Information report for AT2G31020
Gene Details
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Functional Descriptions
- GO:0005829 — is active in — cytosol
- GO:0015248 — enables — sterol transporter activity
- GO:0032934 — enables — sterol binding
- GO:0005634 — located in — nucleus
- GO:0016020 — is active in — membrane
- GO:0043231 — is active in — intracellular membrane-bounded organelle
Functional Keywords
Literature and News
- Inactivation of the chloroplast ATP synthase gamma subunit results in high non-photochemical fluorescence quenching and altered nuclear gene expression in Arabidopsis thaliana. DOI: 10.1074/jbc.M308435200 ; PMID: 14576160
- Learning the lipid language of plant signalling. DOI: 10.1016/j.tplants.2004.06.008 ; PMID: 15358268
- Identification and characterization of PiORP1, a Petunia oxysterol-binding-protein related protein involved in receptor-kinase mediated signaling in pollen, and analysis of the ORP gene family in Arabidopsis. DOI: 10.1007/s11103-006-0030-y ; PMID: 16897474
Gene Resources
- UniProt: A0A384KLT5
- EMBL: LUHQ01000002
- AlphaFoldDB: A0A384KLT5
- EnsemblPlants: AT2G31020.1
- Gramene: AT2G31020.1
- KEGG: ath:AT2G31020
- Orthologous matrix: HCESIRY
- ExpressionAtlas: AT2G31020
- InterPro: IPR000648, IPR001849, IPR011993
- PANTHER: PTHR10972, PTHR10972:SF96
- SUPFAM: SSF144000, SSF50729
- PROSITE: PS50003
- Gene3D: 2.30.29.30, 2.40.160.120, 3.30.70.3490
- SWISS-MODEL: A0A384KLT5
- Conserved Domain Database: cd13294
Sequences
cDNA Sequence
- >AT2G31020.1
CTTTTTTAATATTGGATAAATATAAAGTCTCTCATAAGATACCGTTGACCATAATTAAAGTCCTTAATGATAGAGACAAAATTTATAAATTCAAACTTGGCTTCTCTCCGGTGAAGTCCTCCTCTCTGTTTCTATCCAACTTCTTCTCTCTTTCTCTATAAACTTCCTCATCCGCCGCAACTGTAACCGTAACCGCCATCATCCGCCGCAATTTCCTACAACATTTCCATGTGCTCTTTCTTGTTGTAGAAGATTGTTCTTCACATGCATCCTTTCTGTTGTGTCTCCGATCACTCCCCTTCCACGCCGTCGTTCTCCATGTACGCCGCCACACCCGAAACTCCTTTCGGTTCCGCGAGATCACAACCGGTTATTACCCGATCTGTCTCACAACGATATAACCATCCAGGTCAAAGTAATCACCATCATCTCCTCCACAGTCTCTCATTTAACCACCAGAACGTACTAGCCTTACCGGCAGCAGCAAGGGAGCCGCCTGTGGATGTCAAGATTAACGATATCGCTGGGAATTCGATTGCCGGGATATTGTACAAATGGGTGAACTATGGGAAAGGATGGAGACCAAGATGGTTTGTTTTGCAAGATGGAGTGCTTTCATATTATAAAATCAAGGGACCTGATAAGATCGTTGTTATCCATGAGACTGAGAAAGGATCAAGAGTGATCGGAGAGGAGTCCACACGTATGATCTCTAGGAATAAGCGTCACGCCGCCACTAACAACACCAACCACCAGCTCCGCCGCAAGCCATTCGGCGAAGTTCATCTCAAGGTTTCATCGATTCGGGAGAGTAGATCAGATGATAAGAGATTTTCAATATTCACCGGCACCAAGAGGCTTCACCTACGTGCAGAGACAAGAGAGGACAGAGAAGCTTGGATAGAGGCTTTACAAGCTGTCAAAGATATGTTTCCAAGAATGTCAAACTGCGAGTTGATGGCACCGACCAACAACTTAGACATCTCGATAGAGAAGCTTAGGCTGCGATTGGTTGAGGAAGGAGTGAGTGAGTCAGCCATTCAAGACTGCGAACAAATCACGAGGTCTGAGTTCTCGGCAATTCAGAGCCAGCTTTTGCTTCTTAAACAAAAGCAATGGCTTCTCATTGATACACTCAGACAATTAGAGACAGAGAAAGTAGATTTGGAAAACACGGTTGTAGATGAGACTCAACGACAAGCTGGCAACGGAGACTCAGAAGAAACAATTAGTGAATCTGATGATGATAATGAACAATTTGATGAGGCTGAGGAGGAAATGGATACATGTGACTCTCTTTCTTCAAGTTCATTCAAAAGTATTGGATCCGTTTTTCGCACATCATCATTCTCTTCAGATGATGATGGACTTACTAATGGTTTTGAGTCAGAGAATGATGATGTTGATCCTTCTATCAAGACTATTGGATTTAACTATCCACATGTCAAAAGACGAAAGAAGTTACCTGATCCGGTTGAAAAAGAGAAAAGTGTTAGCCTTTGGTCAATGATCAAAGACAACATTGGCAAGGATCTCACAAAAGTTTGTCTTCCTGTCTACTTCAATGAGCCTTTATCTTCTCTACAAAAATGCTTTGAAGATTTGGAGTATTCATATCTTCTTGATCAAGCTTCTGAATGGGGAAAGAGGGGCAATAACCTCATGAGGATTCTGAATGTAGCTGCATTTGCCGTATCTGGTTATGCATCAACTGAAGGAAGAATTTGCAAACCTTTTAATCCAATGTTAGGTGAAACATATGAGGCTGACTATCCCGATAAAGGCCTTCGATTTTTCTCGGAAAAGGTGAGTCATCATCCTATGATTGTGGCATGTCATTGTGATGGCACCGGATGGAAATTTTGGGGAGATAGCAACTTAAAAAGCAAATTTTGGGGTCGATCAATTCAACTTGATCCTATTGGTTTGTTGACTTTGCAATTTGATGATGGTGAAATTGTGCAATGGAGTAAGGTGACTACATCAATATACAATCTCATACTTGGTAAATTGTATTGTGATCACTACGGGACAATGAAGATTGAAGGCAACGGTGAATATTCATGTAAACTTAAATTCAAGGAACAGTCGATGATCGATAGAAATCCGCATCAAGTTCAAGGTATAGTAGAAGACAAGAATGGAAAAACAGTGGCTAGGTTGTTTGGAAAATGGGATGAGAGTATACACTATGTGATGGTTGATCAAGGAAAGGTGAATGAATCCCATCTTCTGTGGAAACGAAACAAACAGCCCGAAAACCCGACAAAGTATAATCTAACACGGTTTGGGATCACATTAAACGAGCTCACGCCTGGTTTAAAGGAGAAGTTGCCACCAACAGATTCAAGACTTAGACCGGACCAGAGGTATTTAGAGAAGGGAGAGTATGAAATGGGAAACGCAGAGAAGTTGAGGTTGGAACAAAGACAAAGACAGGCGAGAGAGATGCAAGAGAGAGGTTGGAAACCAAAGTGGTTTAGAAAAGAGAAAGGAAGTGAGACTTATAGATACATTGGAGGTTATTGGGAAGCTCGAGATTCTGGTAGTTGGGATGATTGTCCTGACATCTTTGGTCAAGTTCACCAATCCATCAAGTAACCAAAAATAATAATAATCAAAAACTCCATTCACTAAATATTTTCATTTTTGTTTGCTTGTTGTTGTTGTTCTTTCTCGTATGTTTTTTTTGTTTATGGGCTTACATGCCATTTTTTCGTCTGCCAAAGATTTTGTGATGAAAAAAAAAAATGAATTTCTCCTCGTAATTTTATTGAGGTCCCTAAAAACGAAAGAAAAATATTATTGTTAGGTTGAAATATATAGTCTAAAGAAATGAAAATGCCAGGAGTTAAAAAAAAGGTGTG
CDS Sequence
- >AT2G31020.1
ATGCATCCTTTCTGTTGTGTCTCCGATCACTCCCCTTCCACGCCGTCGTTCTCCATGTACGCCGCCACACCCGAAACTCCTTTCGGTTCCGCGAGATCACAACCGGTTATTACCCGATCTGTCTCACAACGATATAACCATCCAGGTCAAAGTAATCACCATCATCTCCTCCACAGTCTCTCATTTAACCACCAGAACGTACTAGCCTTACCGGCAGCAGCAAGGGAGCCGCCTGTGGATGTCAAGATTAACGATATCGCTGGGAATTCGATTGCCGGGATATTGTACAAATGGGTGAACTATGGGAAAGGATGGAGACCAAGATGGTTTGTTTTGCAAGATGGAGTGCTTTCATATTATAAAATCAAGGGACCTGATAAGATCGTTGTTATCCATGAGACTGAGAAAGGATCAAGAGTGATCGGAGAGGAGTCCACACGTATGATCTCTAGGAATAAGCGTCACGCCGCCACTAACAACACCAACCACCAGCTCCGCCGCAAGCCATTCGGCGAAGTTCATCTCAAGGTTTCATCGATTCGGGAGAGTAGATCAGATGATAAGAGATTTTCAATATTCACCGGCACCAAGAGGCTTCACCTACGTGCAGAGACAAGAGAGGACAGAGAAGCTTGGATAGAGGCTTTACAAGCTGTCAAAGATATGTTTCCAAGAATGTCAAACTGCGAGTTGATGGCACCGACCAACAACTTAGACATCTCGATAGAGAAGCTTAGGCTGCGATTGGTTGAGGAAGGAGTGAGTGAGTCAGCCATTCAAGACTGCGAACAAATCACGAGGTCTGAGTTCTCGGCAATTCAGAGCCAGCTTTTGCTTCTTAAACAAAAGCAATGGCTTCTCATTGATACACTCAGACAATTAGAGACAGAGAAAGTAGATTTGGAAAACACGGTTGTAGATGAGACTCAACGACAAGCTGGCAACGGAGACTCAGAAGAAACAATTAGTGAATCTGATGATGATAATGAACAATTTGATGAGGCTGAGGAGGAAATGGATACATGTGACTCTCTTTCTTCAAGTTCATTCAAAAGTATTGGATCCGTTTTTCGCACATCATCATTCTCTTCAGATGATGATGGACTTACTAATGGTTTTGAGTCAGAGAATGATGATGTTGATCCTTCTATCAAGACTATTGGATTTAACTATCCACATGTCAAAAGACGAAAGAAGTTACCTGATCCGGTTGAAAAAGAGAAAAGTGTTAGCCTTTGGTCAATGATCAAAGACAACATTGGCAAGGATCTCACAAAAGTTTGTCTTCCTGTCTACTTCAATGAGCCTTTATCTTCTCTACAAAAATGCTTTGAAGATTTGGAGTATTCATATCTTCTTGATCAAGCTTCTGAATGGGGAAAGAGGGGCAATAACCTCATGAGGATTCTGAATGTAGCTGCATTTGCCGTATCTGGTTATGCATCAACTGAAGGAAGAATTTGCAAACCTTTTAATCCAATGTTAGGTGAAACATATGAGGCTGACTATCCCGATAAAGGCCTTCGATTTTTCTCGGAAAAGGTGAGTCATCATCCTATGATTGTGGCATGTCATTGTGATGGCACCGGATGGAAATTTTGGGGAGATAGCAACTTAAAAAGCAAATTTTGGGGTCGATCAATTCAACTTGATCCTATTGGTTTGTTGACTTTGCAATTTGATGATGGTGAAATTGTGCAATGGAGTAAGGTGACTACATCAATATACAATCTCATACTTGGTAAATTGTATTGTGATCACTACGGGACAATGAAGATTGAAGGCAACGGTGAATATTCATGTAAACTTAAATTCAAGGAACAGTCGATGATCGATAGAAATCCGCATCAAGTTCAAGGTATAGTAGAAGACAAGAATGGAAAAACAGTGGCTAGGTTGTTTGGAAAATGGGATGAGAGTATACACTATGTGATGGTTGATCAAGGAAAGGTGAATGAATCCCATCTTCTGTGGAAACGAAACAAACAGCCCGAAAACCCGACAAAGTATAATCTAACACGGTTTGGGATCACATTAAACGAGCTCACGCCTGGTTTAAAGGAGAAGTTGCCACCAACAGATTCAAGACTTAGACCGGACCAGAGGTATTTAGAGAAGGGAGAGTATGAAATGGGAAACGCAGAGAAGTTGAGGTTGGAACAAAGACAAAGACAGGCGAGAGAGATGCAAGAGAGAGGTTGGAAACCAAAGTGGTTTAGAAAAGAGAAAGGAAGTGAGACTTATAGATACATTGGAGGTTATTGGGAAGCTCGAGATTCTGGTAGTTGGGATGATTGTCCTGACATCTTTGGTCAAGTTCACCAATCCATCAAGTAA
Protein Sequence
- >AT2G31020.1
MHPFCCVSDHSPSTPSFSMYAATPETPFGSARSQPVITRSVSQRYNHPGQSNHHHLLHSLSFNHQNVLALPAAAREPPVDVKINDIAGNSIAGILYKWVNYGKGWRPRWFVLQDGVLSYYKIKGPDKIVVIHETEKGSRVIGEESTRMISRNKRHAATNNTNHQLRRKPFGEVHLKVSSIRESRSDDKRFSIFTGTKRLHLRAETREDREAWIEALQAVKDMFPRMSNCELMAPTNNLDISIEKLRLRLVEEGVSESAIQDCEQITRSEFSAIQSQLLLLKQKQWLLIDTLRQLETEKVDLENTVVDETQRQAGNGDSEETISESDDDNEQFDEAEEEMDTCDSLSSSSFKSIGSVFRTSSFSSDDDGLTNGFESENDDVDPSIKTIGFNYPHVKRRKKLPDPVEKEKSVSLWSMIKDNIGKDLTKVCLPVYFNEPLSSLQKCFEDLEYSYLLDQASEWGKRGNNLMRILNVAAFAVSGYASTEGRICKPFNPMLGETYEADYPDKGLRFFSEKVSHHPMIVACHCDGTGWKFWGDSNLKSKFWGRSIQLDPIGLLTLQFDDGEIVQWSKVTTSIYNLILGKLYCDHYGTMKIEGNGEYSCKLKFKEQSMIDRNPHQVQGIVEDKNGKTVARLFGKWDESIHYVMVDQGKVNESHLLWKRNKQPENPTKYNLTRFGITLNELTPGLKEKLPPTDSRLRPDQRYLEKGEYEMGNAEKLRLEQRQRQAREMQERGWKPKWFRKEKGSETYRYIGGYWEARDSGSWDDCPDIFGQVHQSIK