Gene Details:
- Gene ID: AT4G21150
- Gene Symbol: HAP6, RPN2
- Gene Name: HAPLESS 6, RIBOPHORIN II
- Description: ribophorin II (RPN2) family protein;(source:Araport11)
- TAIR Accession: locus:2127328
- 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:0000293 — guard cell — célula guardiana (Spanish, exact), occlusive cell (exact), 孔辺細胞 (Japanese, exact)
Gene Ontology:
- GO:0009506 — located in — plasmodesma
- GO:0005783 — located in — endoplasmic reticulum
- GO:0006487 — involved in — protein N-linked glycosylation
- GO:0008250 — part of — oligosaccharyltransferase complex
- GO:0005739 — located in — mitochondrion
- GO:0009505 — located in — plant-type cell wall
- GO:0005794 — located in — Golgi apparatus
- GO:0009409 — acts upstream of or within — response to cold
- GO:0005829 — located in — cytosol
- GO:0000325 — located in — plant-type vacuole
Function-related keywords:
Literature:
- Mass spectrometric approach for identifying putative plasma membrane proteins of Arabidopsis leaves associated with cold acclimation. DOI: 10.1046/j.1365-313x.2003.01864.x ; PMID: 14535880
- Arabidopsis hapless mutations define essential gametophytic functions. DOI: 10.1534/genetics.104.029447 ; PMID: 15514068
- Mutants in DEFECTIVE GLYCOSYLATION, an Arabidopsis homolog of an oligosaccharyltransferase complex subunit, show protein underglycosylation and defects in cell differentiation and growth. DOI: 10.1111/j.1365-313X.2005.02392.x ; PMID: 15860005
- Arabidopsis cell wall proteome defined using multidimensional protein identification technology. DOI: 10.1002/pmic.200500046 ; PMID: 16287169
- Mapping the Arabidopsis organelle proteome. DOI: 10.1073/pnas.0506958103 ; PMID: 16618929
- Comparative gene mapping in Arabidopsis lyrata chromosomes 6 and 7 and A. thaliana chromosome IV: evolutionary history, rearrangements and local recombination rates. DOI: 10.1017/S0016672306008287 ; PMID: 17014743
- Membrane proteomic analysis of Arabidopsis thaliana using alternative solubilization techniques. DOI: 10.1021/pr060525b ; PMID: 17432890
- Novel tonoplast transporters identified using a proteomic approach with vacuoles isolated from cauliflower buds. DOI: 10.1104/pp.107.096917 ; PMID: 17660356
- Co-immunoprecipitation-based identification of putative BAX INHIBITOR-1-interacting proteins involved in cell death regulation and plant-powdery mildew interactions. DOI: 10.1111/mpp.12050 ; PMID: 23782494
- Purification and characterization of Arabidopsis thaliana oligosaccharyltransferase complexes from the native host: a protein super-expression system for structural studies. DOI: 10.1111/tpj.13847 ; PMID: 29385647
- A plant receptor domain with functional analogies to animal malectin disables ER stress responses upon infection. DOI: 10.1016/j.isci.2022.103877 ; PMID: 35243239
- The exodomain of the impaired oomycete susceptibility 1 receptor mediates both endoplasmic reticulum stress responses and abscisic acid signalling during downy mildew infection of Arabidopsis. DOI: 10.1111/mpp.13265 ; PMID: 36103373
- Mass spectrometric approach for identifying putative plasma membrane proteins of Arabidopsis leaves associated with cold acclimation. DOI: 10.1046/j.1365-313x.2003.01864.x ; PMID: 14535880
- The hydrophobic proteome of mitochondrial membranes from Arabidopsis cell suspensions. DOI: 10.1016/j.phytochem.2004.03.028 ; PMID: 15276431
- Arabidopsis cell wall proteome defined using multidimensional protein identification technology. DOI: 10.1002/pmic.200500046 ; PMID: 16287169
- Mapping the Arabidopsis organelle proteome. DOI: 10.1073/pnas.0506958103 ; PMID: 16618929
- A proteomics dissection of Arabidopsis thaliana vacuoles isolated from cell culture. DOI: 10.1074/mcp.M600250-MCP200 ; PMID: 17151019
- Quantitative phosphoproteomics of early elicitor signaling in Arabidopsis. DOI: 10.1074/mcp.M600429-MCP200 ; PMID: 17317660
- Membrane proteomic analysis of Arabidopsis thaliana using alternative solubilization techniques. DOI: 10.1021/pr060525b ; PMID: 17432890
Sequences:
cDNA Sequence
- >AT4G21150.2
ATGATGGCCGGAGGTAACGTACGGTTTCTGGTTTTGATACTCGCCGTAGCAATTTGCGGTGCTGCTTCTGTTTTCCAGCCGATCTCAGACTCTCACCGATCTGCGGCTCTGGATGTCTTCGTACCAGTCGATGGATCATACAAAAGCTTGGAGGAGGCATATGAAGCATTAAAGACTTTGGAGATTCTTGGAATTGATAAAAAGTCTGATCTTAGCTCAAAGACTTGTGAGAATGTGGTTAAAGTTCTTCAGTCGTCTTCTTCTACTCTTAAGGATGCATTTTATGCGTTAAACGTTAATGGGATTCTAAAATGTAAAATTGGTGAAGCTGGTCCTAAGGACATTGTTTCTCAACTTCAAGCTGGTGTTAAAGATGCGAAGCTATTGCTTGATTTCTATTATTCTGTCAGAGGCTTGGTGCTGGCTAAGGAGCAATTTCCTGGAACTCATATAAGTCTTGGAGATGCCGAAGCCATTTTCCGTTCCATCAAGTCTCTTAGCCAGAGTGATGGAAGATGGCGCTACAGCTCCAACAATCCCGAATCAAGCACTTTTGCTGCTGGCTTAGCCTATGAAACGCTTGCTGGAGTGATTTCATTAGCACCTTCAGAGTTTGATCCATCTTTGATCCAGTCGGTGAAGACGGGTATCCTGAAGCTTTCTGACAGTATCCAAAAATATGATGATGGGACATTTTATTTTGATGAGAAGTCTGTTGATGCAAGTCAAGGCCCGATCTCAACAACTGCATCAGTTATTAGAGGGCTCACGTCATTTGCAGCTTCAGAATCCACAGGATTGAACCTTCCAGGTGATAAGATAGTTGGTCTGGCCAAATTCTTTCTGGGTGTTGGAATTCCTGGTGATGCCAAGGACTTCTTCAACCAAATAGATGCACTAGCTTGTTTGGAAGACAACAAGTTTTCTGTTCCACTCATCTTGTCTCTTCCATCCACTGTCATTTCATTGACAAAGAAAGAGCCTCTGAAGGTTAAAGTTAGCACTGTACTGGGTTCGAAGGCACCAGCTCTTAGTGTGAAGCTTACACAAGCTCTAAGTTCTAAGTCAGTGGATTCATCTGTAATTAATAACCAGGAGCTTAAGTTTGACGCTGACAGTGCAACGTACTTCCTGGACTCCTTTCCCAAGAACTTTGACATTGGAAAATATACTTTTGTATTTAAGATTGTGCTGGATGAATCAGCACATGAGAAAGTATACATAACTGAAGCTCAAACAAAAGTGCCTATAGCTGCCACAGGAGCTATTAGCATTGAAAATGCAGAAATTGCTGTACTTGACAGTGACATTGGAAGCGTTGAATCTCAGAAAAAGCTAGATTTAACTAAAGATGGAGCGGTATCATTATCAGCAAACCACCTTCAAAAGCTACGCCTGTCATTCCAGTTAACTACTCCACTTGGCAATGCGTTTAAGCCACACCAGGCATTTTTCAAGCTGAAACATGAGTCACAGGTCGAGCATATCTTTCTCGATTTTCTTGGATTGGTTGAGAAGCTCTACTACCTCTCTGGTAAATATGAGATACAGCTAACCATTGGAGATGCTTCTATGGAGAACTCTTTACTGAGTAATATTGGTCACATTGAACTAGACCTACCAGAGCGTCCAGAGAAGGCGACTCGTCCTCCTCTACAGTCTACTGAGCCTTACTCAAGATATGGGCCAAAAGCTGAAATATCACACATATTCAGGATTCCTGAAAAGCTTCCAGCAAAGCAGCTCTCACTAGTTTTCTTGGGTGTTATCGTTCTCCCATTCATCGGTTTCCTGATTGGGCTTACGCGGTTGGGAGTGAACATAAAGAGCTTCCCATCGTCGACTGGATCTGCAATATCCGCTTTACTTTTCCACTGCGGAATTGGAGCTGTTTTGCTTCTATATGTGCTATTCTGGTTGAAGTTGGATCTATTCACGACTCTCAAGGCACTTTCTTTGTTGGGAGTGTTTCTGTTGTTCGTGGGACACAGAACACTATCTCAACTTGCATCAGCATCAAACAAGTTGAAATCTGCTTGAAGAAGAAGAACTCACTATGAAGGATCTTTTTTTGGTTTATGCGTATTTTCAGTTTTGTAGTATTGCTTATAGATTATGGTGATAGACAAATTCAAAAGAAGTTCAGAGTTTACATACTCTCTCAGTTTAGTCTTAAAAAGTAATCAAGAGTCTCTTTCCTTAGCTTTTTTGTTGAACCAAATCAACTAAGATAATGATT - >AT4G21150.1
ATGATGGCCGGAGGTAACGTACGGTTTCTGGTTTTGATACTCGCCGTAGCAATTTGCGGTGCTGCTTCTGTTTTCCAGCCGATCTCAGACTCTCACCGATCTGCGGCTCTGGATGTCTTCGTACCAGTCGATGGATCATACAAAAGCTTGGAGGAGGCATATGAAGCATTAAAGACTTTGGAGATTCTTGGAATTGATAAAAAGTCTGATCTTAGCTCAAAGACTTGTGAGAATGTGGTTAAAGTTCTTCAGTCGTCTTCTTCTACTCTTAAGGATGCATTTTATGCGTTAAACGTTAATGGGATTCTAAAATGTAAAATTGGTGAAGCTGGTCCTAAGGACATTGTTTCTCAACTTCAAGCTGGTGTTAAAGATGCGAAGCTATTGCTTGATTTCTATTATTCTGTCAGAGGCTTGGTGCTGGCTAAGGAGCAATTTCCTGGAACTCATATAAGTCTTGGAGATGCCGAAGCCATTTTCCGTTCCATCAAGTCTCTTAGCCAGAGTGATGGAAGATGGCGCTACAGCTCCAACAATCCCGAATCAAGCACTTTTGCTGCTGGCTTAGCCTATGAAACGCTTGCTGGAGTGATTTCATTAGCACCTTCAGAGTTTGATCCATCTTTGATCCAGTCGGTGAAGACGGGTATCCTGAAGCTTTCTGACAGTATCCAAAAATATGATGATGGGACATTTTATTTTGATGAGAAGTCTGTTGATGCAAGTCAAGGCCCGATCTCAACAACTGCATCAGTTATTAGAGGGCTCACGTCATTTGCAGCTTCAGAATCCACAGGATTGAACCTTCCAGGTGATAAGATAGTTGGTCTGGCCAAATTCTTTCTGGGTGTTGGAATTCCTGGTGATGCCAAGGACTTCTTCAACCAAATAGATGCACTAGCTTGTTTGGAAGACAACAAGTTTTCTGTTCCACTCATCTTGTCTCTTCCATCCACTGTCATTTCATTGACAAAGAAAGAGCCTCTGAAGGTTAAAGTTAGCACTGTACTGGGTTCGAAGGCACCAGCTCTTAGTGTGAAGCTTACACAAGCTCTAAGTTCTAAGTCAGTGGATTCATCTGTAATTAATAACCAGGAGCTTAAGTTTGACGCTGACAGTGCAACGTACTTCCTGGACTCCTTTCCCAAGAACTTTGACATTGGAAAATATACTTTTGTATTTAAGATTGTGCTGGATGAATCAGCACATGAGAAAGTATACATAACTGAAGCTCAAACAAAAGTGCCTATAGCTGCCACAGGAGCTATTAGCATTGAAAATGCAGAAATTGCTGTACTTGACAGTGACATTGGAAGCGTTGAATCTCAGAAAAAGCTAGATTTAACTAAAGATGGAGCGGTATCATTATCAGCAAACCACCTTCAAAAGCTACGCCTGTCATTCCAGTTAACTACTCCACTTGGCAATGCGTTTAAGCCACACCAGGCATTTTTCAAGCTGAAACATGAGTCACAGGTCGAGCATATCTTTCTCGATTTTCTTGGATTGGTTGAGAAGCTCTACTACCTCTCTGGTAAATATGAGATACAGCTAACCATTGGAGATGCTTCTATGGAGAACTCTTTACTGAGTAATATTGGTCACATTGAACTAGACCTACCAGAGCGTCCAGAGAAGGCGACTCGTCCTCCTCTACAGTCTACTGAGCCTTACTCAAGATATGGGCCAAAAGCTGAAATATCACACATATTCAGGATTCCTGAAAAGCTTCCAGCAAAGCAGCTCTCACTAGTTTTCTTGGGTGTTATCGTTCTCCCATTCATCGGTTTCCTGATTGGGCTTACGCGGTTGGGAGTGAACATAAAGAGCTTCCCATCGTCGACTGGATCTGCAATATCCGCTTTACTTTTCCACTGCGGAATTGGAGCTGTTTTGCTTCTATATGTGCTATTCTGGTTGAAGTTGGATCTATTCACGACTCTCAAGGCACTTTCTTTGTTGGGAGTGTTTCTGTTGTTCGTGGGACACAGAACACTATCTCAACTTGCATCAGCATCAAACAAGTTGAAATCTGCTTGAAGAAGAAGAACTCACTATGAAGGATCTTTTTTTGGTTTATGCGTATTTTCAGTTTTGTAGTATTGCTTATAGATTATGGTGATAGACAAATTCAAAAGAAGTTCAGAGTTTACATACTCTCTCAGTTTAGTCTTAAAAAGTAATCAAGAGTCTCTTTCCTTAGCTTTTTTGTTGAACCAAATCAACTAAGATAATGATT - >AT4G21150.3
ATGATGGCCGGAGGTAACGTACGGTTTCTGGTTTTGATACTCGCCGTAGCAATTTGCGGTGCTGCTTCTGTTTTCCAGCCGATCTCAGACTCTCACCGATCTGCGGCTCTGGATGTCTTCGTACCAGTCGATGGATCATACAAAAGCTTGGAGGAGGCATATGAAGCATTAAAGACTTTGGAGATTCTTGGAATTGATAAAAAGTCTGATCTTAGCTCAAAGACTTGTGAGAATGTGGTTAAAGTTCTTCAGTCGTCTTCTTCTACTCTTAAGGATGCATTTTATGCGTTAAACGTTAATGGGATTCTAAAATGTAAAATTGGTGAAGCTGGTCCTAAGGACATTGTTTCTCAACTTCAAGCTGGTGTTAAAGATGCGAAGCTATTGCTTGATTTCTATTATTCTGTCAGAGGCTTGGTGCTGGCTAAGGAGCAATTTCCTGGAACTCATATAAGTCTTGGAGATGCCGAAGCCATTTTCCGTTCCATCAAGTCTCTTAGCCAGAGTGATGGAAGATGGCGCTACAGCTCCAACAATCCCGAATCAAGCACTTTTGCTGCTGGCTTAGCCTATGAAACGCTTGCTGGAGTGATTTCATTAGCACCTTCAGAGTTTGATCCATCTTTGATCCAGTCGGTGAAGACGGGTATCCTGAAGCTTTCTGACAGTATCCAAAAATATGATGATGGGACATTTTATTTTGATGAGAAGTCTGTTGATGCAAGTCAAGGCCCGATCTCAACAACTGCATCAGTTATTAGAGGGCTCACGTCATTTGCAGCTTCAGAATCCACAGGATTGAACCTTCCAGGTGATAAGATAGTTGGTCTGGCCAAATTCTTTCTGGGTGTTGGAATTCCTGGTGATGCCAAGGACTTCTTCAACCAAATAGATGCACTAGCTTGTTTGGAAGACAACAAGTTTTCTGTTCCACTCATCTTGTCTCTTCCATCCACTGTCATTTCATTGACAAAGAAAGAGCCTCTGAAGGTTAAAGTTAGCACTGTACTGGGTTCGAAGGCACCAGCTCTTAGTGTGAAGCTTACACAAGCTCTAAGTTCTAAGTCAGTGGATTCATCTGTAATTAATAACCAGGAGCTTAAGTTTGACGCTGACAGTGCAACGTACTTCCTGGACTCCTTTCCCAAGAACTTTGACATTGGAAAATATACTTTTGTATTTAAGATTGTGCTGGATGAATCAGCACATGAGAAAGTATACATAACTGAAGCTCAAACAAAAGTGCCTATAGCTGCCACAGGAGCTATTAGCATTGAAAATGCAGAAATTGCTGTACTTGACAGTGACATTGGAAGCGTTGAATCTCAGAAAAAGCTAGATTTAACTAAAGATGGAGCGGTATCATTATCAGCAAACCACCTTCAAAAGCTACGCCTGTCATTCCAGTTAACTACTCCACTTGGCAATGCGTTTAAGCCACACCAGGCATTTTTCAAGCTGAAACATGAGTCACAGGTCGAGCATATCTTTCTCGATTTTCTTGGATTGGTTGAGAAGCTCTACTACCTCTCTGGTAAATATGAGATACAGCTAACCATTGGAGATGCTTCTATGGAGAACTCTTTACTGAGTAATATTGGTCACATTGAACTAGACCTACCAGAGCGTCCAGAGAAGGCGACTCGTCCTCCTCTACAGTCTACTGAGCCTTACTCAAGATATGGGCCAAAAGCTGAAATATCACACATATTCAGGATTCCTGAAAAGCTTCCAGCAAAGCAGCTCTCACTAGTTTTCTTGGGTGTTATCGTTCTCCCATTCATCGGTTTCCTGATTGGGCTTACGCGGTTGGGAGTGAACATAAAGAGCTTCCCATCGTCGACTGGATCTGCAATATCCGCTTTACTTTTCCACTGCGGAATTGGAGCTGTTTTGCTTCTATATGTGCTATTCTGGTTGAAGTTGGATCTATTCACGACTCTCAAGGCACTTTCTTTGTTGGGAGTGTTTCTGTTGTTCGTGGGACACAGAACACTATCTCAACTTGCATCAGCATCAAACAAGTTGAAATCTGCTTGAAGAAGAAGAACTCACTATGAAGGATCTTTTTTTGGTTTATGCGTATTTTCAGTTTTGTAGTATTGCTTATAGATTATGGTGATAGACAAATTCAAAAGAAGTTCAGAGTTTACATACTCTCTCAGTTTAGTCTTAAAAAGTAATCAAGAGTCTCTTTCCTTAGCTTTTTTGTTGAACCAAATCAACTAAGATAATGATT
CDS Sequence
Protein Sequence