Gene Details:

  • Gene ID: AT5G13160
  • Gene Symbol: PBS1
  • Gene Name: avrPphB susceptible 1
  • Description: Protein kinase superfamily protein;(source:Araport11)
  • TAIR Accession: locus:2179857
  • 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)

Gene Ontology:

  • GO:0046777  — acts upstream of or within — protein autophosphorylation
  • GO:0042742  — acts upstream of or within — defense response to bacterium
  • GO:0005515  — enables — protein binding
  • GO:0004672  — enables — protein kinase activity
  • GO:0005634  — located in — nucleus
  • GO:0005886  — located in — plasma membrane
  • GO:0004674  — enables — protein serine/threonine kinase activity
  • GO:0042742  — involved in — defense response to bacterium
  • GO:0006952  — acts upstream of or within — defense response
  • GO:0045087  — involved in — innate immune response
  • GO:0002221  — involved in — pattern recognition receptor signaling pathway

Germplasm Phenotype:

  • CS3872  — susceptible to Pseudomonas syringae expressing avrPphB avirulence gene; completely blocks resistance mediated by the RPS5 gene; lacks hypersensitive response in HR assay as well as in transient expression assay; exhibits little to no effect on resistance specified by other disease resistance genes, facilitating recognition of the avrPphB protein; segregating for glabrous phenotype.
  • CS3873  — susceptible to Pseudomonas syringae expressing avrPphB avirulence gene; completely blocks resistance mediated by the RPS5 gene; lacks hypersensitive response in HR assay as well as in transient expression assay; exhibits little to no effect on resistance specified by other disease resistance genes, facilitating recognition of the avrPphB protein.

Literature:

Sequences:

cDNA Sequence
  • >AT5G13160.1
    GTCAACGAGAAAAGTTTCGAAGGAAGGATTTACTGAGAGTTTCAGCAACGCGTCATTGTTAATTCGCAATTGGTAATAGTGTGAACACTCGTGGACGACAAAAGAAGCTGCTTCTTCATCTCTCTCTCTCTCCTTCTCTTTCTCTCTCAACTCCAATTCGTTTTTACCAGTTTCGAATCTGAACAAAGTTGGGTTTTTTATTGGTACCCAGAATCTCAATTCTCCTTCTTTCCTTCTGGGTATAGGAAAAGTCTCGCCTTTTTTTATATTTATCCAATCGCTCCTGTTCATTGATTCCCCAGTAGGATTGTAGTTTTTGGTTATTGGGAAAATTGAGTAAAGGAGGAGATGGGTTGTTTCTCGTGTTTTGATTCGAGTGATGACGAGAAGCTGAATCCAGTTGATGAATCTAATCATGGTCAGAAGAAACAATCACAACCGACAGTATCCAATAACATATCTGGACTCCCTTCAGGTGGGGAGAAGCTTAGCTCAAAGACCAATGGAGGATCAAAAAGGGAGCTACTGCTTCCAAGGGATGGACTTGGACAAATTGCTGCTCATACATTTGCTTTCCGCGAGCTTGCTGCTGCAACTATGAACTTTCATCCTGACACTTTCTTAGGCGAAGGTGGATTTGGACGTGTCTACAAAGGAAGGCTTGACAGCACCGGTCAGGTTGTTGCTGTTAAACAACTAGACAGGAATGGTCTACAAGGTAACAGAGAATTTCTGGTAGAGGTTCTTATGCTCAGTCTTCTTCATCATCCCAACTTAGTCAACCTTATTGGTTATTGTGCTGATGGAGATCAACGCCTCTTGGTCTACGAGTTTATGCCGTTAGGATCATTGGAAGATCACCTCCACGATCTTCCACCGGATAAGGAGGCCTTAGATTGGAACATGAGAATGAAAATAGCTGCTGGTGCGGCGAAAGGATTGGAATTTCTACATGATAAGGCAAACCCTCCGGTTATTTATAGAGATTTTAAGTCATCAAATATTTTACTGGATGAGGGTTTCCACCCTAAGCTTTCTGATTTTGGACTTGCTAAACTCGGACCAACGGGAGACAAATCTCATGTCTCCACTAGAGTTATGGGAACTTATGGTTATTGTGCTCCCGAGTACGCAATGACGGGACAATTGACAGTAAAATCAGATGTCTACAGTTTTGGTGTGGTTTTTCTCGAGCTCATTACTGGTCGCAAAGCTATAGACAGCGAGATGCCTCATGGAGAGCAGAACCTGGTGGCTTGGGCTCGCCCATTGTTCAACGACAGGCGAAAGTTCATAAAACTGGCTGATCCAAGGTTAAAGGGGCGGTTTCCAACGCGTGCACTCTACCAAGCTTTAGCTGTGGCATCAATGTGCATCCAAGAACAGGCGGCTACACGTCCTCTCATAGCAGATGTTGTCACTGCACTCTCCTATCTTGCAAACCAAGCTTATGATCCAAGTAAAGATGATAGTAGAAGAAACCGGGATGAAAGAGGTGCAAGGTTAATAACAAGGAACGACGATGGAGGTGGCTCGGGAAGTAAATTCGATTTAGAAGGTTCAGAGAAAGAAGATTCACCGAGAGAGACAGCTCGGATATTGAACCGAGATATCAATAGGGAGCGTGCGGTTGCAGAGGCTAAGATGTGGGGAGAGAGTTTGAGGGAGAAACGAAGACAGAGCGAGCAGGGTACTTCAGAGAGCAACAGTACCGGGTAGAACCGGTTTGGGTCGGTCTTGACCCTTTTTTGTTCTTATTTCTCTCAAGACTCTCATTTATTGTCAAACATAGAAAACAAACAAAAAAACATTGGGACGACGAGTTGCTGTACATTATATATGTGATGTTGCAATATGGGCACAAAGGTTAATAACCAAAACTCTCTAATTGAGATTCTGGAGAGTTGTGAAGATTGTTCATGTAAATTTTGTAGTCTTTCTATTTTTAAATTTTGACAGATATGTGTTTCATGATGAGTCACATGTGGCGATGTTTACGTCTCATTGAAAGATTGAATAGCAAAGATCCAATATTAAGTGTTTCTG
CDS Sequence
Protein Sequence