Gene Details:

  • Gene ID: AT5G08560
  • Gene Symbol: ATWDR26, WDR26, WDS1
  • Gene Name: WD-40 repeat 26
  • Description: transducin family protein / WD-40 repeat family protein;(source:Araport11)
  • TAIR Accession: locus:2159562
  • 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)
  • PO:0000084  — plant sperm cell — célula espermática o esperma (Spanish, exact), male gamete (exact), microgamete (exact), 植物精子細胞 (Japanese, exact), sperm nucleus (related), sperm cell (broad)

Gene Ontology:

  • GO:0005737  — located in — cytoplasm
  • GO:0006970  — acts upstream of or within — response to osmotic stress
  • GO:0010150  — acts upstream of or within — leaf senescence
  • GO:0009416  — acts upstream of or within — response to light stimulus
  • GO:0009733  — acts upstream of or within — response to auxin
  • GO:0009723  — acts upstream of or within — response to ethylene
  • GO:0005634  — located in — nucleus
  • GO:0009737  — acts upstream of or within — response to abscisic acid
  • GO:0005515  — enables — protein binding
  • GO:0009646  — acts upstream of or within — response to absence of light

Germplasm Phenotype:

  • SALK_095495  — Seedlings of KO lines exhibited greener and larger cotyledons under light grown condition, but without change in hypocotyl growth. Phenotypes of seedling growth in the KO lines resembled the typical physiological responses regulated by photoreceptors such as chloroplast accumulation in cotyledons.However, seed germination rate of the KO lines was similar to that of wild-type under light grown conditions.
  • SALK_100917  — ROS accumulation and altered tolerance of oxidative stress. Smaller leaves and early flowering time. Leaf yellowing in the fifth and sixth leaves of seedlings 35d post-germination. Accelerated dark-induced leaf senescence
  • SALK_100917C  — Seedlings of KO lines exhibited greener and larger cotyledons under light grown condition, but without change in hypocotyl growth. Phenotypes of seedling growth in the KO lines resembled the typical physiological responses regulated by photoreceptors such as chloroplast accumulation in cotyledons.However, seed germination rate of the KO lines was similar to that of wild-type under light grown conditions.

Literature:

Sequences:

cDNA Sequence
  • >AT5G08560.3
    TCTCTCTCCTTTTCATCTTCTTTAACGCTTCTCTTTTCCAGAACTTGCTCTCTCTCTCTCTTTCTATCATCTCCTCACCGCTTCCTAAATCTCTATAGCGGTCTTCCTTCCCTCCTTTGTTTCCGGGCTGTTCCTTAATCACTATCTCTTTCTCTTTCTTCTGCCATCGCCAAACCTTATCTGGGTTTTGCTTCTTATTTGATTTATATGGGCTGAACTAGGAATTTCATGGGAGTTGTGGAGGATACTGAACCTCCTTTGAAACGTGCTAAGAGGCTTGCTGACGAACCGAACGGCTTCTCCGCGAACTCGTCTGTTAGAGGTAGTAGTGTGAACAGCAACTCTTTGGGAGACCTGATGGCAAGGCCTCTGCCCTCCCAAGGGGATGACGAAACTATCGGCTCCAAAGGGGTCATTAGAAAATCTGAATTCGTTAGGATTATCACTAGGGCTCTTTATTCTCTTGGATATGATAAAACCGGGGCTATGTTGGAGGAAGAATCCGGTATCTCTCTGCACAATTCCACCATTAAGCTGTTTCTGCAGCAGGTTAAGGACGGCAAATGGGATCAAAGTGTTAAAACATTGCACAGAATCGGTTTCCCTGATGAGAAGGCTGTCAAGGCTGCGTCTTTCTTGCTCCTAGAGCAAAAGTTCTTGGAGTTTCTCAAAGTTGAAAAGATAGCTGATGCGCTACGCACCTTAAGGAATGAGATGGCGCCTCTTCGTATTAATACAAAGCGTGTTCATGAGCTCGCTTCCTCCCTTATATCACCTTCAAGCTTTATATCACATACCACTTCGACTCCAGGTAAAGAAAGTGTGAATTCAAGGTCTAAGGTTTTGGAGGAACTGCAAACCTTGCTTCCTGCTTCTGTTATAATCCCAGAAAAGAGGTTGGAGTGTTTAGTTGAGAATTCACTTCATATTCAGCGGGATTCTTGTGTTTTCCATAATACTTTGGATAGTGATTTGTCTTTGTATTCTGATCATCAATGCGGGAAGCACCAAATTCCTTCTCAGACTGCTCAGATCTTGGAGTCACATACCGATGAAGTTTGGTTCTTGCAATTTTCACATAATGGCAAATATTTGGCTTCATCTTCCAAGGATCAAACCGCAATTATATGGGAGATCAGCGCAGATGGGCACATTTCATTGAAGCATACACTTGTTGGCCACCACAAACCCGTGATTGCCATCTTATGGAGTCCTGATGATCGTCAAGTTCTTACATGTGGAGCAGAAGAGGTTATCAGACGCTGGGATGTTGATTCAGGAGACTGTGTTCACATGTATGAAAAAGGCGGTATCAGTCCCATTTCTTGCGGATGGTATCCTGATGGGCAGGGGATAATCGCCGGGATGACAGACCGAAGCATCTGCATGTGGGATTTAGATGGTAGAGAGAAGGAATGCTGGAAAGGTCAGAGGACTCAAAAGGTATCAGATATAGCAATGACGGATGATGGAAAGTGGCTCGTAAGTGTATGCAAAGATTCCGTGATATCACTATTTGATAGAGAAGCTACAGTTGAGAGATTAATAGAAGAGGAAGACATGATTACCTCGTTCTCGCTTTCGAATGACAACAAATATATCCTGGTAAACCTCCTCAACCAGGAAATCCGTCTCTGGAATATTGAAGGTGACCCCAAGATTGTGTCGAGATACAAAGGCCACAAGCGTTCACGATTCATCATCAGATCATGCTTTGGTGGGTATAAACAAGCTTTCATCGCTAGCGGAAGCGAGGACTCTCAGGTATATATATGGCACAGATCTACAGGGAAGTTAATAGTTGAGCTACCAGGCCATGCAGGAGCAGTTAACTGCGTGAGCTGGAGCCCGACGAATCTACACATGTTGGCTTCAGCAAGCGATGATGGAACAATAAGGATATGGGGACTTGACCGGATTAACCAACAAAACCAGAAGAAGAAGCTAGTGCAAGGAAGTAGCAGTAATGGTGTGATTCACCGATGCAATGGGAATTGATTATGATAAAAAAAAAAGGAATGACCTTCTTAAAACTATTTAACAGTTATGTTGTTTCTTCTTTCTTCATCAGCCTCTTTTTGTTTGCTTCCTTTGGTATGGAAAGCAAACGAAAGAAGGTAAAAGCTGTTTTTTTTTTTCAAATTCTGAACCCATAAGTGGAAGGAACAAAAAGGAAAAAGAAAATGCAATTTGCAACATAATTCTTCTATTGATGTTACATTGTAC
  • >AT5G08560.2
    TCTCTCTCCTTTTCATCTTCTTTAACGCTTCTCTTTTCCAGAACTTGCTCTCTCTCTCTCTTTCTATCATCTCCTCACCGCTTCCTAAATCTCTATAGCGGTCTTCCTTCCCTCCTTTGTTTCCGGGCTGTTCCTTAATCACTATCTCTTTCTCTTTCTTCTGCCATCGCCAAACCTTATCTGGGTTTTGCTTCTTATTTGATTTATATGGGCTGAACTAGGAATTTCATGGGAGTTGTGGAGGATACTGAACCTCCTTTGAAACGTGCTAAGAGGCTTGCTGACGAACCGAACGGCTTCTCCGCGAACTCGTCTGTTAGAGGTAGTAGTGTGAACAGCAACTCTTTGGGAGACCTGATGGCAAGGCCTCTGCCCTCCCAAGGGGATGACGAAACTATCGGCTCCAAAGGGGTCATTAGAAAATCTGAATTCGTTAGGATTATCACTAGGGCTCTTTATTCTCTTGGATATGATAAAACCGGGGCTATGTTGGAGGAAGAATCCGGTATCTCTCTGCACAATTCCACCATTAAGCTGTTTCTGCAGCAGGTTAAGGACGGCAAATGGGATCAAAGTGTTAAAACATTGCACAGAATCGGTTTCCCTGATGAGAAGGCTGTCAAGGCTGCGTCTTTCTTGCTCCTAGAGCAAAAGTTCTTGGAGTTTCTCAAAGTTGAAAAGATAGCTGATGCGCTACGCACCTTAAGGAATGAGATGGCGCCTCTTCGTATTAATACAAAGCGTGTTCATGAGCTCGCTTCCTCCCTTATATCACCTTCAAGCTTTATATCACATACCACTTCGACTCCAGGTAAAGAAAGTGTGAATTCAAGGTCTAAGGTTTTGGAGGAACTGCAAACCTTGCTTCCTGCTTCTGTTATAATCCCAGAAAAGAGGTTGGAGTGTTTAGTTGAGAATTCACTTCATATTCAGCGGGATTCTTGTGTTTTCCATAATACTTTGGATAGTGATTTGTCTTTGTATTCTGATCATCAATGCGGGAAGCACCAAATTCCTTCTCAGACTGCTCAGATCTTGGAGTCACATACCGATGAAGTTTGGTTCTTGCAATTTTCACATAATGGCAAATATTTGGCTTCATCTTCCAAGGATCAAACCGCAATTATATGGGAGATCAGCGCAGATGGGCACATTTCATTGAAGCATACACTTGTTGGCCACCACAAACCCGTGATTGCCATCTTATGGAGTCCTGATGATCGTCAAGTTCTTACATGTGGAGCAGAAGAGGTTATCAGACGCTGGGATGTTGATTCAGGAGACTGTGTTCACATGTATGAAAAAGGCGGTATCAGTCCCATTTCTTGCGGATGGTATCCTGATGGGCAGGGGATAATCGCCGGGATGACAGACCGAAGCATCTGCATGTGGGATTTAGATGGTAGAGAGAAGGAATGCTGGAAAGGTCAGAGGACTCAAAAGGTATCAGATATAGCAATGACGGATGATGGAAAGTGGCTCGTAAGTGTATGCAAAGATTCCGTGATATCACTATTTGATAGAGAAGCTACAGTTGAGAGATTAATAGAAGAGGAAGACATGATTACCTCGTTCTCGCTTTCGAATGACAACAAATATATCCTGGTAAACCTCCTCAACCAGGAAATCCGTCTCTGGAATATTGAAGGTGACCCCAAGATTGTGTCGAGATACAAAGGCCACAAGCGTTCACGATTCATCATCAGATCATGCTTTGGTGGGTATAAACAAGCTTTCATCGCTAGCGGAAGCGAGGACTCTCAGGTATATATATGGCACAGATCTACAGGGAAGTTAATAGTTGAGCTACCAGGCCATGCAGGAGCAGTTAACTGCGTGAGCTGGAGCCCGACGAATCTACACATGTTGGCTTCAGCAAGCGATGATGGAACAATAAGGATATGGGGACTTGACCGGATTAACCAACAAAACCAGAAGAAGAAGCTAGTGCAAGGAAGTAGCAGTAATGGTGTGATTCACCGATGCAATGGGAATTGATTATGATAAAAAAAAAAGGAATGACCTTCTTAAAACTATTTAACAGTTATGTTGTTTCTTCTTTCTTCATCAGCCTCTTTTTGTTTGCTTCCTTTGGTATGGAAAGCAAACGAAAGAAGGTAAAAGCTGTTTTTTTTTTTCAAATTCTGAACCCATAAGTGGAAGGAACAAAAAGGAAAAAGAAAATGCAATTTGCAACATAATTCTTCTATTGATGTTACATTGTAC
  • >AT5G08560.1
    TCTCTCTCCTTTTCATCTTCTTTAACGCTTCTCTTTTCCAGAACTTGCTCTCTCTCTCTCTTTCTATCATCTCCTCACCGCTTCCTAAATCTCTATAGCGGTCTTCCTTCCCTCCTTTGTTTCCGGGCTGTTCCTTAATCACTATCTCTTTCTCTTTCTTCTGCCATCGCCAAACCTTATCTGGGTTTTGCTTCTTATTTGATTTATATGGGCTGAACTAGGAATTTCATGGGAGTTGTGGAGGATACTGAACCTCCTTTGAAACGTGCTAAGAGGCTTGCTGACGAACCGAACGGCTTCTCCGCGAACTCGTCTGTTAGAGGTAGTAGTGTGAACAGCAACTCTTTGGGAGACCTGATGGCAAGGCCTCTGCCCTCCCAAGGGGATGACGAAACTATCGGCTCCAAAGGGGTCATTAGAAAATCTGAATTCGTTAGGATTATCACTAGGGCTCTTTATTCTCTTGGATATGATAAAACCGGGGCTATGTTGGAGGAAGAATCCGGTATCTCTCTGCACAATTCCACCATTAAGCTGTTTCTGCAGCAGGTTAAGGACGGCAAATGGGATCAAAGTGTTAAAACATTGCACAGAATCGGTTTCCCTGATGAGAAGGCTGTCAAGGCTGCGTCTTTCTTGCTCCTAGAGCAAAAGTTCTTGGAGTTTCTCAAAGTTGAAAAGATAGCTGATGCGCTACGCACCTTAAGGAATGAGATGGCGCCTCTTCGTATTAATACAAAGCGTGTTCATGAGCTCGCTTCCTCCCTTATATCACCTTCAAGCTTTATATCACATACCACTTCGACTCCAGGTAAAGAAAGTGTGAATTCAAGGTCTAAGGTTTTGGAGGAACTGCAAACCTTGCTTCCTGCTTCTGTTATAATCCCAGAAAAGAGGTTGGAGTGTTTAGTTGAGAATTCACTTCATATTCAGCGGGATTCTTGTGTTTTCCATAATACTTTGGATAGTGATTTGTCTTTGTATTCTGATCATCAATGCGGGAAGCACCAAATTCCTTCTCAGACTGCTCAGATCTTGGAGTCACATACCGATGAAGTTTGGTTCTTGCAATTTTCACATAATGGCAAATATTTGGCTTCATCTTCCAAGGATCAAACCGCAATTATATGGGAGATCAGCGCAGATGGGCACATTTCATTGAAGCATACACTTGTTGGCCACCACAAACCCGTGATTGCCATCTTATGGAGTCCTGATGATCGTCAAGTTCTTACATGTGGAGCAGAAGAGGTTATCAGACGCTGGGATGTTGATTCAGGAGACTGTGTTCACATGTATGAAAAAGGCGGTATCAGTCCCATTTCTTGCGGATGGTATCCTGATGGGCAGGGGATAATCGCCGGGATGACAGACCGAAGCATCTGCATGTGGGATTTAGATGGTAGAGAGAAGGAATGCTGGAAAGGTCAGAGGACTCAAAAGGTATCAGATATAGCAATGACGGATGATGGAAAGTGGCTCGTAAGTGTATGCAAAGATTCCGTGATATCACTATTTGATAGAGAAGCTACAGTTGAGAGATTAATAGAAGAGGAAGACATGATTACCTCGTTCTCGCTTTCGAATGACAACAAATATATCCTGGTAAACCTCCTCAACCAGGAAATCCGTCTCTGGAATATTGAAGGTGACCCCAAGATTGTGTCGAGATACAAAGGCCACAAGCGTTCACGATTCATCATCAGATCATGCTTTGGTGGGTATAAACAAGCTTTCATCGCTAGCGGAAGCGAGGACTCTCAGGTATATATATGGCACAGATCTACAGGGAAGTTAATAGTTGAGCTACCAGGCCATGCAGGAGCAGTTAACTGCGTGAGCTGGAGCCCGACGAATCTACACATGTTGGCTTCAGCAAGCGATGATGGAACAATAAGGATATGGGGACTTGACCGGATTAACCAACAAAACCAGAAGAAGAAGCTAGTGCAAGGAAGTAGCAGTAATGGTGTGATTCACCGATGCAATGGGAATTGATTATGATAAAAAAAAAAGGAATGACCTTCTTAAAACTATTTAACAGTTATGTTGTTTCTTCTTTCTTCATCAGCCTCTTTTTGTTTGCTTCCTTTGGTATGGAAAGCAAACGAAAGAAGGTAAAAGCTGTTTTTTTTTTTCAAATTCTGAACCCATAAGTGGAAGGAACAAAAAGGAAAAAGAAAATGCAATTTGCAACATAATTCTTCTATTGATGTTACATTGTAC
CDS Sequence
Protein Sequence