Gene Details:
- Gene ID: AT5G18525
- Gene Symbol: gfs12
- Gene Name: green fluorescent seed 12
- Description: protein serine/threonine kinase;(source:Araport11)
- TAIR Accession: locus:1006230455
- 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:0042742 — acts upstream of or within — defense response to bacterium
- GO:0005515 — enables — protein binding
- GO:0005524 — enables — ATP binding
- GO:0080008 — part of — Cul4-RING E3 ubiquitin ligase complex
- GO:0006623 — acts upstream of or within — protein targeting to vacuole
- GO:0004672 — enables — protein kinase activity
- GO:0006468 — involved in — protein phosphorylation
- GO:0005737 — located in — cytoplasm
Function-related keywords:
Literature:
- Characterization of Arabidopsis and rice DWD proteins and their roles as substrate receptors for CUL4-RING E3 ubiquitin ligases. DOI: 10.1105/tpc.107.055418 ; PMID: 18223036
- Arabidopsis DDB1-CUL4 ASSOCIATED FACTOR1 forms a nuclear E3 ubiquitin ligase with DDB1 and CUL4 that is involved in multiple plant developmental processes. DOI: 10.1105/tpc.108.058891 ; PMID: 18552200
- BEACH-domain proteins act together in a cascade to mediate vacuolar protein trafficking and disease resistance in Arabidopsis. DOI: 10.1016/j.molp.2014.11.015 ; PMID: 25618824
- Characterization of Arabidopsis and rice DWD proteins and their roles as substrate receptors for CUL4-RING E3 ubiquitin ligases. DOI: 10.1105/tpc.107.055418 ; PMID: 18223036
- Arabidopsis DDB1-CUL4 ASSOCIATED FACTOR1 forms a nuclear E3 ubiquitin ligase with DDB1 and CUL4 that is involved in multiple plant developmental processes. DOI: 10.1105/tpc.108.058891 ; PMID: 18552200
Sequence:
cDNA Sequence
- >AT5G18525.1 CAAAATAAAGCAACAATAATAGTTATAGGCTAAAACGGCGTCGTTGAGGAGAAAACACGGCGTTTCTTGGCCGTGCTTTTTGTTTTTCAGGTCGTCGAGATTGATCGGATCCGGATCATTAGACGTCGTCTCTCTTCCTCCAAGAAAGAAGGGATGAGAGGTGAAGATAGTGACCTTTGCTTCGATTGTCTCGATCAACGTATCAACTCTGACTTCTCCGATCAGATCGTCTTCTCTTACGGTGTCTCCGATTCGCCGCTACCTTTTGGATCCTCCGCCGTCGTTAAGGTTTCTGATTCTAGCGAGGAATTTTCTGCTTCTTGTTCTTCTTGTGAATCCACTTCTTCTCAGTTCATTTTGGAGTATCTCCGGAAGGACGAACATGGCTGCTTAGCTAAATACGTCGACAAATTTGTTGTTAAGGATCGAGAGGGTAATTCAAACGATGCTGTTGAATCTGATGAGTGTTTGGATTGTTCAACCAGTGGCTCTCAAGCTACTGAAGATGATGACACAGAGAATATTACTTGTGGAAGTGTTACTTGCGAGCATTCAGGTAGTTTTTCATGTTGGAGAACTGTAGCTGCACTTTTACCAATCGCTCAGATTAGAAAATGTTCTGCATCTGAACTTCAAAAGCTTGCTTCTAGTTTCCATTATGAGTGTCCAGAAGATCAAATTTTAGCCTCTTTACATCGCCTGATTGATGGAAAGTCATCTGGACAAGCAACCCATAGTTTCCTTTGTCTTCTTCTTGGGTTACCGTTGTTAGAGGAAAAAAGCAAGCTTCGATGTCTCAGGCATCCAAATCTATCACCGGTCCTAGGACTTCTGACATCATCTGATTGTTTGGTCTCAGTGCTCCCCAAAGCCCCTTATACATTGGAAAATATTCTCTACTACAGCCCCAGTGCTATAAAGTCAGAATGGCATAGAAATTTTATAATATATCAGCTATTGTCTGCGTTAGCTCACTTGCATGGGTTGAAGGTTTCACATGGGGACATTCGTCCGTCAAACATATTGTTGTCTGATTCATTATGGAGTTGGTTAACGATCTATAGCAAACCTGATTTAGGTTCTGTAGATGCCAATTCATCTGCTTCAAGAAGAAGGTGGTGTGTTGAGGGTTGTTATTCTTATGGCCTTTATGCTGATCTTAAAATTTCTTCACATTTGGACTGGCAGACTCACTTTGATAAATGGTGGAAGGGAGAGCTAAGCAATTTTGAATATTTACTCGTCTTAAACAAACTAGCAGGTCGAAGGTGGGGGGACCACACATTTCATCCGGTAATGCCATGGGTCATAGATTTCAGCAAAAAACCTGAAAATGATAGTGATTCAGGATGGCGTGATTTAAGAAAAAGCAAATGGAGATTGGCAAAAGGAGATGAACAATTAGATTTTACCTACTCAACATTTGAATTTCCGCATCATGTATCAGATGAATGTCTTTCTGAGCTGGCTGTTTGCAGCTACAAAGCAAGAAGACTGCCACTGAGTGTCCTGCGAAAGGCAGTTCGGTCGGTGTATGAGCCTAATGAATATCCCTCTGACATGCAAAGGCTTTATGATTGGACCCCTGACGAGTGCATCCCTGAGTTTTACTGTGATCCCCGCATCTTTTGCTCCCTTCATCCTAGTATGTCTGATTTGGCTGTACCTCCATGGGCAAGCAGCCCCGATGAGTTCATTAGATTGCATCGAGATGCTCTGGAAAGCCCCCATGTTTCATCTCTAATACATCACTGGATTGATATTACTTTTGGTTACAAAATGTCAGGACATGCTGCTATTACTGCGAAGAATGTTATGTTGTCTTCATCTGAACCCACAGTACCGAGGTCAGTTGGACGTCGCCAACTCTTTTTTCGGCCTCATCCGGTGCGCCTTGGTTTCTCCCGAGAGAAGGAACAAAGTAGAAATGAACTAGAAATGCATACATTCCATGGCTTTGGTGTGGACAACAAGAGGTCCGTCATTCTCCTAGCTGATGAGTATCTGGAAGAAACTGAAGAGGCATCTGCATTTTCTGATCATGCAACACATCTATGTCCAAAGTATCACCTTCGTGAAAACCTGGTTGAGTCTCCTTTGCATGTATCTTACAGTGAAAACACTAAGAAAGTAAATACTAGTCTCCCTGGAACTTCAAAAAACAAAGGTTTATCATCAAGGATAAGTTTGAATTATCTTTTAGAGCATATGGAGGTGAGAGATGAAGCATCGACTGAACTTCAGGAGTTGTTACAATGGCGGCAAGATTTCTGCACAGGAAACATTTCCAAGGACATTGCTGGGGATATTTTTTCTATTGGCTGTGTCCTGGCAGAACTTTATTTGATGAAGCCGCTATTCAACTCAGTGTCTTTGGCTACTTATTTAGAAGGTGGTGACTTACCTGAACTGATCAAAGAACTTCCTCCTCCTACTCAGGTAATTGTCGAAGCATGTATTGAACAAGATTGGAGAAGGAGGCCCTCAGCAAAGAGTCTTTTGGACTCTCCGTATTTCTCAGCTACAGTGAGGTCAGCTCACTTGTTTGCTGCTCCACTTCAACTTTTGGCCAAAGGTCAAACACGCTTGTGTTATGCAGCAAGTTTTGCCAAACAGGGAGTCTTGAAAGTAATGGGAACATTTGTGGCAGAGATGTGTGCTGTGTACTGTTTGCCACTGGTCACCACACCTTTATCTGAGGACGAGTGTGAATTGGCTTATGTACTTCTCAAGGAATTTACAAAATCTTTGACACCAATGGCTGTGCAGAGACTTGTCTTGCCTTCTATCCAGAAGATCTTACTGACCACAGGTTACTCGCATTTGAAAGTTTCTCTTCTTCAAGATTCGTTTGTGAGAGAATTATGGAATCAAATTGGAAAGAGAGTATATCTTGAAATGATTCATCCTTTAGTCATATCAAACTTGTATAATTCTCCGGACAAGATCTCAGCTTCGGCAGCCTCTGTGCTGTTGATTGGTTCGAGCGAAGAGCTTGGTGCCCCTGTTACAGTACATCAGACTATACTGCCATTGATAAGTTACTTCGGAAAAGGAATATGTACTGATGGGATTGATGTGCTGGTTAGAATTGGGAGACTATTGGGCGTGAACTTCATTGTCAAACAGATGCTGCCATTACTGGAACATGTTGTTTGCTTCTGTATCGATCTCTCTTCGATGAAAAAACCAGAGCCTGTTCATAGTTGGTGTTCTTTAGCGCTGTCTGATTGCCTAATCACACTCGATGGTCTAGTTGCTCTTATATCAGACGAGTTGCTCATACATGAGCTGACCAAAGGTCGGTTGTGCCTACATGTAAGAGTTCTTATGCAGAAAAATCTAGAGTTGCGGGTCCTTCAGTTTGCTGCAACTTCCCTGATGTCAATTTGCCAGCGGATTGGACAAGAAATGACTGCATTGCATGTTCTTCCGCAGTTGAAGGAGCTTTTTGATGAGTTTGCTTTCTCTGAGAAAAGTACAGATGCATCTGACTCTTTAAGCTGGAAGATTAGGACTGCCGAACAAAAATTTCATCCAGAATCTCCAATCAAAAGCCGTATGGATCTTGTGTTGCTCCTCTATCCTTCTTTCGCCTCACTTCTTGGTATGGAGAAATTACGCCAGGGTTGTCCAACCTGGCTACTCCTTGAGCAGTATCTGCTAAAGCATCATAACTGGAAGTGGGAATACACCGGACGATCTTCTCGATACAATATGGAAGCAAGGCCTGTATTAAAACAGGGCCCTGCATCTAAGCACACTCCTAAGGTGTTGCTTAATGGATCTGGACGGTCGGTTCCCCAGTCGCAGGGGTTAAGAAATTCCAATCACTTAAAACTTCATATACATGTCCCAGTTGAAGGACAAGAAGCAGTTCTAAACCCTTTGGTGCATGAACCCTGGTCATGGTTTCCTAGTCCAGTAACTTGTTGGGATGGGCTTGACATTGGGCGTTTTGGAAACCCCAAAGATGAGAATCGATGGAAAATTAGAGCATCTGTTTTGTCTTCTGCGCGGGCCCATCATGGAGCTCTAAGATCTTTAGTGGTTTCTGAAGATGAGTGTACAGTTTTCACTTCAGGAATTGATCCAGGGTTTAAGGGAAGTGTTCAGAAGTGGGAACTAGCAAGCTTAAGTTGTGTATCTAGTTATCATGCCCATGAAGAGGTTGTTAATGACATCGGTATTCTGTCATCCACCGGAAAGGTAGCATCTTGCGACGGAACTATACATGTGTGGAATAGCCAAACCGGGAAACTAATATCTTTGTTCTCCGAGTCACCTTCGGATCAAGATCAAGCTTCATCAGATCCGTCCTCAAAGAATAATTCCAATCCGTGTAATAGACATGCGTCACATGGATTATCAAGTGGGATATTCGATGAGAACTTGTATACATGTATGCATTATTTAGAATACATGGATCAGCTCATTGTTGGAACCGGATTTGGTGCCCTCAGGTTTATCGATCTAGCACGAGGCCAGAAGCTTGAACTTTGGGGAGGAGAAGCTATTGAATCTGGATTCACTTCTCTCGTATCTGCTCTTTGTTCAGGAGGGTCTCAAACAAAACATGGAGACGGAGCTTCAGTATCACCTTCTTGGATTGCAGCTGGTTTTAGTTCTGGCCAGTGTAGGCTATTTGACTTGAGGGAAAATGGTTTTATTTCCTCCTGGAGAGCTCACGACGGATACGTGACAAAGTTAGTGGCACCTGAGAGTCATTTACTTGTTTCCAGCTCTCTTGACAAAACTTTACGGATCTGGGACTTAAGGAAGAGCTGGACACCACAGCCTTTTGTTGTCAAAGGACACAATGACGGTGTTTCCGGTTTCTCCATCTGGGGCAAGGACGTTATCTCCATCTCAAGAAACAACATCGGGATTTTCTCACTGGCAAAGTCTCAAGATGAGGAGGAGCAACAGCAGCAGCGGATTATACCACAGAAACTGTATATGGCAGAGAAGGGAGGAAGAGTAAAGTCGGATTTATCGACCATTTGTGTTTTACCATTTTCGAGATTGTTCATCGTTGGAGCACATGATGGTCACTTGAGAATCTGTTGTTGAAATATTATACAAACTATATATCATAAAATTGTGTTCTTACAAAAAAATTACGGCCTCTTGTGTAACTTCTGTCTTTAAATTTTGTGTGTTTGGAATATGGATATTGGATAGTGCCAAGCACGATCACTGATATGATTGTAATGGAGACAAAGAGGAATGATTTGTTAATCGGCTAATGAGTAATGGGCAATGATTGATGTATTTTTA
CDS Sequence
Protein Sequence