Information report for AT5G19690
Gene Details
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Functional Descriptions
- 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)
- GO:0009536 — located in — plastid
- GO:0006486 — involved in — protein glycosylation
- GO:0004576 — enables — oligosaccharyl transferase activity
- GO:0005783 — located in — endoplasmic reticulum
- GO:0004579 — enables — dolichyl-diphosphooligosaccharide-protein glycotransferase activity
- GO:0047484 — involved in — regulation of response to osmotic stress
- GO:0009651 — acts upstream of or within — response to salt stress
- GO:0009507 — located in — chloroplast
- CS16368 — Stunted root growth with bushy appearance; roots are shorter, more branched and hairy than wild type, revealing synergistic effects of cgl1-3 and stt3a-2 in this double mutant.
- CS6388 — Sensitive to salt (NaCl and KCl) and to nonionic hyperosmotic stress; decreased protein glycosylation, BiP hyperexpression, and reduced CycB1;1 expression in seedlings; reduced cell division in root meristems, linked to improper glycosylation and protein folding.
- CS800052 — Sensitive to salt (NaCl and KCl) and to nonionic hyperosmotic stress; decreased protein glycosylation, BiP hyperexpression, and reduced CycB1;1 expression in seedlings; reduced cell division in root meristems, linked to improper glycosylation and protein folding.
Functional Keywords
Literature and News
- The STT3a subunit isoform of the Arabidopsis oligosaccharyltransferase controls adaptive responses to salt/osmotic stress. DOI: 10.1105/tpc.013862 ; PMID: 12972670
- Identification of plant stress-responsive determinants in Arabidopsis by large-scale forward genetic screens. DOI: 10.1093/jxb/erj093 ; PMID: 16513815
- Mapping the Arabidopsis organelle proteome. DOI: 10.1073/pnas.0506958103 ; PMID: 16618929
- Membrane proteomic analysis of Arabidopsis thaliana using alternative solubilization techniques. DOI: 10.1021/pr060525b ; PMID: 17432890
- Receptor quality control in the endoplasmic reticulum for plant innate immunity. DOI: 10.1038/emboj.2009.263 ; PMID: 19763087
- Control of the pattern-recognition receptor EFR by an ER protein complex in plant immunity. DOI: 10.1038/emboj.2009.262 ; PMID: 19763086
- ER quality control components UGGT and STT3a are required for activation of defense responses in bir1-1. DOI: 10.1371/journal.pone.0120245 ; PMID: 25775181
- Endogenous Arabidopsis messenger RNAs transported to distant tissues. DOI: 10.1038/nplants.2015.25 ; PMID: 27247031
- Specific control of Arabidopsis BAK1/SERK4-regulated cell death by protein glycosylation. DOI: 10.1038/nplants.2015.218 ; PMID: 27250875
- 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
- Multiple Quality Control Mechanisms in the ER and TGN Determine Subcellular Dynamics and Salt-Stress Tolerance Function of KORRIGAN1. DOI: 10.1105/tpc.19.00714 ; PMID: 31852774
- Mapping the Arabidopsis organelle proteome. DOI: 10.1073/pnas.0506958103 ; PMID: 16618929
- 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
Gene Resources
- UniProt: A0A1P8BFQ7
- EMBL: CP002688
- AlphaFoldDB: A0A1P8BFQ7
- EnsemblPlants: AT5G19690.2
- Gramene: AT5G19690.2
- ExpressionAtlas: AT5G19690
- InterPro: IPR003674, IPR048307, IPR048999
- PANTHER: PTHR13872, PTHR13872:SF48
- Gene3D: 3.40.50.12610
- OrthoDB: A0A1P8BFQ7
- SWISS-MODEL: A0A1P8BFQ7
Sequences
cDNA Sequence
- >AT5G19690.2
TTCCACGAAGGCTGGGTCAGTCGTTTGTTTACTAGTTACCGCAGCTCAAACATGTAATTCCCGTGAGAGATTGTTTTGCCGGAGATAGTAGTTTTCGCGTCTCCAAAAACCCTTCGACCTTTGCCGGAGATAGTAGTTCCTCACTCTCTTTAATCCGATTCATCGAGCCGGAGAGCTCACCTTCCGCCGCGTAAAATGGCGGCTCTAGAAAGCCCACTGCCGGGAACGCCGACTGCGATGAGGAATGCTTTCGGCAACGTTTTATCAGTCCTGATCCTCGTCCTCATTGGTGTCCTCGCTTTCTCGATCCGACTCTTCTCTGTGAGTTCACTGATGTTTCTGCTTGGTTGATTCATTTCAGTGTTCTTCAATTTGTTAGGCTTTAGATCCGATCGGACTAGTTTAGATCCGACTAATCTAGATCCGATCTCATGATTTGAGATTGATTGGTGTAACTTCGTTTCTCTCCTCACTGTCTCTGTGTTAAAGAAACAGATTGTTGTTGTTACTTGTTATTTAACGCTGCGTCGGAGAGATATTGTTCCTCGTCGTAGTGATGGTTATAAAGTATGAAAGTGTGATTCATGAGTTTGATCCTTACTTCAATTATAGAGTCACTCAGTTCTTATCGAAGAATGGAATATACGAGTTCTGGAATTGGTTTGATGATAGGACCTGGTATCCTCTTGGCCGTGTGATTGGAGGAACTGTTTACCCTGGGTTAACTTTGACTGCTGGAACCATCTGGTGGGGATTAAATTCATTAAACATTCCTCTGTCAGTAGAGACTGTCTGTGTCTTCACTGCACCTGTATTTTCAGCTTTTGCATCCTGGGCAACTTACCTTTTGACAAAGGAAGTTAAGGGCTCCGGTGCTGGACTTGCAGCTGCTGCTCTTTTGGCCATGGTTCCCTCATATATATCCCGATCTGTAGCTGGTAGCTATGACAATGAAGCTGTTGCCATCTTTGCTTTGATCTTCACTTTTTATCTTTACATAAAGACATTAAATACAGGTTCCTTATTTTATGCCACCCTGAATGCTCTTGCATACTTTTACATGGTATGTTCATGGGGAGGTTACACCTTCATTATCAATCTGATACCAATGCACGTGCTTTTGTGCATTGTAACTGGGCGATACTCTCCCCGACTGTACATTGCCTATGCTCCTTTGGTTGTGTTAGGCACGTTGTTAGCGGCATTGGTGCCTGTTGTTGGTTTCAATGCGGTTTTGACTTCTGAACATTTTGCCTCGTTTTTGGTTTTTATCATCATCCACGTTGTAGCTCTCGTATACTACATCAAAGGCATTCTTTCTCCCAAAATGTTCAAAGTTGCTGTGACACTTGTTGTGTCTATCGGCATGGTTGTGTGTTTCATAGTTGTGGCAATTCTTGTGGCATTGGTGGCTTCAAGTCCAACAGGAGGATGGAGTGGTAGGAGTTTAAGTTTACTTGATCCAACTTATGCAAGCAAGTATATTCCAATTATTGCAAGTGTCAGTGAACATCAACCTCCAACTTGGCCATCTTATTTCATGGATATCAATGTTTTGGCTTTCTTGGTCCCTGCTGGCATCATTGCGTGCTTTTCGCCTCTATCTGATGCCAGCTCTTTTGTGGTCCTTTACATTGTAATGTCTGTATACTTTTCTGGAGTTATGGTTCGTCTTATGCTCGTGCTTGCTCCAGCAGCATGCATCATGTCTGGGATTGCGCTCTCTCAAGCTTTTGATGTTTTCACGGGTTCCATCAAATACCAGTTAGGCGCATCGTCTAATTCCACAGATGATGCAGAGGACAACACTTCCACGAACAATGCCCCAAAAGATGATGTTTCTGCTGGTAAGACTGACAAGGGTGAAGAGATTGTAAAAGAGCGGTCTTCCAAAAAGGGCAAGAAGAAAGAGAGAGAACCGGCTGATAAACCTTCTGTTAAGGCCAAGATTAAAAAGAAGGCTCTTGTTTTGCCTCTTGAAGCCTCTATAGTTGCGCTTCTTCTCCTTATAATGTTGGGTGCTTTCTATGTGATCCATTGTGTTTGGGCAGCTGCAGAAGCATATTCAGCTCCATCAATAGTTTTGACATCTCAGTCACGTGATGGCCTACACGTCTTTGATGATTTTAGAGAGTCTTATGCATGGTTAAGCCATAATACTGATGTGGATGATAAAGTGGCATCATGGTGGGACTATGGTTATCAGACGACAGCTATGGCTAATAGAACTGTGATTGTTGACAACAACACATGGAATAATACTCACATTGCAACTGTTGGCACTGCAATGTCATCTCCAGAAAAGGCGGCGTGGGAAATTTTCAACTCCTTGGATGTGAAATATGTTCTTGTCGTCTTTGGTGGTCTTATTGGTTACCCTAGTGATGACATCAACAAGTTTCTGTGGATGGTTCGTATTGGAGGCGGCGTCTTTCCACATATAAAGGAAGCTGATTATCTGAGAGATGGGCAATACCGGATTGATTCTGAGGCCACTCCAACAATGTTGAACAGCCTTATGTACAAGCTCTCTTACTACAGGTTTGTAGAGACGGATGGTAAAGGTTATGATCGGGTGAGGCGGACAGAGATTGGGAAGAAGCATTTTAAGCTTACACATTTCGAAGAGGTTTTCACGAGTCACCATTGGATGGTTCGGCTATACAAGCTGAAACCTCCCAGGAACAGGATTCGTGGTAAAGCAAAGAAACTGAAATCGAAAACAAGCTCTGGATTGAGTTCAAAATCAGCGAAGAAGAACCCGTGGGTCTAGAAATCCTAGAATTTTCAATGTTGGATGGTGAGCTATATGTCAACTCTTAGGTCTCTTTATTATCGAGAAAGTTGTTGCAGACGCAGTCAAGTTTCTGGTGTAGGATTCGTAAAAATTTTGTTAACTTTATTCGAATTTCATGTTTATTGCGGAGATTTTCAAGTACGGTAGCTAAAGTATCCATATTACATCCACTCTGGGTCCCTCGCCCCTCCCTCTCTGTCGACTAACCTCTTTCCTATGTTTCTCTTCGCCTCCACAATATCTCTCTCATTTTTCGAATCTAAAGTTTTCTTTTATTGATTTCACTTTTTTGTCGGGTGGAAGACGTCGTGTTTACATGAACATCCAAAGTATAGATAGACAGCGAGATTTTAGTAATCGATGAGCTTAAAGTTGGGTAAGTATTATATGCTTTGTGCAGGAAGGATAGACAACTAGTAATATTTAGTAAGTATATGAATGGAACTTCTTTTTATTCTTACAAGCATATA - >AT5G19690.1
TTCCACGAAGGCTGGGTCAGTCGTTTGTTTACTAGTTACCGCAGCTCAAACATGTAATTCCCGTGAGAGATTGTTTTGCCGGAGATAGTAGTTTTCGCGTCTCCAAAAACCCTTCGACCTTTGCCGGAGATAGTAGTTCCTCACTCTCTTTAATCCGATTCATCGAGCCGGAGAGCTCACCTTCCGCCGCGTAAAATGGCGGCTCTAGAAAGCCCACTGCCGGGAACGCCGACTGCGATGAGGAATGCTTTCGGCAACGTTTTATCAGTCCTGATCCTCGTCCTCATTGGTGTCCTCGCTTTCTCGATCCGACTCTTCTCTGTGAGTTCACTGATGTTTCTGCTTGGTTGATTCATTTCAGTGTTCTTCAATTTGTTAGGCTTTAGATCCGATCGGACTAGTTTAGATCCGACTAATCTAGATCCGATCTCATGATTTGAGATTGATTGGTGTAACTTCGTTTCTCTCCTCACTGTCTCTGTGTTAAAGAAACAGATTGTTGTTGTTACTTGTTATTTAACGCTGCGTCGGAGAGATATTGTTCCTCGTCGTAGTGATGGTTATAAAGTATGAAAGTGTGATTCATGAGTTTGATCCTTACTTCAATTATAGAGTCACTCAGTTCTTATCGAAGAATGGAATATACGAGTTCTGGAATTGGTTTGATGATAGGACCTGGTATCCTCTTGGCCGTGTGATTGGAGGAACTGTTTACCCTGGGTTAACTTTGACTGCTGGAACCATCTGGTGGGGATTAAATTCATTAAACATTCCTCTGTCAGTAGAGACTGTCTGTGTCTTCACTGCACCTGTATTTTCAGCTTTTGCATCCTGGGCAACTTACCTTTTGACAAAGGAAGTTAAGGGCTCCGGTGCTGGACTTGCAGCTGCTGCTCTTTTGGCCATGGTTCCCTCATATATATCCCGATCTGTAGCTGGTAGCTATGACAATGAAGCTGTTGCCATCTTTGCTTTGATCTTCACTTTTTATCTTTACATAAAGACATTAAATACAGGTTCCTTATTTTATGCCACCCTGAATGCTCTTGCATACTTTTACATGGTATGTTCATGGGGAGGTTACACCTTCATTATCAATCTGATACCAATGCACGTGCTTTTGTGCATTGTAACTGGGCGATACTCTCCCCGACTGTACATTGCCTATGCTCCTTTGGTTGTGTTAGGCACGTTGTTAGCGGCATTGGTGCCTGTTGTTGGTTTCAATGCGGTTTTGACTTCTGAACATTTTGCCTCGTTTTTGGTTTTTATCATCATCCACGTTGTAGCTCTCGTATACTACATCAAAGGCATTCTTTCTCCCAAAATGTTCAAAGTTGCTGTGACACTTGTTGTGTCTATCGGCATGGTTGTGTGTTTCATAGTTGTGGCAATTCTTGTGGCATTGGTGGCTTCAAGTCCAACAGGAGGATGGAGTGGTAGGAGTTTAAGTTTACTTGATCCAACTTATGCAAGCAAGTATATTCCAATTATTGCAAGTGTCAGTGAACATCAACCTCCAACTTGGCCATCTTATTTCATGGATATCAATGTTTTGGCTTTCTTGGTCCCTGCTGGCATCATTGCGTGCTTTTCGCCTCTATCTGATGCCAGCTCTTTTGTGGTCCTTTACATTGTAATGTCTGTATACTTTTCTGGAGTTATGGTTCGTCTTATGCTCGTGCTTGCTCCAGCAGCATGCATCATGTCTGGGATTGCGCTCTCTCAAGCTTTTGATGTTTTCACGGGTTCCATCAAATACCAGTTAGGCGCATCGTCTAATTCCACAGATGATGCAGAGGACAACACTTCCACGAACAATGCCCCAAAAGATGATGTTTCTGCTGGTAAGACTGACAAGGGTGAAGAGATTGTAAAAGAGCGGTCTTCCAAAAAGGGCAAGAAGAAAGAGAGAGAACCGGCTGATAAACCTTCTGTTAAGGCCAAGATTAAAAAGAAGGCTCTTGTTTTGCCTCTTGAAGCCTCTATAGTTGCGCTTCTTCTCCTTATAATGTTGGGTGCTTTCTATGTGATCCATTGTGTTTGGGCAGCTGCAGAAGCATATTCAGCTCCATCAATAGTTTTGACATCTCAGTCACGTGATGGCCTACACGTCTTTGATGATTTTAGAGAGTCTTATGCATGGTTAAGCCATAATACTGATGTGGATGATAAAGTGGCATCATGGTGGGACTATGGTTATCAGACGACAGCTATGGCTAATAGAACTGTGATTGTTGACAACAACACATGGAATAATACTCACATTGCAACTGTTGGCACTGCAATGTCATCTCCAGAAAAGGCGGCGTGGGAAATTTTCAACTCCTTGGATGTGAAATATGTTCTTGTCGTCTTTGGTGGTCTTATTGGTTACCCTAGTGATGACATCAACAAGTTTCTGTGGATGGTTCGTATTGGAGGCGGCGTCTTTCCACATATAAAGGAAGCTGATTATCTGAGAGATGGGCAATACCGGATTGATTCTGAGGCCACTCCAACAATGTTGAACAGCCTTATGTACAAGCTCTCTTACTACAGGTTTGTAGAGACGGATGGTAAAGGTTATGATCGGGTGAGGCGGACAGAGATTGGGAAGAAGCATTTTAAGCTTACACATTTCGAAGAGGTTTTCACGAGTCACCATTGGATGGTTCGGCTATACAAGCTGAAACCTCCCAGGAACAGGATTCGTGGTAAAGCAAAGAAACTGAAATCGAAAACAAGCTCTGGATTGAGTTCAAAATCAGCGAAGAAGAACCCGTGGGTCTAGAAATCCTAGAATTTTCAATGTTGGATGGTGAGCTATATGTCAACTCTTAGGTCTCTTTATTATCGAGAAAGTTGTTGCAGACGCAGTCAAGTTTCTGGTGTAGGATTCGTAAAAATTTTGTTAACTTTATTCGAATTTCATGTTTATTGCGGAGATTTTCAAGTACGGTAGCTAAAGTATCCATATTACATCCACTCTGGGTCCCTCGCCCCTCCCTCTCTGTCGACTAACCTCTTTCCTATGTTTCTCTTCGCCTCCACAATATCTCTCTCATTTTTCGAATCTAAAGTTTTCTTTTATTGATTTCACTTTTTTGTCGGGTGGAAGACGTCGTGTTTACATGAACATCCAAAGTATAGATAGACAGCGAGATTTTAGTAATCGATGAGCTTAAAGTTGGGTAAGTATTATATGCTTTGTGCAGGAAGGATAGACAACTAGTAATATTTAGTAAGTATATGAATGGAACTTCTTTTTATTCTTACAAGCATATA
CDS Sequence
Protein Sequence