Gene Details:
- Gene ID: AT5G35080
- Gene Symbol: AtOS9, OS9
- Gene Name: OS9
- Description: ER lectin-like protein;(source:Araport11)
- TAIR Accession: locus:2150361
- 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:0009651 — acts upstream of or within — response to salt stress
- GO:0030433 — acts upstream of or within — ubiquitin-dependent ERAD pathway
- GO:0009536 — located in — plastid
- GO:0030970 — involved in — retrograde protein transport, ER to cytosol
- GO:0030968 — involved in — endoplasmic reticulum unfolded protein response
- GO:0030433 — involved in — ubiquitin-dependent ERAD pathway
- GO:0036503 — acts upstream of or within — ERAD pathway
- GO:0005788 — is active in — endoplasmic reticulum lumen
- GO:0005515 — enables — protein binding
- GO:0005783 — located in — endoplasmic reticulum
Function-related keywords:
Literature:
- Genomic analysis of the unfolded protein response in Arabidopsis shows its connection to important cellular processes. DOI: 10.1105/tpc.007609 ; PMID: 12566592
- The Arabidopsis homolog of the mammalian OS-9 protein plays a key role in the endoplasmic reticulum-associated degradation of misfolded receptor-like kinases. DOI: 10.1093/mp/sss042 ; PMID: 22516478
- A context-independent N-glycan signal targets the misfolded extracellular domain of Arabidopsis STRUBBELIG to endoplasmic-reticulum-associated degradation. DOI: 10.1042/BJ20141057 ; PMID: 25251695
- SIMP1 modulates salt tolerance by elevating ERAD efficiency through UMP1A-mediated proteasome maturation in plants. DOI: 10.1111/nph.17628 ; PMID: 34273177
Sequences:
cDNA Sequence
- >AT5G35080.1
GTCGAATTTTAATTGGATGTCCTGCGTGGCCGTCTTATTAGTCACATCACCGCAGCTAATAACACTCGACGAGCGACCTCATCGTCTACATCGCCGTCGCCTGTTACCGTCCGGTGCTATTCTCCTTCACAATCTCACATTTTTCGTACCGGTTAGAAGATGAGAATCACGCAGATCTTGTTATGTCTGGTAATAGTGGCATTGTCTTCAAGCTCCCATGTCTGGTCCGATCAGATCTTCCCAGCTCATCTAGTTGGAACATTCAGCAGAAACAATCGTGAACCAAAGTACAAGATTGAGTTCCTTCCTGAAGATTCACCTTTTCACCCGGGTGATAATCTGGAATCAATGGTTATGTTGGATAAGCATGGAAATCGGTTTTTATGTTACTTACCGAAAGAGGAAAAAGCGACGAGTGGATGGACTTCTAGTCAGCAAAATATTAGTACTGTGATGATGGAAACACAGCAACTGGTGAAGCTAAAGACTCCTGATGAATTGCTTCAACCACTTAGTGAAAAATGTCTTTTTAGGCAAGAGGGTTGGTGGTCTTATGAGTTTTGTCATCAGAAGTATGTGCGGCAGCTACACGTTGAGGATGAAAACAAGATTGTTCAAGAGTTTTTTTTGGGTACTTTTGACCCAGAGGCAACTGCGGCGTTTAATCAAACTGTTTCTGATGCTTCAACTGATGCATCTCAGAGGTATCACTCTCATGTATACACCAATGGGACCACCTGTGATCTTACAGGATCACCTCGCGAAGTCGAGGTGAGGTTTGTATGCGCAGAAACAAGGGCAATGGTCACTTCAATCACTGAATTATCAACTTGCAAGTACGCACTGACTGTTCAGTGCCCAACCTTGTGCAAGCATCCGCTGTTCCAGCTAGAGAAACCAGTGTCACACACGATCCACTGCAATGCGATCCCAGTGGAAGAAGACGCAACAAGAAACAAGGAAGAACAAGCAGTAGACGAATCACCTAAGATGATAGCTGATTCTTGAAAACCGCCTAAGTGAATCACCTAAGAGTAAGAGTTAACAGCGACTGTATATACAAGAACTAGCATATCTCCATTTTCAGTGTTACCCGCTGTAGTGATCATGGTTTCAATTGGGATCGCTTGCTGGTAGGATGATGATACTCTCTCTGTAATTTTTTGCATACTTAAAATAGCATTTCAATAGAAGGTACTGATAAACCACTTGTGAAGCAAAGACTGCAAGCTTCATGTAACACATATGTTTCCGTTTCACTAATGAATTTGTTCCAAGTGTAGGCTGATTTTGTGTGTGTTTCTTCTATTTTGGTAAAGTTATATATTTGTAATCGAAGAATATGTTTACAAATTGATATTTAAAGTAAATTTGACAACTAAAAACCTTTGGTTTTTAACAAGT
CDS Sequence
Protein Sequence