Information report for AT2G27210
Gene Details
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Functional Descriptions
- GO:0005634 — located in — nucleus
- GO:0005777 — located in — peroxisome
- GO:0017018 — enables — myosin phosphatase activity
- GO:0009742 — involved in — brassinosteroid mediated signaling pathway
- GO:0005515 — enables — protein binding
Functional Keywords
Literature and News
- The complement of protein phosphatase catalytic subunits encoded in the genome of Arabidopsis. DOI: 10.1104/pp.004002 ; PMID: 12068129
- Nuclear protein phosphatases with Kelch-repeat domains modulate the response to brassinosteroids in Arabidopsis. DOI: 10.1101/gad.1174204 ; PMID: 14977918
- Arabidopsis PPP family of serine/threonine phosphatases. DOI: 10.1016/j.tplants.2007.03.003 ; PMID: 17368080
- Evolutionary radiation pattern of novel protein phosphatases revealed by analysis of protein data from the completely sequenced genomes of humans, green algae, and higher plants. DOI: 10.1104/pp.107.111393 ; PMID: 18156295
- Site-specific phosphorylation profiling of Arabidopsis proteins by mass spectrometry and peptide chip analysis. DOI: 10.1021/pr8000173 ; PMID: 18433157
- Global analysis of Arabidopsis gene expression uncovers a complex array of changes impacting pathogen response and cell cycle during geminivirus infection. DOI: 10.1104/pp.108.121038 ; PMID: 18650403
- Revisiting the evolutionary history and roles of protein phosphatases with Kelch-like domains in plants. DOI: 10.1104/pp.113.233627 ; PMID: 24492333
- Endogenous Arabidopsis messenger RNAs transported to distant tissues. DOI: 10.1038/nplants.2015.25 ; PMID: 27247031
- A spatiotemporal molecular switch governs plant asymmetric cell division. DOI: 10.1038/s41477-021-00906-0 ; PMID: 33941907
- Dichotomy of the BSL phosphatase signaling spatially regulates MAPK components in stomatal fate determination. DOI: 10.1038/s41467-022-30254-2 ; PMID: 35508457
- Quantitative phosphoproteomics of early elicitor signaling in Arabidopsis. DOI: 10.1074/mcp.M600429-MCP200 ; PMID: 17317660
- Site-specific phosphorylation profiling of Arabidopsis proteins by mass spectrometry and peptide chip analysis. DOI: 10.1021/pr8000173 ; PMID: 18433157
- Analysis of the Arabidopsis cytosolic proteome highlights subcellular partitioning of central plant metabolism. DOI: 10.1021/pr1009433 ; PMID: 21166475
Gene Resources
- UniProt: F4IFQ0
- EMBL: CP002685
- AlphaFoldDB: F4IFQ0
- EnsemblPlants: AT2G27210.2
- Gramene: AT2G27210.2
- Orthologous matrix: CKSEQPI
- ExpressionAtlas: AT2G27210
- InterPro: IPR004843, IPR006186, IPR012391
- PANTHER: PTHR46422, PTHR46422:SF4
- SUPFAM: SSF117281, SSF56300
- PROSITE: PS00125
- Gene3D: 2.120.10.80, 3.60.21.10
- SWISS-MODEL: F4IFQ0
- Conserved Domain Database: cd07419
Homologs
- Actinidia chinensis Achn144111, CEY00_Acc18661
- Gossypium hirsutum Gohir.A03G167800, Gohir.D02G190900
- Musa acuminata GSMUA_Achr2P12930_001
- Nicotiana attenuata A4A49_18803
- Oryza sativa OsPPKL3, GL3.1;qGL3-1, OsPPKL2, OsPP1c, OsPP2A-1, OsPP2A-2, OsPP2A-3
- Triticum aestivum TaPP2A-2
Sequences
cDNA Sequence
- >AT2G27210.2
ATAGATAATTGTTTTATTTCCTCAAATAATTTCTGTTGTTTTTATAGTAATTAAGTAAATGATAAAAATGATTTAATAAATGTAATTATCTTAGCTTAAAGAGAGAGAGATAAATAAACAAAGGGCAAGTTTTTTGATTGTTTGGTGTTGAGTGTCTCTCTGTCCTTATTCCTCAACAAAAAAAAAAAAACTGGGAAGAAGAAAGAACAAACTCATTTTCAAATTCTCCGAATCTCTCTACTCCAATTAACTTTTTTCCGGGAAGATCTCACCGGAGAAAAGCTAGCTAGGGTTTCTCCACCGTGAAGATTCTAGAAGCGAGAATTTGGAATTTGCTAATTAAGAAGATGTGTTACGATCTTTCTTAATTAAAAAAGCATTGAAATTGACGAATTTAGGGTTGTGAAAAATATGGATTTGGATTCTTCAATGGTACCAGAGAATGATCAAGATCCTATTGCTACGTCTGAGAATCAATCTCCTATGGAGGAGAAAGAAGAAGCGTCTGAGCAACAAACCGGATCCGAATCCGAATCGGCGTCTTTGACTCCTTCTCTTCCTCCTCCTTCGCAGCAACAACAACAACAGCAGCAACAGCCGCAGGTAACGGCGGTGGTTGGTCCGAGATGTGCGCCAACGTATTCGGTTGTGAATGCTATAATCGAGAAGAAAGAAGATGGTCCTGGTCCTAGATGTGGACATACGCTGACGGCGGTTCCTGCTGTTGGTGAAGAAGGGACGTCTTCTTATATTGGCCCGAGACTGATCTTGTTTGGTGGTGCTACTGCTCTTGAGGGTAATTCTGGAGGAACGGGAACACCTACTTCAGCTGGAAGTGCTGGCATTCGGTTAGCTGGTGCAACCGCTGATGTTCATTGTTATGATGTTCTTTCTAATAAGTGGTCGAGGCTTACACCTTATGGAGAACCACCTAGTCCAAGAGCTGCTCATGTTGCTACTGCTGTTGGGACCATGGTAGTAATTCAGGGGGGAATAGGTCCTGCTGGTTTATCAGCTGAGGATCTTCACGTTCTTGATCTCACACAGCAACGGCCACGATGGCACAGGGTTGTTGTTCAGGGTCCTGGACCAGGACCACGTTATGGACATGTCATGGCACTGGTAGGACAGAGGTATCTCATGGCAATTGGTGGAAATGATGGGAAACGTCCATTAGCTGATGTATGGGCTTTGGACACTGCTGCCAAACCTTATGAATGGCGTAAGCTGGAACCGGAAGGGGAAGGTCCACCACCATGCATGTATGCAACTGCAAGTGCGCGATCTGATGGCCTTCTTCTTCTCTGTGGTGGAAGAGATGCGAATAGTGTGCCCCTAGCAAGTGCATATGGACTTGCCAAGCACAGAGATGGACGTTGGGAATGGGCCATAGCCCCAGGTGTCTCCCCTTCTGCCAGATACCAGCATGCTGCAGTCTTTGTAAATGCAAGACTCCATGTCTCTGGTGGGGCACTTGGTGGTGGACGCATGGTAGAAGACTCGTCCAGTGTTGCAGCAGGTGTTTGGTGTGATACAAAATCGGTTGTTACTAGTCCTAGAACTGGTAGGTATAGTGCTGACGCAGCTGGTGGTGATGCTTCTGTTGAGCTGACTAGGCGATGCAGGCATGCTGCTGCTGCAGTGGGTGATTTGATATTCATCTATGGTGGGTTGCGTGGAGGAGTTTTACTTGATGACCTATTGGTTGCTGAAGATCTTGCTGCAGCGGAAACAACATCTGCTGCCTCTCATGCTGCTGCTGCAGCAGCAGCAACAAACACGCCACCTGGCCGTTCACCTGGAAGATATGGATTTTCTGATGAAAGGACAGGGGAGCTACCAGAATCAGCTCCTGACGCTGTGGTGCTGGGAAGCCCTGTTGCACCCCCTGTAAATGGTGATATGTATACTGATATTAGCACTGAAAATGCAATGGTTCCAGGAATTCGGAGAACAAGCAAGGGTGTGGAGTATCTTGTTGAAGCATCTGCTGCGGAAGCCGAGGCTATCAGTGCAACATTAGCTGCTGCGAAGGCACGACAGGTCAATGGGGAAGTTGAACTTCCAGATAGGGATCGTGGTGCTGAGGCTACGCCCAGTGGAAAACCTTCATTATCATTGATTAAGCCTGATTCTGCAGTACCAAATAGTGTTATTCCTGCAGGGGTTCGACTTCATCATAGAGCTGTGGTGGTTGCTGCAGAAACAGGTGGAGCCTTAGGTGGAATGGTTAGACAGTTATCCATTGATCAATTTGAAAATGAGGGACGCCGTGTTAGTTATGGGACACCCGAAAGTGCAACAGCAGCTAGGAAATTATTAGATCGTCAGATGTCAATCAATAGTGTTCCGAAAAAGGTTGTAGCTCATCTTTTGAAGCCTCGGGGGTGGAAGCCTCCAGTTCGTCGCCAGTTTTTCTTGGATTGCAATGAAATAGCTGATCTTTGCGACAGTGCAGAACGTATCTTCTCAAGCGAACCTACTGTGTTACAGCTTAAAGCTCCTATTAAGATATTTGGTGATTTGCATGGCCAGTTTGGGGATCTCATGCGCCTTTTTGATGAATATGGTTCACCATCAACAGCTGGAGACATATCATACATCGATTACCTCTTCTTAGGAGACTATGTTGATCGGGGTCAACACAGCCTAGAGACAATTACACTTCTGCTTGCTTTAAAGGTTGAATACCAACATAACGTACACCTGATTCGTGGAAATCATGAAGCTGCCGACATTAATGCACTTTTTGGTTTCCGGATAGAGTGTATTGAGCGAATGGGTGAACGTGATGGGATCTGGGTGTGGCATCGAATAAACCGTTTATTCAATTGGCTACCTCTGGCTGCACTGATTGAGAAGAAAATCATCTGTATGCATGGGGGAATTGGTCGGTCGATAAATCATGTGGAGCAGATAGAAAATATCCAACGTCCAATTACGATGGAAGCAGGCTCAATTGTACTTATGGATTTATTATGGTCGGATCCAACTGAAAATGACAGTGTCGAAGGTTTAAGGCCCAATGCTAGAGGCCCTGGGTTGGTTACTTTTGGGCCTGACCGTGTCATGGAGTTTTGCAACAACAATGATCTGCAATTGATTGTACGTGCGCATGAATGCGTGATGGACGGATTTGAGCGTTTTGCCCAAGGTCATTTGATAACGCTCTTTTCGGCAACAAATTATTGTGGTACCGCAAACAATGCCGGGGCTATCTTGGTGTTGGGGAGAGATCTTGTGGTGGTTCCTAAGCTTATCCATCCATTGCCTCCAGCGATAACCTCACCTGAAACTTCACCAGAAAGACATATAGAGGATACATGGATGCAGGAGTTAAACGTAAATAGACCACCAACACCAACAAGAGGACGCCCACAAAATCCAAATGACCGCGGCTCTCTTGCTTGGATATAAACCCTACAGAAAGAGTGACGAGTGCGAGATAACATACCTCTCCCGAGTCCTGACAGCCGCCTCTAGGTGATCCTCATGTTGTGTACAGAACCAACCAAACCATTCAATTATCGATTGCTATTTACCAACGAGATGGATCAATGAGGGTTTTGAGTTATCGAAGAATTTCACAGGTTAAGTTCATTCAAGTCAGATGATGAAAGGGTAAAGAATTTGTAGTAGTAGTGAGGAGGAAGAGTATTTGTTTTGTAAAAGGGGTTTTCTCATTTTTATTCATATATTTGATTTTCTTCACTTTGCTTTTTTTCTTAGTATTGATTATATATGTGGTATTGGACTTTTGGTGAGGGACACAAACAGGAGAGTGAGTAGGAGGAGGATTTTAGAGGTTGTTTTAGTTTTGGGGTATTTATGTATCATAGAGAGGTGTGTTTGGTCGTTTGTATAATGTCTTCATTCATATTTTTCAGTATGTAATTTGTAGCAACGGTTTGTGTGTTTAATGATACAGAAAATATTCTCTCCCATTTTTTCTATCATATTCTTATTTTACCATCATTTTTAAAACATTTCTGTATTTTGTTAGTTTGTAAAATAAAAAATAAAAAATTGG - >AT2G27210.1
ATAGATAATTGTTTTATTTCCTCAAATAATTTCTGTTGTTTTTATAGTAATTAAGTAAATGATAAAAATGATTTAATAAATGTAATTATCTTAGCTTAAAGAGAGAGAGATAAATAAACAAAGGGCAAGTTTTTTGATTGTTTGGTGTTGAGTGTCTCTCTGTCCTTATTCCTCAACAAAAAAAAAAAAACTGGGAAGAAGAAAGAACAAACTCATTTTCAAATTCTCCGAATCTCTCTACTCCAATTAACTTTTTTCCGGGAAGATCTCACCGGAGAAAAGCTAGCTAGGGTTTCTCCACCGTGAAGATTCTAGAAGCGAGAATTTGGAATTTGCTAATTAAGAAGATGTGTTACGATCTTTCTTAATTAAAAAAGCATTGAAATTGACGAATTTAGGGTTGTGAAAAATATGGATTTGGATTCTTCAATGGTACCAGAGAATGATCAAGATCCTATTGCTACGTCTGAGAATCAATCTCCTATGGAGGAGAAAGAAGAAGCGTCTGAGCAACAAACCGGATCCGAATCCGAATCGGCGTCTTTGACTCCTTCTCTTCCTCCTCCTTCGCAGCAACAACAACAACAGCAGCAACAGCCGCAGGTAACGGCGGTGGTTGGTCCGAGATGTGCGCCAACGTATTCGGTTGTGAATGCTATAATCGAGAAGAAAGAAGATGGTCCTGGTCCTAGATGTGGACATACGCTGACGGCGGTTCCTGCTGTTGGTGAAGAAGGGACGTCTTCTTATATTGGCCCGAGACTGATCTTGTTTGGTGGTGCTACTGCTCTTGAGGGTAATTCTGGAGGAACGGGAACACCTACTTCAGCTGGAAGTGCTGGCATTCGGTTAGCTGGTGCAACCGCTGATGTTCATTGTTATGATGTTCTTTCTAATAAGTGGTCGAGGCTTACACCTTATGGAGAACCACCTAGTCCAAGAGCTGCTCATGTTGCTACTGCTGTTGGGACCATGGTAGTAATTCAGGGGGGAATAGGTCCTGCTGGTTTATCAGCTGAGGATCTTCACGTTCTTGATCTCACACAGCAACGGCCACGATGGCACAGGGTTGTTGTTCAGGGTCCTGGACCAGGACCACGTTATGGACATGTCATGGCACTGGTAGGACAGAGGTATCTCATGGCAATTGGTGGAAATGATGGGAAACGTCCATTAGCTGATGTATGGGCTTTGGACACTGCTGCCAAACCTTATGAATGGCGTAAGCTGGAACCGGAAGGGGAAGGTCCACCACCATGCATGTATGCAACTGCAAGTGCGCGATCTGATGGCCTTCTTCTTCTCTGTGGTGGAAGAGATGCGAATAGTGTGCCCCTAGCAAGTGCATATGGACTTGCCAAGCACAGAGATGGACGTTGGGAATGGGCCATAGCCCCAGGTGTCTCCCCTTCTGCCAGATACCAGCATGCTGCAGTCTTTGTAAATGCAAGACTCCATGTCTCTGGTGGGGCACTTGGTGGTGGACGCATGGTAGAAGACTCGTCCAGTGTTGCAGCAGGTGTTTGGTGTGATACAAAATCGGTTGTTACTAGTCCTAGAACTGGTAGGTATAGTGCTGACGCAGCTGGTGGTGATGCTTCTGTTGAGCTGACTAGGCGATGCAGGCATGCTGCTGCTGCAGTGGGTGATTTGATATTCATCTATGGTGGGTTGCGTGGAGGAGTTTTACTTGATGACCTATTGGTTGCTGAAGATCTTGCTGCAGCGGAAACAACATCTGCTGCCTCTCATGCTGCTGCTGCAGCAGCAGCAACAAACACGCCACCTGGCCGTTCACCTGGAAGATATGGATTTTCTGATGAAAGGACAGGGGAGCTACCAGAATCAGCTCCTGACGCTGTGGTGCTGGGAAGCCCTGTTGCACCCCCTGTAAATGGTGATATGTATACTGATATTAGCACTGAAAATGCAATGGTTCCAGGAATTCGGAGAACAAGCAAGGGTGTGGAGTATCTTGTTGAAGCATCTGCTGCGGAAGCCGAGGCTATCAGTGCAACATTAGCTGCTGCGAAGGCACGACAGGTCAATGGGGAAGTTGAACTTCCAGATAGGGATCGTGGTGCTGAGGCTACGCCCAGTGGAAAACCTTCATTATCATTGATTAAGCCTGATTCTGCAGTACCAAATAGTGTTATTCCTGCAGGGGTTCGACTTCATCATAGAGCTGTGGTGGTTGCTGCAGAAACAGGTGGAGCCTTAGGTGGAATGGTTAGACAGTTATCCATTGATCAATTTGAAAATGAGGGACGCCGTGTTAGTTATGGGACACCCGAAAGTGCAACAGCAGCTAGGAAATTATTAGATCGTCAGATGTCAATCAATAGTGTTCCGAAAAAGGTTGTAGCTCATCTTTTGAAGCCTCGGGGGTGGAAGCCTCCAGTTCGTCGCCAGTTTTTCTTGGATTGCAATGAAATAGCTGATCTTTGCGACAGTGCAGAACGTATCTTCTCAAGCGAACCTACTGTGTTACAGCTTAAAGCTCCTATTAAGATATTTGGTGATTTGCATGGCCAGTTTGGGGATCTCATGCGCCTTTTTGATGAATATGGTTCACCATCAACAGCTGGAGACATATCATACATCGATTACCTCTTCTTAGGAGACTATGTTGATCGGGGTCAACACAGCCTAGAGACAATTACACTTCTGCTTGCTTTAAAGGTTGAATACCAACATAACGTACACCTGATTCGTGGAAATCATGAAGCTGCCGACATTAATGCACTTTTTGGTTTCCGGATAGAGTGTATTGAGCGAATGGGTGAACGTGATGGGATCTGGGTGTGGCATCGAATAAACCGTTTATTCAATTGGCTACCTCTGGCTGCACTGATTGAGAAGAAAATCATCTGTATGCATGGGGGAATTGGTCGGTCGATAAATCATGTGGAGCAGATAGAAAATATCCAACGTCCAATTACGATGGAAGCAGGCTCAATTGTACTTATGGATTTATTATGGTCGGATCCAACTGAAAATGACAGTGTCGAAGGTTTAAGGCCCAATGCTAGAGGCCCTGGGTTGGTTACTTTTGGGCCTGACCGTGTCATGGAGTTTTGCAACAACAATGATCTGCAATTGATTGTACGTGCGCATGAATGCGTGATGGACGGATTTGAGCGTTTTGCCCAAGGTCATTTGATAACGCTCTTTTCGGCAACAAATTATTGTGGTACCGCAAACAATGCCGGGGCTATCTTGGTGTTGGGGAGAGATCTTGTGGTGGTTCCTAAGCTTATCCATCCATTGCCTCCAGCGATAACCTCACCTGAAACTTCACCAGAAAGACATATAGAGGATACATGGATGCAGGAGTTAAACGTAAATAGACCACCAACACCAACAAGAGGACGCCCACAAAATCCAAATGACCGCGGCTCTCTTGCTTGGATATAAACCCTACAGAAAGAGTGACGAGTGCGAGATAACATACCTCTCCCGAGTCCTGACAGCCGCCTCTAGGTGATCCTCATGTTGTGTACAGAACCAACCAAACCATTCAATTATCGATTGCTATTTACCAACGAGATGGATCAATGAGGGTTTTGAGTTATCGAAGAATTTCACAGGTTAAGTTCATTCAAGTCAGATGATGAAAGGGTAAAGAATTTGTAGTAGTAGTGAGGAGGAAGAGTATTTGTTTTGTAAAAGGGGTTTTCTCATTTTTATTCATATATTTGATTTTCTTCACTTTGCTTTTTTTCTTAGTATTGATTATATATGTGGTATTGGACTTTTGGTGAGGGACACAAACAGGAGAGTGAGTAGGAGGAGGATTTTAGAGGTTGTTTTAGTTTTGGGGTATTTATGTATCATAGAGAGGTGTGTTTGGTCGTTTGTATAATGTCTTCATTCATATTTTTCAGTATGTAATTTGTAGCAACGGTTTGTGTGTTTAATGATACAGAAAATATTCTCTCCCATTTTTTCTATCATATTCTTATTTTACCATCATTTTTAAAACATTTCTGTATTTTGTTAGTTTGTAAAATAAAAAATAAAAAATTGG
CDS Sequence
- >AT2G27210.2
ATGGATTTGGATTCTTCAATGGTACCAGAGAATGATCAAGATCCTATTGCTACGTCTGAGAATCAATCTCCTATGGAGGAGAAAGAAGAAGCGTCTGAGCAACAAACCGGATCCGAATCCGAATCGGCGTCTTTGACTCCTTCTCTTCCTCCTCCTTCGCAGCAACAACAACAACAGCAGCAACAGCCGCAGGTAACGGCGGTGGTTGGTCCGAGATGTGCGCCAACGTATTCGGTTGTGAATGCTATAATCGAGAAGAAAGAAGATGGTCCTGGTCCTAGATGTGGACATACGCTGACGGCGGTTCCTGCTGTTGGTGAAGAAGGGACGTCTTCTTATATTGGCCCGAGACTGATCTTGTTTGGTGGTGCTACTGCTCTTGAGGGTAATTCTGGAGGAACGGGAACACCTACTTCAGCTGGAAGTGCTGGCATTCGGTTAGCTGGTGCAACCGCTGATGTTCATTGTTATGATGTTCTTTCTAATAAGTGGTCGAGGCTTACACCTTATGGAGAACCACCTAGTCCAAGAGCTGCTCATGTTGCTACTGCTGTTGGGACCATGGTAGTAATTCAGGGGGGAATAGGTCCTGCTGGTTTATCAGCTGAGGATCTTCACGTTCTTGATCTCACACAGCAACGGCCACGATGGCACAGGGTTGTTGTTCAGGGTCCTGGACCAGGACCACGTTATGGACATGTCATGGCACTGGTAGGACAGAGGTATCTCATGGCAATTGGTGGAAATGATGGGAAACGTCCATTAGCTGATGTATGGGCTTTGGACACTGCTGCCAAACCTTATGAATGGCGTAAGCTGGAACCGGAAGGGGAAGGTCCACCACCATGCATGTATGCAACTGCAAGTGCGCGATCTGATGGCCTTCTTCTTCTCTGTGGTGGAAGAGATGCGAATAGTGTGCCCCTAGCAAGTGCATATGGACTTGCCAAGCACAGAGATGGACGTTGGGAATGGGCCATAGCCCCAGGTGTCTCCCCTTCTGCCAGATACCAGCATGCTGCAGTCTTTGTAAATGCAAGACTCCATGTCTCTGGTGGGGCACTTGGTGGTGGACGCATGGTAGAAGACTCGTCCAGTGTTGCAGCAGGTGTTTGGTGTGATACAAAATCGGTTGTTACTAGTCCTAGAACTGGTAGGTATAGTGCTGACGCAGCTGGTGGTGATGCTTCTGTTGAGCTGACTAGGCGATGCAGGCATGCTGCTGCTGCAGTGGGTGATTTGATATTCATCTATGGTGGGTTGCGTGGAGGAGTTTTACTTGATGACCTATTGGTTGCTGAAGATCTTGCTGCAGCGGAAACAACATCTGCTGCCTCTCATGCTGCTGCTGCAGCAGCAGCAACAAACACGCCACCTGGCCGTTCACCTGGAAGATATGGATTTTCTGATGAAAGGACAGGGGAGCTACCAGAATCAGCTCCTGACGCTGTGGTGCTGGGAAGCCCTGTTGCACCCCCTGTAAATGGTGATATGTATACTGATATTAGCACTGAAAATGCAATGGTTCCAGGAATTCGGAGAACAAGCAAGGGTGTGGAGTATCTTGTTGAAGCATCTGCTGCGGAAGCCGAGGCTATCAGTGCAACATTAGCTGCTGCGAAGGCACGACAGGTCAATGGGGAAGTTGAACTTCCAGATAGGGATCGTGGTGCTGAGGCTACGCCCAGTGGAAAACCTTCATTATCATTGATTAAGCCTGATTCTGCAGTACCAAATAGTGTTATTCCTGCAGGGGTTCGACTTCATCATAGAGCTGTGGTGGTTGCTGCAGAAACAGGTGGAGCCTTAGGTGGAATGGTTAGACAGTTATCCATTGATCAATTTGAAAATGAGGGACGCCGTGTTAGTTATGGGACACCCGAAAGTGCAACAGCAGCTAGGAAATTATTAGATCGTCAGATGTCAATCAATAGTGTTCCGAAAAAGGTTGTAGCTCATCTTTTGAAGCCTCGGGGGTGGAAGCCTCCAGTTCGTCGCCAGTTTTTCTTGGATTGCAATGAAATAGCTGATCTTTGCGACAGTGCAGAACGTATCTTCTCAAGCGAACCTACTGTGTTACAGCTTAAAGCTCCTATTAAGATATTTGGTGATTTGCATGGCCAGTTTGGGGATCTCATGCGCCTTTTTGATGAATATGGTTCACCATCAACAGCTGGAGACATATCATACATCGATTACCTCTTCTTAGGAGACTATGTTGATCGGGGTCAACACAGCCTAGAGACAATTACACTTCTGCTTGCTTTAAAGGTTGAATACCAACATAACGTACACCTGATTCGTGGAAATCATGAAGCTGCCGACATTAATGCACTTTTTGGTTTCCGGATAGAGTGTATTGAGCGAATGGGTGAACGTGATGGGATCTGGGTGTGGCATCGAATAAACCGTTTATTCAATTGGCTACCTCTGGCTGCACTGATTGAGAAGAAAATCATCTGTATGCATGGGGGAATTGGTCGGTCGATAAATCATGTGGAGCAGATAGAAAATATCCAACGTCCAATTACGATGGAAGCAGGCTCAATTGTACTTATGGATTTATTATGGTCGGATCCAACTGAAAATGACAGTGTCGAAGGTTTAAGGCCCAATGCTAGAGGCCCTGGGTTGGTTACTTTTGGGCCTGACCGTGTCATGGAGTTTTGCAACAACAATGATCTGCAATTGATTGTACGTGCGCATGAATGCGTGATGGACGGATTTGAGCGTTTTGCCCAAGGTCATTTGATAACGCTCTTTTCGGCAACAAATTATTGTGGTACCGCAAACAATGCCGGGGCTATCTTGGTGTTGGGGAGAGATCTTGTGGTGGTTCCTAAGCTTATCCATCCATTGCCTCCAGCGATAACCTCACCTGAAACTTCACCAGAAAGACATATAGAGGATACATGGATGCAGGAGTTAAACGTAAATAGACCACCAACACCAACAAGAGGACGCCCACAAAATCCAAATGACCGCGGCTCTCTTGCTTGGATATAA - >AT2G27210.1
ATGGATTTGGATTCTTCAATGGTACCAGAGAATGATCAAGATCCTATTGCTACGTCTGAGAATCAATCTCCTATGGAGGAGAAAGAAGAAGCGTCTGAGCAACAAACCGGATCCGAATCCGAATCGGCGTCTTTGACTCCTTCTCTTCCTCCTCCTTCGCAGCAACAACAACAACAGCAGCAACAGCCGCAGGTAACGGCGGTGGTTGGTCCGAGATGTGCGCCAACGTATTCGGTTGTGAATGCTATAATCGAGAAGAAAGAAGATGGTCCTGGTCCTAGATGTGGACATACGCTGACGGCGGTTCCTGCTGTTGGTGAAGAAGGGACGTCTTCTTATATTGGCCCGAGACTGATCTTGTTTGGTGGTGCTACTGCTCTTGAGGGTAATTCTGGAGGAACGGGAACACCTACTTCAGCTGGAAGTGCTGGCATTCGGTTAGCTGGTGCAACCGCTGATGTTCATTGTTATGATGTTCTTTCTAATAAGTGGTCGAGGCTTACACCTTATGGAGAACCACCTAGTCCAAGAGCTGCTCATGTTGCTACTGCTGTTGGGACCATGGTAGTAATTCAGGGGGGAATAGGTCCTGCTGGTTTATCAGCTGAGGATCTTCACGTTCTTGATCTCACACAGCAACGGCCACGATGGCACAGGGTTGTTGTTCAGGGTCCTGGACCAGGACCACGTTATGGACATGTCATGGCACTGGTAGGACAGAGGTATCTCATGGCAATTGGTGGAAATGATGGGAAACGTCCATTAGCTGATGTATGGGCTTTGGACACTGCTGCCAAACCTTATGAATGGCGTAAGCTGGAACCGGAAGGGGAAGGTCCACCACCATGCATGTATGCAACTGCAAGTGCGCGATCTGATGGCCTTCTTCTTCTCTGTGGTGGAAGAGATGCGAATAGTGTGCCCCTAGCAAGTGCATATGGACTTGCCAAGCACAGAGATGGACGTTGGGAATGGGCCATAGCCCCAGGTGTCTCCCCTTCTGCCAGATACCAGCATGCTGCAGTCTTTGTAAATGCAAGACTCCATGTCTCTGGTGGGGCACTTGGTGGTGGACGCATGGTAGAAGACTCGTCCAGTGTTGCAGCAGGTGTTTGGTGTGATACAAAATCGGTTGTTACTAGTCCTAGAACTGGTAGGTATAGTGCTGACGCAGCTGGTGGTGATGCTTCTGTTGAGCTGACTAGGCGATGCAGGCATGCTGCTGCTGCAGTGGGTGATTTGATATTCATCTATGGTGGGTTGCGTGGAGGAGTTTTACTTGATGACCTATTGGTTGCTGAAGATCTTGCTGCAGCGGAAACAACATCTGCTGCCTCTCATGCTGCTGCTGCAGCAGCAGCAACAAACACGCCACCTGGCCGTTCACCTGGAAGATATGGATTTTCTGATGAAAGGACAGGGGAGCTACCAGAATCAGCTCCTGACGCTGTGGTGCTGGGAAGCCCTGTTGCACCCCCTGTAAATGGTGATATGTATACTGATATTAGCACTGAAAATGCAATGGTTCCAGGAATTCGGAGAACAAGCAAGGGTGTGGAGTATCTTGTTGAAGCATCTGCTGCGGAAGCCGAGGCTATCAGTGCAACATTAGCTGCTGCGAAGGCACGACAGGTCAATGGGGAAGTTGAACTTCCAGATAGGGATCGTGGTGCTGAGGCTACGCCCAGTGGAAAACCTTCATTATCATTGATTAAGCCTGATTCTGCAGTACCAAATAGTGTTATTCCTGCAGGGGTTCGACTTCATCATAGAGCTGTGGTGGTTGCTGCAGAAACAGGTGGAGCCTTAGGTGGAATGGTTAGACAGTTATCCATTGATCAATTTGAAAATGAGGGACGCCGTGTTAGTTATGGGACACCCGAAAGTGCAACAGCAGCTAGGAAATTATTAGATCGTCAGATGTCAATCAATAGTGTTCCGAAAAAGGTTGTAGCTCATCTTTTGAAGCCTCGGGGGTGGAAGCCTCCAGTTCGTCGCCAGTTTTTCTTGGATTGCAATGAAATAGCTGATCTTTGCGACAGTGCAGAACGTATCTTCTCAAGCGAACCTACTGTGTTACAGCTTAAAGCTCCTATTAAGATATTTGGTGATTTGCATGGCCAGTTTGGGGATCTCATGCGCCTTTTTGATGAATATGGTTCACCATCAACAGCTGGAGACATATCATACATCGATTACCTCTTCTTAGGAGACTATGTTGATCGGGGTCAACACAGCCTAGAGACAATTACACTTCTGCTTGCTTTAAAGGTTGAATACCAACATAACGTACACCTGATTCGTGGAAATCATGAAGCTGCCGACATTAATGCACTTTTTGGTTTCCGGATAGAGTGTATTGAGCGAATGGGTGAACGTGATGGGATCTGGGTGTGGCATCGAATAAACCGTTTATTCAATTGGCTACCTCTGGCTGCACTGATTGAGAAGAAAATCATCTGTATGCATGGGGGAATTGGTCGGTCGATAAATCATGTGGAGCAGATAGAAAATATCCAACGTCCAATTACGATGGAAGCAGGCTCAATTGTACTTATGGATTTATTATGGTCGGATCCAACTGAAAATGACAGTGTCGAAGGTTTAAGGCCCAATGCTAGAGGCCCTGGGTTGGTTACTTTTGGGCCTGACCGTGTCATGGAGTTTTGCAACAACAATGATCTGCAATTGATTGTACGTGCGCATGAATGCGTGATGGACGGATTTGAGCGTTTTGCCCAAGGTCATTTGATAACGCTCTTTTCGGCAACAAATTATTGTGGTACCGCAAACAATGCCGGGGCTATCTTGGTGTTGGGGAGAGATCTTGTGGTGGTTCCTAAGCTTATCCATCCATTGCCTCCAGCGATAACCTCACCTGAAACTTCACCAGAAAGACATATAGAGGATACATGGATGCAGGAGTTAAACGTAAATAGACCACCAACACCAACAAGAGGACGCCCACAAAATCCAAATGACCGCGGCTCTCTTGCTTGGATATAA
Protein Sequence
- >AT2G27210.2
MDLDSSMVPENDQDPIATSENQSPMEEKEEASEQQTGSESESASLTPSLPPPSQQQQQQQQQPQVTAVVGPRCAPTYSVVNAIIEKKEDGPGPRCGHTLTAVPAVGEEGTSSYIGPRLILFGGATALEGNSGGTGTPTSAGSAGIRLAGATADVHCYDVLSNKWSRLTPYGEPPSPRAAHVATAVGTMVVIQGGIGPAGLSAEDLHVLDLTQQRPRWHRVVVQGPGPGPRYGHVMALVGQRYLMAIGGNDGKRPLADVWALDTAAKPYEWRKLEPEGEGPPPCMYATASARSDGLLLLCGGRDANSVPLASAYGLAKHRDGRWEWAIAPGVSPSARYQHAAVFVNARLHVSGGALGGGRMVEDSSSVAAGVWCDTKSVVTSPRTGRYSADAAGGDASVELTRRCRHAAAAVGDLIFIYGGLRGGVLLDDLLVAEDLAAAETTSAASHAAAAAAATNTPPGRSPGRYGFSDERTGELPESAPDAVVLGSPVAPPVNGDMYTDISTENAMVPGIRRTSKGVEYLVEASAAEAEAISATLAAAKARQVNGEVELPDRDRGAEATPSGKPSLSLIKPDSAVPNSVIPAGVRLHHRAVVVAAETGGALGGMVRQLSIDQFENEGRRVSYGTPESATAARKLLDRQMSINSVPKKVVAHLLKPRGWKPPVRRQFFLDCNEIADLCDSAERIFSSEPTVLQLKAPIKIFGDLHGQFGDLMRLFDEYGSPSTAGDISYIDYLFLGDYVDRGQHSLETITLLLALKVEYQHNVHLIRGNHEAADINALFGFRIECIERMGERDGIWVWHRINRLFNWLPLAALIEKKIICMHGGIGRSINHVEQIENIQRPITMEAGSIVLMDLLWSDPTENDSVEGLRPNARGPGLVTFGPDRVMEFCNNNDLQLIVRAHECVMDGFERFAQGHLITLFSATNYCGTANNAGAILVLGRDLVVVPKLIHPLPPAITSPETSPERHIEDTWMQELNVNRPPTPTRGRPQNPNDRGSLAWI - >AT2G27210.1
MDLDSSMVPENDQDPIATSENQSPMEEKEEASEQQTGSESESASLTPSLPPPSQQQQQQQQQPQVTAVVGPRCAPTYSVVNAIIEKKEDGPGPRCGHTLTAVPAVGEEGTSSYIGPRLILFGGATALEGNSGGTGTPTSAGSAGIRLAGATADVHCYDVLSNKWSRLTPYGEPPSPRAAHVATAVGTMVVIQGGIGPAGLSAEDLHVLDLTQQRPRWHRVVVQGPGPGPRYGHVMALVGQRYLMAIGGNDGKRPLADVWALDTAAKPYEWRKLEPEGEGPPPCMYATASARSDGLLLLCGGRDANSVPLASAYGLAKHRDGRWEWAIAPGVSPSARYQHAAVFVNARLHVSGGALGGGRMVEDSSSVAAGVWCDTKSVVTSPRTGRYSADAAGGDASVELTRRCRHAAAAVGDLIFIYGGLRGGVLLDDLLVAEDLAAAETTSAASHAAAAAAATNTPPGRSPGRYGFSDERTGELPESAPDAVVLGSPVAPPVNGDMYTDISTENAMVPGIRRTSKGVEYLVEASAAEAEAISATLAAAKARQVNGEVELPDRDRGAEATPSGKPSLSLIKPDSAVPNSVIPAGVRLHHRAVVVAAETGGALGGMVRQLSIDQFENEGRRVSYGTPESATAARKLLDRQMSINSVPKKVVAHLLKPRGWKPPVRRQFFLDCNEIADLCDSAERIFSSEPTVLQLKAPIKIFGDLHGQFGDLMRLFDEYGSPSTAGDISYIDYLFLGDYVDRGQHSLETITLLLALKVEYQHNVHLIRGNHEAADINALFGFRIECIERMGERDGIWVWHRINRLFNWLPLAALIEKKIICMHGGIGRSINHVEQIENIQRPITMEAGSIVLMDLLWSDPTENDSVEGLRPNARGPGLVTFGPDRVMEFCNNNDLQLIVRAHECVMDGFERFAQGHLITLFSATNYCGTANNAGAILVLGRDLVVVPKLIHPLPPAITSPETSPERHIEDTWMQELNVNRPPTPTRGRPQNPNDRGSLAWI