Information report for AT5G28470
Gene Details
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Functional Descriptions
- GO:0009860 — acts upstream of or within — pollen tube growth
- GO:0010584 — acts upstream of or within — pollen exine formation
- GO:0055085 — involved in — transmembrane transport
- GO:0022857 — enables — transmembrane transporter activity
- GO:0005886 — is active in — plasma membrane
- GO:0005886 — located in — plasma membrane
- fst1 — The fst1 mutant results in strong reduction of beta-1,2-linked flavonol glycosides (sophorosides) on the pollen of Arabidopsis. Vitality and fertility appear identical to the wild type under standard greenhouse conditions.
Functional Keywords
Literature and News
- Integrating membrane transport with male gametophyte development and function through transcriptomics. DOI: 10.1104/pp.105.074708 ; PMID: 16607029
- Penetration of the stigma and style elicits a novel transcriptome in pollen tubes, pointing to genes critical for growth in a pistil. DOI: 10.1371/journal.pgen.1000621 ; PMID: 19714218
- The Arabidopsis nitrate transporter NRT1.8 functions in nitrate removal from the xylem sap and mediates cadmium tolerance. DOI: 10.1105/tpc.110.075242 ; PMID: 20501909
Gene Resources
- UniProt: A0A1P8BHI2
- EMBL: CP002688
- AlphaFoldDB: A0A1P8BHI2
- EnsemblPlants: AT5G28470.2
- Gramene: AT5G28470.2
- Orthologous matrix: IMEFFTM
- ExpressionAtlas: AT5G28470
- InterPro: IPR000109, IPR036259
- PANTHER: PTHR11654
- SUPFAM: SSF103473
- Gene3D: 1.20.1250.20
- SWISS-MODEL: A0A1P8BHI2
- Conserved Domain Database: cd17416
Sequences
cDNA Sequence
- >AT5G28470.2
TCGTAAAGAATCTAAGGATTTAGTTTTGAGTTTTTCAAAATGTGAATTTTTAATTCAAAGAGCATAACAAAATGACAGAAAAAATAAGACGAAGTTCTTCCTGGAAATAATTAGGTCACCAGGAAGCTGTTGAAGCATTTTTCATTTCCTCTCAAACCAAAGAACAAAAAATGGACGTCGAATCTTCATCACCATCGTCACATGCTCTTATTAAGAAGGAGAAAGGAGGATGGAGAGCTATCAAGTACATTATTGCAAACGAGTCTTTTGAGAAGCTGGCCTCAATGAGCTTAATTGGGAATCTATCGGTGTATCTCATGACAAAATATAATCTTGGTGGTGTCTTCTTGGTGAACGTCATCAACATATGGTTTGGTTCTTGCAACATTCTTACACTCGCTGGTGCTTTTGTCTCTGATGCTTACCTTGGAAGATTTTGGACTCTTCTACTCGGTTCCATCGCCTCCTTTATAGGAATGGGAATATTTGCTCTAACCGCTGCTCTCCCGAGTTTAAGACCTGATGCTTGCATTGATCCATCGAATTGTTCAAACCAGCCGGCGAAATGGCAGCTCGGGGTTCTATTCTCCGGTCTAGGTTTACTAGCCATTGGAGCAGGAGGAGTAAGACCATGCAATATCGCATTTGGAGCTGATCAATTCGATACAAGCACTAAAAAGGGCAAAGCTCACCTTGAAACATTCTTTAACTGGTGGTACTTCTCTTTCACCGTGGCTCTAGTTATTGCACTGACAGGTGTTGTCTATATACAGACTAACATCAGTTGGGTCATTGGTTTCGTGATCCCCACGGCTTGTCTTGCACTCTCCATCACAACCTTCGTCATTGGTCAGCATACTTACATATGTGCAAAAGCTGAGGGCAGTGTGTTCGCAGACATAGTTAAGGTTGTTACTGCGGCTTGCAAGAAACGTAAGGTGAAACCTGGATCAGATATAACGTTCTATATAGGCCCTTCTAATGATGGATCACCCACCACTTTGGTCCGAGACAAACACAGATTAAGGTTCTTTGACAAAGCATCTATCGTAACGAATCCGAACGAGTTAAACGAAGACGGTAACGCGAAGTACAAATGGAGATTATGTAGTGTGCAGCAGGTGAAAAACCTCAAGTGTGTGACAGCAATTTTACCAGTTTGGGTCACGGGAATCGCGTGTTTCATACTGACTGACCAACAAAACATTTACGGGATCCTTCAAGCAATGCAGATGGATAAAACGTTTGGACCACATAACTTCCAAGTCCCGGCAGGATGGATGAATCTCGTCTCCATGATCACTCTAGCGATTTGGATCTCACTTTACGAGTGTGTTATCATACCAATAGTGAAACAAATCACGGGTCGGAAAAAACGGTTAACGTTAAAACATAGAATCGAGATAGGTATAGTAATGGGAATCATTTGTATGATTGTCGCGGGTTTCCAAGAGAAGAAGCGAAGAGCATCCGCTCTAAAGAATGGCTCATTCGTGTCGCCGGTTTCTATTGTAATGCTCCTTCCTCAGTTCGCTCTTGCCGGTTTAACCGAAGCGTTTTCCGCGGTGGCTCTGATGGAGTTTCTGACGGTTAGGATGCCTGAGCATATGAGAGCGGTTGCTGGAGCGATCTTCTTCTTGAGCTCGTCGATTGCGAGTTACATATGCACACTTCTTATAAATGTGATTGATGCCGTGACGCGCAAGGAAGGGAAATCTTGGTTAGGAGACAAAGACTTGAACAAGAACAGGCTTGAGAATTACTTTTTCATAATAGCCGGCATTCAAGTCGCGAATCTTCTCTATTTTAGGTTATTTGCTTCAAGGTATGCCACTGAAAACAAAAAAGGACACTAA - >AT5G28470.1
TCGTAAAGAATCTAAGGATTTAGTTTTGAGTTTTTCAAAATGTGAATTTTTAATTCAAAGAGCATAACAAAATGACAGAAAAAATAAGACGAAGTTCTTCCTGGAAATAATTAGGTCACCAGGAAGCTGTTGAAGCATTTTTCATTTCCTCTCAAACCAAAGAACAAAAAATGGACGTCGAATCTTCATCACCATCGTCACATGCTCTTATTAAGAAGGAGAAAGGAGGATGGAGAGCTATCAAGTACATTATTGCAAACGAGTCTTTTGAGAAGCTGGCCTCAATGAGCTTAATTGGGAATCTATCGGTGTATCTCATGACAAAATATAATCTTGGTGGTGTCTTCTTGGTGAACGTCATCAACATATGGTTTGGTTCTTGCAACATTCTTACACTCGCTGGTGCTTTTGTCTCTGATGCTTACCTTGGAAGATTTTGGACTCTTCTACTCGGTTCCATCGCCTCCTTTATAGGAATGGGAATATTTGCTCTAACCGCTGCTCTCCCGAGTTTAAGACCTGATGCTTGCATTGATCCATCGAATTGTTCAAACCAGCCGGCGAAATGGCAGCTCGGGGTTCTATTCTCCGGTCTAGGTTTACTAGCCATTGGAGCAGGAGGAGTAAGACCATGCAATATCGCATTTGGAGCTGATCAATTCGATACAAGCACTAAAAAGGGCAAAGCTCACCTTGAAACATTCTTTAACTGGTGGTACTTCTCTTTCACCGTGGCTCTAGTTATTGCACTGACAGGTGTTGTCTATATACAGACTAACATCAGTTGGGTCATTGGTTTCGTGATCCCCACGGCTTGTCTTGCACTCTCCATCACAACCTTCGTCATTGGTCAGCATACTTACATATGTGCAAAAGCTGAGGGCAGTGTGTTCGCAGACATAGTTAAGGTTGTTACTGCGGCTTGCAAGAAACGTAAGGTGAAACCTGGATCAGATATAACGTTCTATATAGGCCCTTCTAATGATGGATCACCCACCACTTTGGTCCGAGACAAACACAGATTAAGGTTCTTTGACAAAGCATCTATCGTAACGAATCCGAACGAGTTAAACGAAGACGGTAACGCGAAGTACAAATGGAGATTATGTAGTGTGCAGCAGGTGAAAAACCTCAAGTGTGTGACAGCAATTTTACCAGTTTGGGTCACGGGAATCGCGTGTTTCATACTGACTGACCAACAAAACATTTACGGGATCCTTCAAGCAATGCAGATGGATAAAACGTTTGGACCACATAACTTCCAAGTCCCGGCAGGATGGATGAATCTCGTCTCCATGATCACTCTAGCGATTTGGATCTCACTTTACGAGTGTGTTATCATACCAATAGTGAAACAAATCACGGGTCGGAAAAAACGGTTAACGTTAAAACATAGAATCGAGATAGGTATAGTAATGGGAATCATTTGTATGATTGTCGCGGGTTTCCAAGAGAAGAAGCGAAGAGCATCCGCTCTAAAGAATGGCTCATTCGTGTCGCCGGTTTCTATTGTAATGCTCCTTCCTCAGTTCGCTCTTGCCGGTTTAACCGAAGCGTTTTCCGCGGTGGCTCTGATGGAGTTTCTGACGGTTAGGATGCCTGAGCATATGAGAGCGGTTGCTGGAGCGATCTTCTTCTTGAGCTCGTCGATTGCGAGTTACATATGCACACTTCTTATAAATGTGATTGATGCCGTGACGCGCAAGGAAGGGAAATCTTGGTTAGGAGACAAAGACTTGAACAAGAACAGGCTTGAGAATTACTTTTTCATAATAGCCGGCATTCAAGTCGCGAATCTTCTCTATTTTAGGTTATTTGCTTCAAGGTATGCCACTGAAAACAAAAAAGGACACTAA
CDS Sequence
Protein Sequence