Gene Details:
- Gene ID: AT3G28345
- Gene Symbol: ABCB15, MDR13
- Gene Name: ATP-binding cassette B15, multi-drug resistance 13
- Description: ABC transporter family protein;(source:Araport11)
- TAIR Accession:
- Genome: Araport11_genome_release
- Species: Arabidopsis thaliana
Transcripts:
Plant Ontology Annotations:
- PO:0000037 — shoot axis apex — ápice del epiblasto (epiblastema) (Spanish, exact), シュート頂、茎頂 (Japanese, exact)
- PO:0009046 — flower — flor (Spanish, exact), 花 (Japanese, exact), floret (related), Asteraceae floret (narrow), basal flower (narrow), double flower (narrow), hermaphrodite flower (narrow), monoclinous flower (narrow), perfect flower (narrow)
- PO:0020100 — hypocotyl — hipocótile (Spanish, exact), 胚軸 (Japanese, exact)
Germplasm Phenotype:
- SAIL_1187_C04 — Inflorescence apices have a reduction in polar auxin transport.
- WiscDsLox501E11 — Inflorescence apices have a reduction in polar auxin transport.
Function-related keywords:
Literature:
- The Arabidopsis thaliana ABC protein superfamily, a complete inventory. DOI: 10.1074/jbc.M103104200 ; PMID: 11346655
- Multifunctionality of plant ABC transporters–more than just detoxifiers. DOI: 10.1007/s004250100661 ; PMID: 11855639
- Inventory and comparative analysis of rice and Arabidopsis ATP-binding cassette (ABC) systems. DOI: 10.1016/j.jmb.2004.07.093 ; PMID: 15381434
- Genome-wide analysis of ATP-binding cassette (ABC) proteins in a model legume plant, Lotus japonicus: comparison with Arabidopsis ABC protein family. DOI: 10.1093/dnares/dsl013 ; PMID: 17164256
- Plant ABC proteins–a unified nomenclature and updated inventory. DOI: 10.1016/j.tplants.2008.02.001 ; PMID: 18299247
- ABC transporters coordinately expressed during lignification of Arabidopsis stems include a set of ABCBs associated with auxin transport. DOI: 10.1093/jxb/erq416 ; PMID: 21239383
- Quantitative phosphoproteomics of early elicitor signaling in Arabidopsis. DOI: 10.1074/mcp.M600429-MCP200 ; PMID: 17317660
Sequences:
cDNA Sequence
- >AT3G28345.1
AAAATCGATATATGTCCTCTCCCTCTCTCTCTCACCCTATCTATAAATAGCAGCCGGCTACCACATTTGATCGACGAGATGTGAATGAAGCATTCAACAAAAACATCACATAAAATAAACAAAGGAATCCACAAAAAGAAAAAAGCAAAAAAAAAAGTTTCCTCTTAGAGAAAAAGAGAGAGAGAGAGTAACAAACTCTTGTCGTTTCGTTAAGGTCAAGGTGTCGTTTTGTTCTCTCTTTCTGTCTCTTTAAACACACACAAGAAAATGGGTAAAGAAGAGGAGAAAGAGAGTGGGAGGAACAAGATGAATTGTTTTGGAAGTGTTAGATCGATATTCATGCACGCGGACGGTGTAGATTGGTTGTTGATGGGATTAGGGTTAATCGGAGCCGTCGGTGATGGTTTCACAACTCCTCTTGTTCTTCTCATCACCAGCAAGCTTATGAACAACATCGGTGGTTCCTCTTTCAACACTGATACCTTCATGCAAAGCATCTCCAAGAATTCTGTAGCTTTGCTTTATGTGGCTTGTGGATCTTGGGTTGTTTGTTTCCTTGAGGGATATTGTTGGACAAGAACAGGGGAGAGACAAACAGCAAGAATGAGAGAAAAGTACTTAAGGGCAGTTTTAAGACAAGATGTGGGTTACTTTGATCTTCATGTTACAAGCACTTCTGATGTTATCACTAGTGTTTCTAGTGACAGTTTTGTCATCCAAGACGTCCTCAGTGAAAAATTACCGAATTTTTTGATGAGCGCATCAACGTTCGTTGGAAGCTATATAGTCGGATTTATCTTGCTATGGAGACTCGCCATAGTTGGTTTACCTTTCATTGTCCTTCTAGTGATCCCGGGCCTTATGTATGGACGAGCCCTCATAAGCATTTCGAGGAAGATACGTGAAGAGTACAATGAGGCTGGTTTCGTAGCTGAGCAGGCAATCTCTTCGGTCCGAACCGTCTATGCGTTCTCTGGGGAGAGGAAGACAATATCAAAGTTCTCAACCGCGCTTCAAGGGTCGGTGAAGCTAGGTATTAAACAAGGGCTTGCTAAGGGAATCACTATTGGAAGCAATGGAATCACTTTTGCCATGTGGGGGTTCATGTCTTGGTATGGAAGCCGGATGGTCATGTACCATGGTGCTCAGGGTGGTACTGTCTTTGCAGTTGCTGCTGCTATTGCTATCGGTGGCGTATCACTTGGTGGTGGTTTGTCTAATCTCAAGTACTTCTTTGAGGCGGCTTCAGTTGGGGAGCGAATCATGGAAGTGATAAACAGAGTTCCCAAGATTGATTCAGACAATCCAGATGGCCACAAGTTGGAGAAAATTAGAGGAGAAGTAGAGTTCAAGAACGTAAAGTTTGTGTATCCATCAAGGCTTGAAACATCGATCTTTGATGACTTTTGTCTGAGAGTTCCTTCCGGGAAAACTGTAGCTTTGGTTGGAGGAAGCGGGTCAGGAAAATCGACTGTTATATCTCTTTTGCAAAGGTTTTATGACCCGCTTGCAGGAGAGATTCTCATTGATGGTGTATCCATTGATAAGTTACAAGTGAAGTGGTTGAGATCACAAATGGGTCTAGTTAGCCAAGAACCTGCCCTTTTCGCCACAACGATAAAAGAAAATATATTGTTTGGTAAAGAAGATGCATCCATGGATGATGTTGTGGAAGCTGCCAAAGCCTCTAATGCTCATAATTTCATTTCTCAGTTACCTAATGGCTACGAAACTCAGGTTGGAGAGAGAGGAGTGCAAATGTCAGGAGGACAAAAGCAAAGGATTGCAATCGCGCGTGCAATAATCAAATCACCAACTATTCTTCTTCTAGACGAGGCAACAAGCGCATTGGACTCGGAGTCGGAAAGAGTAGTCCAAGAGGCCTTAGAAAATGCATCGATTGGTCGTACAACTATCCTTATCGCTCACCGTCTCTCTACCATTCGTAATGCTGATGTTATCTCCGTGGTTAAGAACGGTCACATTGTGGAAACTGGATCACACGATGAGCTAATGGAAAACATAGACGGTCAATACTCTACACTTGTTCACTTACAACAGATTGAAAAACAAGACATCAACGTTAGTGTGAAAATAGGTCCAATCTCGGATCCGAGCAAAGATATAAGAAATAGTTCTAGAGTGTCGACTCTTAGCCGTTCAAGCTCTGCTAACTCGGTTACAGGTCCAAGCACTATAAAGAATCTTTCCGAAGACAACAAGCCGCAATTACCGTCGTTTAAGAGACTATTGGCAATGAATTTACCGGAATGGAAACAAGCATTGTATGGTTGCATAAGCGCAACTTTATTTGGAGCCATACAGCCAGCTTACGCATATTCTTTAGGGTCGATGGTCTCGGTTTATTTTCTAACGAGCCACGACGAGATCAAGGAGAAAACAAGGATCTATGCATTATCTTTTGTTGGCCTAGCCGTTCTTTCTTTCTTGATCAACATCAGTCAACACTACAATTTTGCATACATGGGTGAGTATTTGACTAAACGTATCCGAGAACGGATGCTTTCTAAGGTGTTAACGTTTGAGGTCGGTTGGTTCGATAGAGATGAGAACTCAAGCGGCGCCATTTGCTCTAGACTCGCAAAAGATGCTAATGTGGTGAGATCGTTAGTGGGTGATCGAATGGCATTAGTGGTGCAAACCGTATCGGCTGTTACCATAGCTTTCACGATGGGCTTGGTCATCGCTTGGAGGTTAGCACTTGTGATGATTGCGGTGCAACCGGTGATTATTGTTTGCTTCTACACTCGTCGGGTTCTACTCAAGAGCATGTCGAAAAAAGCAATCAAGGCTCAAGATGAAAGTAGCAAACTAGCGGCAGAGGCAGTTTCCAACGTCCGAACCATCACTGCATTTTCATCACAAGAACGTATCATGAAAATGCTCGAAAAGGCCCAAGAAAGTCCGCGGAGAGAAAGCATTCGCCAGTCGTGGTTTGCAGGCTTTGGGCTTGCTATGTCGCAGAGCCTCACGTCGTGTACGTGGGCTTTAGATTTCTGGTACGGTGGTAGACTGATACAAGATGGGTACATCACGGCTAAAGCTTTGTTCGAGACGTTTATGATCTTAGTTAGTACTGGTCGAGTCATTGCCGATGCTGGAAGCATGACCACGGATCTAGCTAAAGGTTCGGATGCGGTAGGGTCAGTTTTCGCTGTGTTGGATCGGTACACGTCGATTGATCCGGAGGATCCAGATGGATATGAAACAGAAAGAATAACGGGTCAGGTTGAATTTCTTGACGTAGATTTCTCGTACCCGACTAGACCGGATGTGATTATATTCAAGAACTTCTCCATCAAGATCGAAGAGGGGAAGTCCACAGCCATTGTTGGTCCAAGCGGGTCAGGTAAATCCACTATAATTGGCTTGATAGAGCGGTTCTACGACCCGTTAAAGGGTATAGTGAAAATCGATGGTCGCGATATAAGGTCGTATCATCTGAGATCACTTCGTCGACACATAGCTTTGGTTAGCCAAGAGCCAACATTGTTTGCTGGGACAATCCGAGAGAACATCATATATGGAGGAGTGTCAGATAAAATAGACGAAGCAGAGATCATCGAGGCGGCGAAAGCAGCGAATGCTCATGATTTCATCACGTCATTAACGGAAGGGTATGACACATACTGTGGAGACAGAGGAGTACAGTTGTCTGGTGGTCAAAAACAGAGGATCGCGATAGCTAGAGCGGTTTTGAAAAACCCGTCAGTGTTGCTTCTAGACGAAGCGACAAGCGCTTTGGACAGCCAGTCGGAACGTGTGGTGCAAGATGCTCTCGAGCGTGTTATGGTAGGGAGGACGAGTGTGGTGATCGCACATAGGCTGAGCACAATTCAGAATTGTGATGCAATTGCTGTTTTAGACAAAGGCAAACTCGTGGAACGTGGGACTCACTCTTCATTGTTGTCAAAAGGTCCTACAGGTATTTATTTCTCATTGGTGAGTCTTCAGACAACTTCTGGTTAACTTAAACCATGTCGTTTCATCGCTAATGAAATTATTTGTAATCAAATAAATGTCAAGAAGTTTAATTTTTAAAGCGGGCTACGATTTAAACACTATATATATAACAATGGAATGTAAAAAAGAAAACAAAGCTTGTTAATTGAATAGAAATAAAATAAACGTTTTCCCAAATCTCATCTCAAAGCTTGTGGCTTCTCTTTTTAAGTTTTTATCTAGAAGTTCTAAGATATA
CDS Sequence
- >AT3G28345.1
ATGGGTAAAGAAGAGGAGAAAGAGAGTGGGAGGAACAAGATGAATTGTTTTGGAAGTGTTAGATCGATATTCATGCACGCGGACGGTGTAGATTGGTTGTTGATGGGATTAGGGTTAATCGGAGCCGTCGGTGATGGTTTCACAACTCCTCTTGTTCTTCTCATCACCAGCAAGCTTATGAACAACATCGGTGGTTCCTCTTTCAACACTGATACCTTCATGCAAAGCATCTCCAAGAATTCTGTAGCTTTGCTTTATGTGGCTTGTGGATCTTGGGTTGTTTGTTTCCTTGAGGGATATTGTTGGACAAGAACAGGGGAGAGACAAACAGCAAGAATGAGAGAAAAGTACTTAAGGGCAGTTTTAAGACAAGATGTGGGTTACTTTGATCTTCATGTTACAAGCACTTCTGATGTTATCACTAGTGTTTCTAGTGACAGTTTTGTCATCCAAGACGTCCTCAGTGAAAAATTACCGAATTTTTTGATGAGCGCATCAACGTTCGTTGGAAGCTATATAGTCGGATTTATCTTGCTATGGAGACTCGCCATAGTTGGTTTACCTTTCATTGTCCTTCTAGTGATCCCGGGCCTTATGTATGGACGAGCCCTCATAAGCATTTCGAGGAAGATACGTGAAGAGTACAATGAGGCTGGTTTCGTAGCTGAGCAGGCAATCTCTTCGGTCCGAACCGTCTATGCGTTCTCTGGGGAGAGGAAGACAATATCAAAGTTCTCAACCGCGCTTCAAGGGTCGGTGAAGCTAGGTATTAAACAAGGGCTTGCTAAGGGAATCACTATTGGAAGCAATGGAATCACTTTTGCCATGTGGGGGTTCATGTCTTGGTATGGAAGCCGGATGGTCATGTACCATGGTGCTCAGGGTGGTACTGTCTTTGCAGTTGCTGCTGCTATTGCTATCGGTGGCGTATCACTTGGTGGTGGTTTGTCTAATCTCAAGTACTTCTTTGAGGCGGCTTCAGTTGGGGAGCGAATCATGGAAGTGATAAACAGAGTTCCCAAGATTGATTCAGACAATCCAGATGGCCACAAGTTGGAGAAAATTAGAGGAGAAGTAGAGTTCAAGAACGTAAAGTTTGTGTATCCATCAAGGCTTGAAACATCGATCTTTGATGACTTTTGTCTGAGAGTTCCTTCCGGGAAAACTGTAGCTTTGGTTGGAGGAAGCGGGTCAGGAAAATCGACTGTTATATCTCTTTTGCAAAGGTTTTATGACCCGCTTGCAGGAGAGATTCTCATTGATGGTGTATCCATTGATAAGTTACAAGTGAAGTGGTTGAGATCACAAATGGGTCTAGTTAGCCAAGAACCTGCCCTTTTCGCCACAACGATAAAAGAAAATATATTGTTTGGTAAAGAAGATGCATCCATGGATGATGTTGTGGAAGCTGCCAAAGCCTCTAATGCTCATAATTTCATTTCTCAGTTACCTAATGGCTACGAAACTCAGGTTGGAGAGAGAGGAGTGCAAATGTCAGGAGGACAAAAGCAAAGGATTGCAATCGCGCGTGCAATAATCAAATCACCAACTATTCTTCTTCTAGACGAGGCAACAAGCGCATTGGACTCGGAGTCGGAAAGAGTAGTCCAAGAGGCCTTAGAAAATGCATCGATTGGTCGTACAACTATCCTTATCGCTCACCGTCTCTCTACCATTCGTAATGCTGATGTTATCTCCGTGGTTAAGAACGGTCACATTGTGGAAACTGGATCACACGATGAGCTAATGGAAAACATAGACGGTCAATACTCTACACTTGTTCACTTACAACAGATTGAAAAACAAGACATCAACGTTAGTGTGAAAATAGGTCCAATCTCGGATCCGAGCAAAGATATAAGAAATAGTTCTAGAGTGTCGACTCTTAGCCGTTCAAGCTCTGCTAACTCGGTTACAGGTCCAAGCACTATAAAGAATCTTTCCGAAGACAACAAGCCGCAATTACCGTCGTTTAAGAGACTATTGGCAATGAATTTACCGGAATGGAAACAAGCATTGTATGGTTGCATAAGCGCAACTTTATTTGGAGCCATACAGCCAGCTTACGCATATTCTTTAGGGTCGATGGTCTCGGTTTATTTTCTAACGAGCCACGACGAGATCAAGGAGAAAACAAGGATCTATGCATTATCTTTTGTTGGCCTAGCCGTTCTTTCTTTCTTGATCAACATCAGTCAACACTACAATTTTGCATACATGGGTGAGTATTTGACTAAACGTATCCGAGAACGGATGCTTTCTAAGGTGTTAACGTTTGAGGTCGGTTGGTTCGATAGAGATGAGAACTCAAGCGGCGCCATTTGCTCTAGACTCGCAAAAGATGCTAATGTGGTGAGATCGTTAGTGGGTGATCGAATGGCATTAGTGGTGCAAACCGTATCGGCTGTTACCATAGCTTTCACGATGGGCTTGGTCATCGCTTGGAGGTTAGCACTTGTGATGATTGCGGTGCAACCGGTGATTATTGTTTGCTTCTACACTCGTCGGGTTCTACTCAAGAGCATGTCGAAAAAAGCAATCAAGGCTCAAGATGAAAGTAGCAAACTAGCGGCAGAGGCAGTTTCCAACGTCCGAACCATCACTGCATTTTCATCACAAGAACGTATCATGAAAATGCTCGAAAAGGCCCAAGAAAGTCCGCGGAGAGAAAGCATTCGCCAGTCGTGGTTTGCAGGCTTTGGGCTTGCTATGTCGCAGAGCCTCACGTCGTGTACGTGGGCTTTAGATTTCTGGTACGGTGGTAGACTGATACAAGATGGGTACATCACGGCTAAAGCTTTGTTCGAGACGTTTATGATCTTAGTTAGTACTGGTCGAGTCATTGCCGATGCTGGAAGCATGACCACGGATCTAGCTAAAGGTTCGGATGCGGTAGGGTCAGTTTTCGCTGTGTTGGATCGGTACACGTCGATTGATCCGGAGGATCCAGATGGATATGAAACAGAAAGAATAACGGGTCAGGTTGAATTTCTTGACGTAGATTTCTCGTACCCGACTAGACCGGATGTGATTATATTCAAGAACTTCTCCATCAAGATCGAAGAGGGGAAGTCCACAGCCATTGTTGGTCCAAGCGGGTCAGGTAAATCCACTATAATTGGCTTGATAGAGCGGTTCTACGACCCGTTAAAGGGTATAGTGAAAATCGATGGTCGCGATATAAGGTCGTATCATCTGAGATCACTTCGTCGACACATAGCTTTGGTTAGCCAAGAGCCAACATTGTTTGCTGGGACAATCCGAGAGAACATCATATATGGAGGAGTGTCAGATAAAATAGACGAAGCAGAGATCATCGAGGCGGCGAAAGCAGCGAATGCTCATGATTTCATCACGTCATTAACGGAAGGGTATGACACATACTGTGGAGACAGAGGAGTACAGTTGTCTGGTGGTCAAAAACAGAGGATCGCGATAGCTAGAGCGGTTTTGAAAAACCCGTCAGTGTTGCTTCTAGACGAAGCGACAAGCGCTTTGGACAGCCAGTCGGAACGTGTGGTGCAAGATGCTCTCGAGCGTGTTATGGTAGGGAGGACGAGTGTGGTGATCGCACATAGGCTGAGCACAATTCAGAATTGTGATGCAATTGCTGTTTTAGACAAAGGCAAACTCGTGGAACGTGGGACTCACTCTTCATTGTTGTCAAAAGGTCCTACAGGTATTTATTTCTCATTGGTGAGTCTTCAGACAACTTCTGGTTAA
Protein Sequence
- >AT3G28345.1
MGKEEEKESGRNKMNCFGSVRSIFMHADGVDWLLMGLGLIGAVGDGFTTPLVLLITSKLMNNIGGSSFNTDTFMQSISKNSVALLYVACGSWVVCFLEGYCWTRTGERQTARMREKYLRAVLRQDVGYFDLHVTSTSDVITSVSSDSFVIQDVLSEKLPNFLMSASTFVGSYIVGFILLWRLAIVGLPFIVLLVIPGLMYGRALISISRKIREEYNEAGFVAEQAISSVRTVYAFSGERKTISKFSTALQGSVKLGIKQGLAKGITIGSNGITFAMWGFMSWYGSRMVMYHGAQGGTVFAVAAAIAIGGVSLGGGLSNLKYFFEAASVGERIMEVINRVPKIDSDNPDGHKLEKIRGEVEFKNVKFVYPSRLETSIFDDFCLRVPSGKTVALVGGSGSGKSTVISLLQRFYDPLAGEILIDGVSIDKLQVKWLRSQMGLVSQEPALFATTIKENILFGKEDASMDDVVEAAKASNAHNFISQLPNGYETQVGERGVQMSGGQKQRIAIARAIIKSPTILLLDEATSALDSESERVVQEALENASIGRTTILIAHRLSTIRNADVISVVKNGHIVETGSHDELMENIDGQYSTLVHLQQIEKQDINVSVKIGPISDPSKDIRNSSRVSTLSRSSSANSVTGPSTIKNLSEDNKPQLPSFKRLLAMNLPEWKQALYGCISATLFGAIQPAYAYSLGSMVSVYFLTSHDEIKEKTRIYALSFVGLAVLSFLINISQHYNFAYMGEYLTKRIRERMLSKVLTFEVGWFDRDENSSGAICSRLAKDANVVRSLVGDRMALVVQTVSAVTIAFTMGLVIAWRLALVMIAVQPVIIVCFYTRRVLLKSMSKKAIKAQDESSKLAAEAVSNVRTITAFSSQERIMKMLEKAQESPRRESIRQSWFAGFGLAMSQSLTSCTWALDFWYGGRLIQDGYITAKALFETFMILVSTGRVIADAGSMTTDLAKGSDAVGSVFAVLDRYTSIDPEDPDGYETERITGQVEFLDVDFSYPTRPDVIIFKNFSIKIEEGKSTAIVGPSGSGKSTIIGLIERFYDPLKGIVKIDGRDIRSYHLRSLRRHIALVSQEPTLFAGTIRENIIYGGVSDKIDEAEIIEAAKAANAHDFITSLTEGYDTYCGDRGVQLSGGQKQRIAIARAVLKNPSVLLLDEATSALDSQSERVVQDALERVMVGRTSVVIAHRLSTIQNCDAIAVLDKGKLVERGTHSSLLSKGPTGIYFSLVSLQTTSG