Gene Details:
- Gene ID: AT5G17020
- Gene Symbol: ATCRM1, ATXPO1, HIT2, XPO1, XPO1A
- Gene Name: ARABIDOPSIS THALIANA EXPORTIN 1, HEAT-INTOLERANT 2, EXPORTIN 1, exportin 1A
- Description: exportin 1A;(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)
Germplasm Phenotype:
- xpo1b-1(het)/xpo1a-3(homo) — embryo lethal.
- xpo1b-1(homo)/xpo1a-3(het) — Female gametophytes do not complete all mitotic divisions and embryo sac development is defective.
Function-related keywords:
Literature:
- HASTY, the Arabidopsis ortholog of exportin 5/MSN5, regulates phase change and morphogenesis. DOI: 10.1242/dev.00362 ; PMID: 12620976
- Nucleo-cytoplasmic partitioning of proteins in plants: implications for the regulation of environmental and developmental signalling. DOI: 10.1007/s00294-003-0444-x ; PMID: 14523572
- Analysis of the subcellular localization, function, and proteolytic control of the Arabidopsis cyclin-dependent kinase inhibitor ICK1/KRP1. DOI: 10.1104/pp.106.081406 ; PMID: 16766674
- 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
- Identification, cloning and characterization of sis7 and sis10 sugar-insensitive mutants of Arabidopsis. DOI: 10.1186/1471-2229-8-104 ; PMID: 18854047
- Dynamic Distribution and Interaction of the Arabidopsis SRSF1 Subfamily Splicing Factors. DOI: 10.1104/pp.15.01338 ; PMID: 26697894
- Nucleocytoplasmic Trafficking of the Arabidopsis WD40 Repeat Protein XIW1 Regulates ABI5 Stability and Abscisic Acid Responses. DOI: 10.1016/j.molp.2019.07.001 ; PMID: 31295628
- The Small GTPase Superfamily in Plants: A Conserved Regulatory Module with Novel Functions. DOI: 10.1146/annurev-arplant-112619-025827 ; PMID: 32442390
Sequences:
cDNA Sequence
- >AT5G17020.1
GTTTTCTCCCCGTCCCCTGCGTCAATTTTAAGCTGTCTTTTGAGAACTCTCTCTCTCTATATATATGTGTGTATATATAAGCCTCTCTTTTCTCGCTCTGTGTTAAACCATCCTCTCCTTTCTCTCTCTAGATTTTTATCCCCTTTCCCTCTCTCTCTCTCTCTCTCCTAGGGTTTTCGTCTCTCTCGTTCACTGTTAATAGTCTTAACGGAGAGGTTTGATTAGCCTCCGGGAAGATTCTACTGCGAACTTTGGACACATCTCTCTCTGCCATGGCGGCTGAGAAGTTAAGGGACTTGAGCCAGCCGATTGACGTCGGTGTGCTCGATGCCACTGTTGCGGCCTTCTTTGTTACCGGATCTAAAGAAGAGAGAGCTGCTGCGGACCAGATTTTGCGGGATTTGCAGGCTAATCCAGATATGTGGCTTCAAGTTGTCCACATTCTACAAAATACAAACAGCTTGGATACCAAGTTCTTTGCTCTGCAGGTTCTAGAAGGTGTTATAAAGTATAGATGGAATGCACTGCCTGTTGAACAACGAGATGGAATGAAAAATTACATCTCAGAGGTTATTGTACAGCTCTCGAGTAATGAAGCATCTTTCAGATCAGAAAGGCTCTATGTCAACAAGCTAAATGTCATTTTGGTCCAGATCGTGAAACATGATTGGCCGGCAAAGTGGACAAGCTTCATTCCTGATCTAGTTGCAGCTGCTAAAACTAGCGAAACTATCTGCGAAAATTGCATGGCCATTTTGAAACTCCTAAGTGAAGAGGTTTTTGATTTCTCAAGAGGAGAAATGACTCAGCAGAAGATTAAAGAGCTGAAACAATCTCTAAACAGTGAGTTTAAACTCATTCATGAGTTATGCCTATATGTCCTCTCAGCTTCTCAAAGACAGGATCTTATACGTGCAACACTGTCTGCATTGCATGCCTATCTTTCCTGGATTCCATTGGGTTACATTTTTGAGTCTACTTTGCTTGAGACCCTCCTTAAATTTTTTCCTGTGCCAGCATATAGGAACCTCACTATTCAATGTCTGACCGAGGTCGCAGCTCTTAATTTCGGGGACTTCTACAATGTTCAATATGTCAAAATGTATACCATATTTATAGGGCAGCTGCGGATAATTCTCCCACCGAGTACAAAGATCCCTGAGGCATATTCCAGTGGAAGTGGTGAAGAACAAGCATTTATCCAGAACCTGGCACTATTTTTCACTTCCTTTTTCAAGTTTCATATTCGAGTCCTAGAATCAACGCCAGAAGTTGTCTCTTTGTTACTCGCTGGTCTAGAATATCTCATTAATATATCTTATGTTGACGACACTGAAGTATTTAAGGTTTGTTTGGACTATTGGAACTCGTTGGTGTTGGAGCTATTTGATGCGCATCATAATTCTGATAACCCTGCAGTAAGTGCAAGCCTGATGGGTTTGCAGCCTTTCCTTCCTGGTATGGTTGATGGCCTTGGTTCTCAAGTCATGCAGCGGCGTCAACTTTATTCTCACCCAATGTCCAAATTAAGAGGGTTAATGATTAACCGCATGGCGAAGCCTGAAGAAGTGCTTATTGTTGAAGATGAAAATGGGAACATCGTTCGTGAAACCATGAAGGACAATGATGTTCTTGTCCAATATAAGATAATGCGGGAGACATTAATCTACCTCTCACACCTTGACCATGATGATACCGAGAAGCAGATGTTGAGGAAGCTAAACAAACAATTAAGTGGGGAGGAATGGGCATGGAACAATTTGAACACTTTGTGCTGGGCTATTGGGTCTATTTCCGGATCTATGGCAGAAGATCAGGAAAACAGGTTTTTGGTGATGGTCATTCGTGATTTGTTGAATTTATGTGAAATTACCAAGGGAAAAGACAATAAAGCCGTTATTGCAAGCAACATCATGTATGTCGTTGGCCAGTATCCAAGATTCTTAAGGGCCCATTGGAAGTTTTTGAAGACAGTTGTGAACAAGTTGTTTGAATTCATGCATGAAACACATCCTGGTGTTCAGGACATGGCCTGTGATACATTCTTGAAAATAGTTCAAAAGTGCAAGCGAAAATTCGTTATTGTACAGGTTGGAGAGAATGAACCATTTGTATCTGAACTTCTAACAGGCCTTGCAACAACTGTTCAAGATCTTGAGCCTCATCAAATACACTCATTTTATGAATCAGTTGGTAATATGATCCAAGCAGAATCAGATCCTCAGAAGAGAGATGAATATCTCCAGAGGTTGATGGCACTCCCCAACCAGAAATGGGCAGAAATCATAGGACAGGCACGCCACAGTGTAGAATTCCTCAAGGATCAAGTTGTGATACGTACAGTGCTAAACATCCTACAGACTAATACTAGTGCTGCTACTTCACTGGGAACATACTTCTTATCCCAAATTTCCTTGATTTTCTTGGATATGTTGAATGTATACAGAATGTACAGTGAGCTTGTGTCAACCAACATTACTGAGGGAGGACCATATGCTTCCAAGACATCTTTTGTAAAACTCTTAAGATCGGTTAAGAGGGAAACACTTAAGCTGATAGAAACCTTTTTAGACAAAGCTGAAGACCAGCCACACATAGGGAAACAATTTGTGCCGCCAATGATGGAATCAGTACTTGGTGACTATGCGAGGAATGTGCCTGATGCTAGGGAATCCGAAGTTCTTTCACTCTTTGCAACGATTATAAACAAGTACAAGGCAACAATGTTAGACGACGTGCCTCACATATTTGAAGCTGTATTCCAGTGTACATTGGAGATGATAACTAAGAACTTTGAAGATTATCCAGAACACCGCCTCAAGTTTTTCTCATTACTCCGTGCTATTGCTACGTTTTGTTTCCCTGCCTTGATAAAGTTATCAAGTCCGCAACTGAAGCTAGTGATGGATTCAATTATCTGGGCATTTAGACATACTGAGAGAAATATTGCTGAAACCGGGCTTAATCTTTTGCTTGAGATGCTGAAAAACTTTCAGCAATCTGAATTTTGTAATCAATTCTACCGGTCATACTTTATGCAAATCGAGCAAGAAATATTTGCCGTTTTGACCGATACCTTCCATAAGCCTGGCTTCAAGCTACATGTGTTGGTGCTGCAGCAACTGTTTTGCCTGCCTGAGAGCGGTGCTTTGACAGAACCCTTGTGGGATGCTACAACCGTTCCTTACCCGTATCCGGACAACGTTGCATTTGTTCGCGAATACACCATTAAGCTACTGAGCTCTTCATTCCCAAACATGACTGCAGCAGAGGTCACACAATTTGTGAATGGACTATACGAGTCTAGAAATGACCCGTCTGGATTTAAGAATAACATTCGTGACTTCCTTGTACAGTCTAAGGAGTTTTCCGCTCAGGATAACAAAGATCTCTATGCTGAGGAAGCAGCTGCACAGAGAGAGAGAGAACGTCAAAGAATGCTTTCAATTCCTGGGCTTATTGCTCCTAATGAGATTCAAGACGAGATGGTGGACTCATAAAATTAAGAAGGGTGCAACAAGAAGAAGCTTCCTGTGTTCAATGGGCTGGATTTTTTGTAATCATAGGTTTTTGAAAACAGGAAAGAGTTCAAGGAGAGATTAATTTCCCCGACCGTATCTCTACTACCGTATTCCGAAGCTTCTCAATTCGATTTTGAGGATTGGAAAAGCTAAGAAAACAGAGATCTTTTTGGGGATAAATTAGTGTCTTGTTTGGTTAATTAATTGGGTTTAATGTAGATTTAAACATTAGGGACCTTCTCTAGTTATCTCATATGGTTGGCTCCTTTTTGCTTTGACCTTTTTTTGGGGGTTTGTTTCTATTACTCAGTGATTCGTGTTTTAGGTGCAAGATATTTTTTTAGACTCTATCTTTGTCACCCCCTAGGGGGTTTAAAATTGTAAGATTGACTTGTGGTGATGTTTCTCATTAAAATCGTCCACTTTAAAGTGTGCTTTGACAATTTTATCAAACAAAACTTTGAATTTAGTCATCATTATT - >AT5G17020.2
GTTTTCTCCCCGTCCCCTGCGTCAATTTTAAGCTGTCTTTTGAGAACTCTCTCTCTCTATATATATGTGTGTATATATAAGCCTCTCTTTTCTCGCTCTGTGTTAAACCATCCTCTCCTTTCTCTCTCTAGATTTTTATCCCCTTTCCCTCTCTCTCTCTCTCTCTCCTAGGGTTTTCGTCTCTCTCGTTCACTGTTAATAGTCTTAACGGAGAGGTTTGATTAGCCTCCGGGAAGATTCTACTGCGAACTTTGGACACATCTCTCTCTGCCATGGCGGCTGAGAAGTTAAGGGACTTGAGCCAGCCGATTGACGTCGGTGTGCTCGATGCCACTGTTGCGGCCTTCTTTGTTACCGGATCTAAAGAAGAGAGAGCTGCTGCGGACCAGATTTTGCGGGATTTGCAGGCTAATCCAGATATGTGGCTTCAAGTTGTCCACATTCTACAAAATACAAACAGCTTGGATACCAAGTTCTTTGCTCTGCAGGTTCTAGAAGGTGTTATAAAGTATAGATGGAATGCACTGCCTGTTGAACAACGAGATGGAATGAAAAATTACATCTCAGAGGTTATTGTACAGCTCTCGAGTAATGAAGCATCTTTCAGATCAGAAAGGCTCTATGTCAACAAGCTAAATGTCATTTTGGTCCAGATCGTGAAACATGATTGGCCGGCAAAGTGGACAAGCTTCATTCCTGATCTAGTTGCAGCTGCTAAAACTAGCGAAACTATCTGCGAAAATTGCATGGCCATTTTGAAACTCCTAAGTGAAGAGGTTTTTGATTTCTCAAGAGGAGAAATGACTCAGCAGAAGATTAAAGAGCTGAAACAATCTCTAAACAGTGAGTTTAAACTCATTCATGAGTTATGCCTATATGTCCTCTCAGCTTCTCAAAGACAGGATCTTATACGTGCAACACTGTCTGCATTGCATGCCTATCTTTCCTGGATTCCATTGGGTTACATTTTTGAGTCTACTTTGCTTGAGACCCTCCTTAAATTTTTTCCTGTGCCAGCATATAGGAACCTCACTATTCAATGTCTGACCGAGGTCGCAGCTCTTAATTTCGGGGACTTCTACAATGTTCAATATGTCAAAATGTATACCATATTTATAGGGCAGCTGCGGATAATTCTCCCACCGAGTACAAAGATCCCTGAGGCATATTCCAGTGGAAGTGGTGAAGAACAAGCATTTATCCAGAACCTGGCACTATTTTTCACTTCCTTTTTCAAGTTTCATATTCGAGTCCTAGAATCAACGCCAGAAGTTGTCTCTTTGTTACTCGCTGGTCTAGAATATCTCATTAATATATCTTATGTTGACGACACTGAAGTATTTAAGGTTTGTTTGGACTATTGGAACTCGTTGGTGTTGGAGCTATTTGATGCGCATCATAATTCTGATAACCCTGCAGTAAGTGCAAGCCTGATGGGTTTGCAGCCTTTCCTTCCTGGTATGGTTGATGGCCTTGGTTCTCAAGTCATGCAGCGGCGTCAACTTTATTCTCACCCAATGTCCAAATTAAGAGGGTTAATGATTAACCGCATGGCGAAGCCTGAAGAAGTGCTTATTGTTGAAGATGAAAATGGGAACATCGTTCGTGAAACCATGAAGGACAATGATGTTCTTGTCCAATATAAGATAATGCGGGAGACATTAATCTACCTCTCACACCTTGACCATGATGATACCGAGAAGCAGATGTTGAGGAAGCTAAACAAACAATTAAGTGGGGAGGAATGGGCATGGAACAATTTGAACACTTTGTGCTGGGCTATTGGGTCTATTTCCGGATCTATGGCAGAAGATCAGGAAAACAGGTTTTTGGTGATGGTCATTCGTGATTTGTTGAATTTATGTGAAATTACCAAGGGAAAAGACAATAAAGCCGTTATTGCAAGCAACATCATGTATGTCGTTGGCCAGTATCCAAGATTCTTAAGGGCCCATTGGAAGTTTTTGAAGACAGTTGTGAACAAGTTGTTTGAATTCATGCATGAAACACATCCTGGTGTTCAGGACATGGCCTGTGATACATTCTTGAAAATAGTTCAAAAGTGCAAGCGAAAATTCGTTATTGTACAGGTTGGAGAGAATGAACCATTTGTATCTGAACTTCTAACAGGCCTTGCAACAACTGTTCAAGATCTTGAGCCTCATCAAATACACTCATTTTATGAATCAGTTGGTAATATGATCCAAGCAGAATCAGATCCTCAGAAGAGAGATGAATATCTCCAGAGGTTGATGGCACTCCCCAACCAGAAATGGGCAGAAATCATAGGACAGGCACGCCACAGTGTAGAATTCCTCAAGGATCAAGTTGTGATACGTACAGTGCTAAACATCCTACAGACTAATACTAGTGCTGCTACTTCACTGGGAACATACTTCTTATCCCAAATTTCCTTGATTTTCTTGGATATGTTGAATGTATACAGAATGTACAGTGAGCTTGTGTCAACCAACATTACTGAGGGAGGACCATATGCTTCCAAGACATCTTTTGTAAAACTCTTAAGATCGGTTAAGAGGGAAACACTTAAGCTGATAGAAACCTTTTTAGACAAAGCTGAAGACCAGCCACACATAGGGAAACAATTTGTGCCGCCAATGATGGAATCAGTACTTGGTGACTATGCGAGGAATGTGCCTGATGCTAGGGAATCCGAAGTTCTTTCACTCTTTGCAACGATTATAAACAAGTACAAGGCAACAATGTTAGACGACGTGCCTCACATATTTGAAGCTGTATTCCAGTGTACATTGGAGATGATAACTAAGAACTTTGAAGATTATCCAGAACACCGCCTCAAGTTTTTCTCATTACTCCGTGCTATTGCTACGTTTTGTTTCCCTGCCTTGATAAAGTTATCAAGTCCGCAACTGAAGCTAGTGATGGATTCAATTATCTGGGCATTTAGACATACTGAGAGAAATATTGCTGAAACCGGGCTTAATCTTTTGCTTGAGATGCTGAAAAACTTTCAGCAATCTGAATTTTGTAATCAATTCTACCGGTCATACTTTATGCAAATCGAGCAAGAAATATTTGCCGTTTTGACCGATACCTTCCATAAGCCTGGCTTCAAGCTACATGTGTTGGTGCTGCAGCAACTGTTTTGCCTGCCTGAGAGCGGTGCTTTGACAGAACCCTTGTGGGATGCTACAACCGTTCCTTACCCGTATCCGGACAACGTTGCATTTGTTCGCGAATACACCATTAAGCTACTGAGCTCTTCATTCCCAAACATGACTGCAGCAGAGGTCACACAATTTGTGAATGGACTATACGAGTCTAGAAATGACCCGTCTGGATTTAAGAATAACATTCGTGACTTCCTTGTACAGTCTAAGGAGTTTTCCGCTCAGGATAACAAAGATCTCTATGCTGAGGAAGCAGCTGCACAGAGAGAGAGAGAACGTCAAAGAATGCTTTCAATTCCTGGGCTTATTGCTCCTAATGAGATTCAAGACGAGATGGTGGACTCATAAAATTAAGAAGGGTGCAACAAGAAGAAGCTTCCTGTGTTCAATGGGCTGGATTTTTTGTAATCATAGGTTTTTGAAAACAGGAAAGAGTTCAAGGAGAGATTAATTTCCCCGACCGTATCTCTACTACCGTATTCCGAAGCTTCTCAATTCGATTTTGAGGATTGGAAAAGCTAAGAAAACAGAGATCTTTTTGGGGATAAATTAGTGTCTTGTTTGGTTAATTAATTGGGTTTAATGTAGATTTAAACATTAGGGACCTTCTCTAGTTATCTCATATGGTTGGCTCCTTTTTGCTTTGACCTTTTTTTGGGGGTTTGTTTCTATTACTCAGTGATTCGTGTTTTAGGTGCAAGATATTTTTTTAGACTCTATCTTTGTCACCCCCTAGGGGGTTTAAAATTGTAAGATTGACTTGTGGTGATGTTTCTCATTAAAATCGTCCACTTTAAAGTGTGCTTTGACAATTTTATCAAACAAAACTTTGAATTTAGTCATCATTATT
CDS Sequence
Protein Sequence