
- DNA array analyses of Arabidopsis thaliana lacking a vacuolar Na+/H+ antiporter: impact of AtNHX1 on gene expression. DOI: 10.1111/j.1365-313X.2004.02253.x ; PMID: 15546358
- Functional analysis of the Arabidopsis PHT4 family of intracellular phosphate transporters. DOI: 10.1111/j.1469-8137.2007.02331.x ; PMID: 18086223
- Differential expression and phylogenetic analysis suggest specialization of plastid-localized members of the PHT4 phosphate transporter family for photosynthetic and heterotrophic tissues. DOI: 10.4161/psb.3.10.6666 ; PMID: 19513231
- Translational Regulation of Metabolic Dynamics during Effector-Triggered Immunity. DOI: 10.1016/j.molp.2019.09.009 ; PMID: 31568832
Sequence:
cDNA Sequence
- >AT5G20380.2 GTAAACAAGAGAATCACGCAAAGGAAGCTTTTGATACAGAAGGAAAAGGGACCCACAATGAAGACAATACTGCCCACAGTGAGAGCCACACAAGCTCTCTTCTTCCTCCACCGTGTCCTCCTCTCTCCCTCTTCTTCTTCTTCAATTCAGGCAATCATTCTTCATTTTCCATTTTGCTTCTTCTTCCTTCTTCTCCTCTCTCTGACACCAACAATGGCGAGACTTACCTTGAGACCCCACAATCACTTCTTCTCATCTCCTATCTACGCACATAAACAACCTTTCCTCTCCGTATACACCATCTTCCCCCACCACCACCAAAATCCTCTTATCAAATCAAGGGTTAAGTGCTCCGCCAGTGGTACTGAACGAGTCAGAGAGAGTAAGAAGCTTCCTCCAAAGGATCCTATCGAAGACCCTAAACCCCAGCTTCCGATTCCTGAAGTTCTCAGTACGGAAACGGGTTTTGAACAGAATTGGCCTCCATGGAAAAATATACCTCAGAGATATAAGCTTATCGGCGCTACTTCTCTCGCCTTTGTTATCTGCAATATGGACAAGGTGAACTTGAGTATTGCTATAATACCAATGTCACACCAGTTTGGATGGAGCTCATCTGTGGCTGGGTTGGTCCAGTCTTCCTTCTTTTGGGGTTATGCCTTGAGCCAGTTGCCTGGAGGTTGGCTTTCCAAGATTTTTGGCGGAAGAAAAGTGCTTGAGATTGGTGTCTTTACATGGTCTTTCGCTACAGCTCTTGTTCCACTACTTGCTGGATTTATGCCCGGTTTGATCTTTTCTCGAATTTTGGTGGGAATAGGAGAAGGTGTTTCCCCATCGGCTGCGACAGACCTTATTGCCAGGACAATACCTGTTAAGGAGCGCTCAAGAGCGGTAGGCTTTGTTTTTGGAGGACTGAGTTTGGGGAGTGTAATGGGGCTTCTCTTGGCTCCTCCCATCATCGAAACCTTTAATTGGGAATCTGTCTTTTACTTGTTTGGTCTCCTTGGTGTTGGCTGGTTCGTCGGGTTTCAGTTTCTTAATGAAGAAGAAGTTTCATATAAAGGTAATGAGATCTCTACTTCGCATAAATCAGAAAACGCTACAAAGGAAGAGTTGGGGAGCTCATTGAAGGAGATTCCATGGAAGTCATTTTTCCAAAGCCCGGCTGTTTGGGCAATGATATACACTCACTTTTGTGGAAGTTGGGGTCACTATACCTGTTTATCTTGGCTACCAACTTATTTCAGTGAGGCTCTGAGTCTAAATTTGACAGAAGCTGCTTGGGTTTCCATCCTTCCTCCACTGGCTTCGATTGTCGTGACAAGTCTTGCTTCACAATTTGCTGATTACTTAATTACAAATGGAGTTGATACTACCACGGTCCGAAAGATTTGTCAAACGATTGCGTTTGTGGCACCAGCGATCTGCATGACACTTTCATCTGTGGACATTGGATTGCCACCATGGGAAATTGTAGGAATTTTGACAGCAGGCTTGGCCCTATCAAGTTTTGCTTTATCAGGACTTTATTGTACTCATCAGGACATTTCACCCGAATATGCAAGCATACTCCTGGGTATTACAAACACAGTCGGGGCAGTACCTGGAATTGTAGGAGTGGCCCTAACTGGTTTTCTCCTAGACTCGACCCATTCCTGGACTATGTCTCTATTCGTGCCATCAATATTCTTCTACTTGACGGGGACGGTTGTATGGTTGGCATTTGCAAGCAGTGAGCCTCAGACGTTCAGAAAGGAAGACTCATAAGTTTTGTTATTGAGGCACAAAAACATGGAGAAACTTTTGTTATTGTATAGGTAAAAAAGAAATGGTAAAAAATTTTCTGTTGTGAAAGCAAAAACAAAGAGCAGTGGTAATTTTGTTCACTGCCTTATCCTGGTTTTTGCATAGATGCAAATTAAACTCAGTGTTAATGGGTAAAAGGTGGAGTATTGAAAGGATTGACTCTGATTTTTCCTTCCAATTCGGTACATTAATTCTGCTTAGGAAAAAGGAAAAAATAACATTTTACAGGTGACATTAAATGACAGATTTGACCCTGGACAC
- >AT5G20380.1 GTAAACAAGAGAATCACGCAAAGGAAGCTTTTGATACAGAAGGAAAAGGGACCCACAATGAAGACAATACTGCCCACAGTGAGAGCCACACAAGCTCTCTTCTTCCTCCACCGTGTCCTCCTCTCTCCCTCTTCTTCTTCTTCAATTCAGGCAATCATTCTTCATTTTCCATTTTGCTTCTTCTTCCTTCTTCTCCTCTCTCTGACACCAACAATGGCGAGACTTACCTTGAGACCCCACAATCACTTCTTCTCATCTCCTATCTACGCACATAAACAACCTTTCCTCTCCGTATACACCATCTTCCCCCACCACCACCAAAATCCTCTTATCAAATCAAGGGTTAAGTGCTCCGCCAGTGGTACTGAACGAGTCAGAGAGAGTAAGAAGCTTCCTCCAAAGGATCCTATCGAAGACCCTAAACCCCAGCTTCCGATTCCTGAAGTTCTCAGTACGGAAACGGGTTTTGAACAGAATTGGCCTCCATGGAAAAATATACCTCAGAGATATAAGCTTATCGGCGCTACTTCTCTCGCCTTTGTTATCTGCAATATGGACAAGGTGAACTTGAGTATTGCTATAATACCAATGTCACACCAGTTTGGATGGAGCTCATCTGTGGCTGGGTTGGTCCAGTCTTCCTTCTTTTGGGGTTATGCCTTGAGCCAGTTGCCTGGAGGTTGGCTTTCCAAGATTTTTGGCGGAAGAAAAGTGCTTGAGATTGGTGTCTTTACATGGTCTTTCGCTACAGCTCTTGTTCCACTACTTGCTGGATTTATGCCCGGTTTGATCTTTTCTCGAATTTTGGTGGGAATAGGAGAAGGTGTTTCCCCATCGGCTGCGACAGACCTTATTGCCAGGACAATACCTGTTAAGGAGCGCTCAAGAGCGGTAGGCTTTGTTTTTGGAGGACTGAGTTTGGGGAGTGTAATGGGGCTTCTCTTGGCTCCTCCCATCATCGAAACCTTTAATTGGGAATCTGTCTTTTACTTGTTTGGTCTCCTTGGTGTTGGCTGGTTCGTCGGGTTTCAGTTTCTTAATGAAGAAGAAGTTTCATATAAAGGTAATGAGATCTCTACTTCGCATAAATCAGAAAACGCTACAAAGGAAGAGTTGGGGAGCTCATTGAAGGAGATTCCATGGAAGTCATTTTTCCAAAGCCCGGCTGTTTGGGCAATGATATACACTCACTTTTGTGGAAGTTGGGGTCACTATACCTGTTTATCTTGGCTACCAACTTATTTCAGTGAGGCTCTGAGTCTAAATTTGACAGAAGCTGCTTGGGTTTCCATCCTTCCTCCACTGGCTTCGATTGTCGTGACAAGTCTTGCTTCACAATTTGCTGATTACTTAATTACAAATGGAGTTGATACTACCACGGTCCGAAAGATTTGTCAAACGATTGCGTTTGTGGCACCAGCGATCTGCATGACACTTTCATCTGTGGACATTGGATTGCCACCATGGGAAATTGTAGGAATTTTGACAGCAGGCTTGGCCCTATCAAGTTTTGCTTTATCAGGACTTTATTGTACTCATCAGGACATTTCACCCGAATATGCAAGCATACTCCTGGGTATTACAAACACAGTCGGGGCAGTACCTGGAATTGTAGGAGTGGCCCTAACTGGTTTTCTCCTAGACTCGACCCATTCCTGGACTATGTCTCTATTCGTGCCATCAATATTCTTCTACTTGACGGGGACGGTTGTATGGTTGGCATTTGCAAGCAGTGAGCCTCAGACGTTCAGAAAGGAAGACTCATAAGTTTTGTTATTGAGGCACAAAAACATGGAGAAACTTTTGTTATTGTATAGGTAAAAAAGAAATGGTAAAAAATTTTCTGTTGTGAAAGCAAAAACAAAGAGCAGTGGTAATTTTGTTCACTGCCTTATCCTGGTTTTTGCATAGATGCAAATTAAACTCAGTGTTAATGGGTAAAAGGTGGAGTATTGAAAGGATTGACTCTGATTTTTCCTTCCAATTCGGTACATTAATTCTGCTTAGGAAAAAGGAAAAAATAACATTTTACAGGTGACATTAAATGACAGATTTGACCCTGGACAC
CDS Sequence
Protein Sequence