Gene Details:
- Gene ID: AT5G10150
- Gene Symbol: SOK2
- Gene Name: SOSEKI2
- Description: UPSTREAM OF FLC protein (DUF966);(source:Araport11)
- TAIR Accession: locus:2184133
- Genome: Araport11_genome_release
- Species: Arabidopsis thaliana
Transcripts:
Gene Ontology:
- GO:0051302 — involved in — regulation of cell division
- GO:2000067 — involved in — regulation of root morphogenesis
- GO:0042803 — enables — protein homodimerization activity
- GO:0090708 — involved in — specification of plant organ axis polarity
- GO:0005739 — located in — mitochondrion
- GO:0009925 — located in — basal plasma membrane
- GO:1905392 — involved in — plant organ morphogenesis
- GO:0005634 — located in — nucleus
- GO:0005515 — enables — protein binding
Literature:
- A cluster of Arabidopsis genes with a coordinate response to an environmental stimulus. DOI: 10.1016/j.cub.2004.04.045 ; PMID: 15186749
- Establishment of the vernalization-responsive, winter-annual habit in Arabidopsis requires a putative histone H3 methyl transferase. DOI: 10.1105/tpc.105.034645 ; PMID: 16258034
- SUPPRESSOR OF FRI 4 encodes a nuclear-localized protein that is required for delayed flowering in winter-annual Arabidopsis. DOI: 10.1242/dev.02684 ; PMID: 17079264
- The FLX gene of Arabidopsis is required for FRI-dependent activation of FLC expression. DOI: 10.1093/pcp/pcm176 ; PMID: 18156133
- A SOSEKI-based coordinate system interprets global polarity cues in Arabidopsis. DOI: 10.1038/s41477-019-0363-6 ; PMID: 30737509
- DIX Domain Polymerization Drives Assembly of Plant Cell Polarity Complexes. DOI: 10.1016/j.cell.2020.01.011 ; PMID: 32004461
Sequence:
cDNA Sequence
- >AT5G10150.3 CGTATACATCAACTTAAGAGTGTGTTTGTTCTAATGAAGATGTGATGAACCGGCTTACGATTCTGAGAGGGAAGTGCATGACATCACAATATGCTTGGTCGTGTAAAAGGAGCTATAGAAATGGATTTGTGTGGAATGACTTAGCAGAGAATGATGTGATTTACCCTTCTGACTGTGCTGAATATGTCTTGAAAGGATCTGAAATCACCGACAAATTTCAAGAAGTACATGTGAACAGACCATTGTCTGGTTCTATTCAAGAAGCTCCAAAAAGTCGACTTCTCAGGTCAAAACTCAAGCCTCAAAACCGAACGGCGTCGTTTGACGACGCAGAGCTCTACGTCGGAGAAGAGGAAGAGGAAGAAGATGGAGAGTACGAGCTTTACGAAGAGAAAACGAGTTACACATCTTCCACGACGCCTCAATCTCGCTGTTCTCGAGGCGTATCGACGGAGACAATGGAATCCACCGAACAAAAACCGAACTTGACCAAGACAGAGCAAGATTTGCAAGTACGTTCTGACTCGTCCGATTTGACTCGTTCCAACCCGGTGGTGAAGCCACGTCGACACGAAGTTTCGACGCGGGTCGAGGACGGAGATCCGGTGGAACCCGGATCGGGTCGTGGGTCGATGTGGCTGCAGATGATCTCTTGCGGTCACATCGCCACCAAGTACTACGCACCGAGTGTGATGAATCCGAGACAAAAAGAAGAGAACCTTCGAAAAGGAGTTTTGTGCAAGAACATTGTCAAGAAGACTGTCGTAGATGACGAGCGTGAGATGATAAGGTTCATGTCGGAGAATCCAAGGTTCGGGAATCCTCAGGCGGAGGAGAAAGAGTATTTCAGCGGAAGCATCGTTGAGTCGGTGAGTCAGGAACGAGTCACGGCTGAACCATCGCTAAGACGATCCAACTCGTTCAACGAGGAAAGGTTAGTACACCGAGTCAGCTCTAATCGACAAGTATGGTTACAAAAATTCACACTAAATCCTTAAATATTTGAACAGATCAAAGATTGTTGAGATGGCTAAGGAAACGAAGAAGAAAGAAGAAAGATCGATGGCGAAGGTGAAATGCATACCAAGAACGTGTTTAATGTCATCATCGAAGCAAATCAAGAAATAAAAAAAGAGAGTTTAATACTATAGAGTAAACGAATGATTATGGACTAGTATTTTATTAGTATTTACTGCTACAGATAGATGCAGTAAATGATAATGAATTTTAACGACTACATGTTGTTTTTTTATTATGGGGAATATATTTGCTCCACTTTATCTGACTAGTTGTTTAAAGAGAATGGAAATGGCAAAATCCG
- >AT5G10150.1 CGTATACATCAACTTAAGAGTGTGTTTGTTCTAATGAAGATGTGATGAACCGGCTTACGATTCTGAGAGGGAAGTGCATGACATCACAATATGCTTGGTCGTGTAAAAGGAGCTATAGAAATGGATTTGTGTGGAATGACTTAGCAGAGAATGATGTGATTTACCCTTCTGACTGTGCTGAATATGTCTTGAAAGGATCTGAAATCACCGACAAATTTCAAGAAGTACATGTGAACAGACCATTGTCTGGTTCTATTCAAGAAGCTCCAAAAAGTCGACTTCTCAGGTCAAAACTCAAGCCTCAAAACCGAACGGCGTCGTTTGACGACGCAGAGCTCTACGTCGGAGAAGAGGAAGAGGAAGAAGATGGAGAGTACGAGCTTTACGAAGAGAAAACGAGTTACACATCTTCCACGACGCCTCAATCTCGCTGTTCTCGAGGCGTATCGACGGAGACAATGGAATCCACCGAACAAAAACCGAACTTGACCAAGACAGAGCAAGATTTGCAAGTACGTTCTGACTCGTCCGATTTGACTCGTTCCAACCCGGTGGTGAAGCCACGTCGACACGAAGTTTCGACGCGGGTCGAGGACGGAGATCCGGTGGAACCCGGATCGGGTCGTGGGTCGATGTGGCTGCAGATGATCTCTTGCGGTCACATCGCCACCAAGTACTACGCACCGAGTGTGATGAATCCGAGACAAAAAGAAGAGAACCTTCGAAAAGGAGTTTTGTGCAAGAACATTGTCAAGAAGACTGTCGTAGATGACGAGCGTGAGATGATAAGGTTCATGTCGGAGAATCCAAGGTTCGGGAATCCTCAGGCGGAGGAGAAAGAGTATTTCAGCGGAAGCATCGTTGAGTCGGTGAGTCAGGAACGAGTCACGGCTGAACCATCGCTAAGACGATCCAACTCGTTCAACGAGGAAAGGTTAGTACACCGAGTCAGCTCTAATCGACAAGTATGGTTACAAAAATTCACACTAAATCCTTAAATATTTGAACAGATCAAAGATTGTTGAGATGGCTAAGGAAACGAAGAAGAAAGAAGAAAGATCGATGGCGAAGGTGAAATGCATACCAAGAACGTGTTTAATGTCATCATCGAAGCAAATCAAGAAATAAAAAAAGAGAGTTTAATACTATAGAGTAAACGAATGATTATGGACTAGTATTTTATTAGTATTTACTGCTACAGATAGATGCAGTAAATGATAATGAATTTTAACGACTACATGTTGTTTTTTTATTATGGGGAATATATTTGCTCCACTTTATCTGACTAGTTGTTTAAAGAGAATGGAAATGGCAAAATCCG
- >AT5G10150.2 CGTATACATCAACTTAAGAGTGTGTTTGTTCTAATGAAGATGTGATGAACCGGCTTACGATTCTGAGAGGGAAGTGCATGACATCACAATATGCTTGGTCGTGTAAAAGGAGCTATAGAAATGGATTTGTGTGGAATGACTTAGCAGAGAATGATGTGATTTACCCTTCTGACTGTGCTGAATATGTCTTGAAAGGATCTGAAATCACCGACAAATTTCAAGAAGTACATGTGAACAGACCATTGTCTGGTTCTATTCAAGAAGCTCCAAAAAGTCGACTTCTCAGGTCAAAACTCAAGCCTCAAAACCGAACGGCGTCGTTTGACGACGCAGAGCTCTACGTCGGAGAAGAGGAAGAGGAAGAAGATGGAGAGTACGAGCTTTACGAAGAGAAAACGAGTTACACATCTTCCACGACGCCTCAATCTCGCTGTTCTCGAGGCGTATCGACGGAGACAATGGAATCCACCGAACAAAAACCGAACTTGACCAAGACAGAGCAAGATTTGCAAGTACGTTCTGACTCGTCCGATTTGACTCGTTCCAACCCGGTGGTGAAGCCACGTCGACACGAAGTTTCGACGCGGGTCGAGGACGGAGATCCGGTGGAACCCGGATCGGGTCGTGGGTCGATGTGGCTGCAGATGATCTCTTGCGGTCACATCGCCACCAAGTACTACGCACCGAGTGTGATGAATCCGAGACAAAAAGAAGAGAACCTTCGAAAAGGAGTTTTGTGCAAGAACATTGTCAAGAAGACTGTCGTAGATGACGAGCGTGAGATGATAAGGTTCATGTCGGAGAATCCAAGGTTCGGGAATCCTCAGGCGGAGGAGAAAGAGTATTTCAGCGGAAGCATCGTTGAGTCGGTGAGTCAGGAACGAGTCACGGCTGAACCATCGCTAAGACGATCCAACTCGTTCAACGAGGAAAGGTTAGTACACCGAGTCAGCTCTAATCGACAAGTATGGTTACAAAAATTCACACTAAATCCTTAAATATTTGAACAGATCAAAGATTGTTGAGATGGCTAAGGAAACGAAGAAGAAAGAAGAAAGATCGATGGCGAAGGTGAAATGCATACCAAGAACGTGTTTAATGTCATCATCGAAGCAAATCAAGAAATAAAAAAAGAGAGTTTAATACTATAGAGTAAACGAATGATTATGGACTAGTATTTTATTAGTATTTACTGCTACAGATAGATGCAGTAAATGATAATGAATTTTAACGACTACATGTTGTTTTTTTATTATGGGGAATATATTTGCTCCACTTTATCTGACTAGTTGTTTAAAGAGAATGGAAATGGCAAAATCCG
- >AT5G10150.4 CGTATACATCAACTTAAGAGTGTGTTTGTTCTAATGAAGATGTGATGAACCGGCTTACGATTCTGAGAGGGAAGTGCATGACATCACAATATGCTTGGTCGTGTAAAAGGAGCTATAGAAATGGATTTGTGTGGAATGACTTAGCAGAGAATGATGTGATTTACCCTTCTGACTGTGCTGAATATGTCTTGAAAGGATCTGAAATCACCGACAAATTTCAAGAAGTACATGTGAACAGACCATTGTCTGGTTCTATTCAAGAAGCTCCAAAAAGTCGACTTCTCAGGTCAAAACTCAAGCCTCAAAACCGAACGGCGTCGTTTGACGACGCAGAGCTCTACGTCGGAGAAGAGGAAGAGGAAGAAGATGGAGAGTACGAGCTTTACGAAGAGAAAACGAGTTACACATCTTCCACGACGCCTCAATCTCGCTGTTCTCGAGGCGTATCGACGGAGACAATGGAATCCACCGAACAAAAACCGAACTTGACCAAGACAGAGCAAGATTTGCAAGTACGTTCTGACTCGTCCGATTTGACTCGTTCCAACCCGGTGGTGAAGCCACGTCGACACGAAGTTTCGACGCGGGTCGAGGACGGAGATCCGGTGGAACCCGGATCGGGTCGTGGGTCGATGTGGCTGCAGATGATCTCTTGCGGTCACATCGCCACCAAGTACTACGCACCGAGTGTGATGAATCCGAGACAAAAAGAAGAGAACCTTCGAAAAGGAGTTTTGTGCAAGAACATTGTCAAGAAGACTGTCGTAGATGACGAGCGTGAGATGATAAGGTTCATGTCGGAGAATCCAAGGTTCGGGAATCCTCAGGCGGAGGAGAAAGAGTATTTCAGCGGAAGCATCGTTGAGTCGGTGAGTCAGGAACGAGTCACGGCTGAACCATCGCTAAGACGATCCAACTCGTTCAACGAGGAAAGGTTAGTACACCGAGTCAGCTCTAATCGACAAGTATGGTTACAAAAATTCACACTAAATCCTTAAATATTTGAACAGATCAAAGATTGTTGAGATGGCTAAGGAAACGAAGAAGAAAGAAGAAAGATCGATGGCGAAGGTGAAATGCATACCAAGAACGTGTTTAATGTCATCATCGAAGCAAATCAAGAAATAAAAAAAGAGAGTTTAATACTATAGAGTAAACGAATGATTATGGACTAGTATTTTATTAGTATTTACTGCTACAGATAGATGCAGTAAATGATAATGAATTTTAACGACTACATGTTGTTTTTTTATTATGGGGAATATATTTGCTCCACTTTATCTGACTAGTTGTTTAAAGAGAATGGAAATGGCAAAATCCG
CDS Sequence
Protein Sequence