Gene Details:
- Gene ID: AT1G01960
- Gene Symbol: BIG3, EDA10
- Gene Name: BIG3, embryo sac development arrest 10
- Description: SEC7-like guanine nucleotide exchange family protein;(source:Araport11)
- TAIR Accession: locus:2025502
- Genome: Araport11_genome_release
- Species: Arabidopsis thaliana
Transcripts:
Plant Ontology Annotations:
- PO:0000013 — cauline leaf — hoja caulinar (Spanish, exact), 茎生葉、茎葉 (Japanese, exact)
- PO:0000230 — inflorescence meristem — meristema de la inflorescencia (Spanish, exact), 花序分裂組織 (Japanese, exact)
- PO:0009010 — seed — semilla (Spanish, exact), 種子 (Japanese, exact), pyrene (narrow), diaspore (broad)
- PO:0009030 — carpel — carpelo (Spanish, exact), 心皮 (Japanese, exact), Poaceae carpel (narrow), Zea carpel (narrow), pistil (broad)
- PO:0009032 — petal — pétalo (Spanish, exact), 花弁 (Japanese, exact)
- PO:0009047 — stem — caña (Spanish, exact), culm (exact), eje primario (Spanish, exact), primary axis (exact), primary stem (exact), tallo (Spanish, exact), tronco (Spanish, exact), 茎 (Japanese, exact), bole (narrow), cane (narrow), caudex (narrow), caudices (narrow), core (narrow), primocane (narrow), scape (narrow), stalk (narrow), trunk (narrow)
- PO:0025281 — pollen — polen (Spanish, exact), pollen grain (exact), 花粉 (Japanese, exact)
- PO:0000293 — guard cell — célula guardiana (Spanish, exact), occlusive cell (exact), 孔辺細胞 (Japanese, exact)
Gene Ontology:
- GO:0032012 — involved in — regulation of ARF protein signal transduction
- GO:0005829 — located in — cytosol
- GO:0005802 — is active in — trans-Golgi network
- GO:0032588 — located in — trans-Golgi network membrane
- GO:0009561 — acts upstream of or within — megagametogenesis
- GO:0016192 — acts upstream of or within — vesicle-mediated transport
- GO:0005634 — located in — nucleus
Function-related keywords:
- cauline leaf , inflorescence meristem , seed , carpel , petal , stem , pollen , guard cell
Literature:
- NONEXPRESSOR OF PATHOGENESIS-RELATED PROTEINS1 (NPR1) and some NPR1-related proteins are sensitive to salicylic acid. DOI: 10.1111/j.1364-3703.2010.00653.x ; PMID: 21118350
- The Arabidopsis NIMIN proteins affect NPR1 differentially. DOI: 10.3389/fpls.2013.00088 ; PMID: 23630533
- Overexpression of Arabidopsis NIMIN1 results in salicylate intolerance. DOI: 10.1080/15592324.2016.1211222 ; PMID: 27429420
- Transcription factor ANAC032 modulates JA/SA signalling in response to Pseudomonas syringae infection. DOI: 10.15252/embr.201642197 ; PMID: 27632992
- Gene and enhancer trap transposable elements reveal oxygen deprivation-regulated genes and their complex patterns of expression in Arabidopsis. DOI: 10.1093/aob/mcf119 ; PMID: 12509334
- The use of microarrays to study the anaerobic response in Arabidopsis. DOI: 10.1093/aob/mci218 ; PMID: 16033780
- The Populus homeobox gene ARBORKNOX1 reveals overlapping mechanisms regulating the shoot apical meristem and the vascular cambium. DOI: 10.1007/s11103-006-0059-y ; PMID: 16927204
- Patterns of expansion and expression divergence in the plant polygalacturonase gene family. DOI: 10.1186/gb-2006-7-9-r87 ; PMID: 17010199
- The pectin lyases in Arabidopsis thaliana: evolution, selection and expression profiles. DOI: 10.1371/journal.pone.0046944 ; PMID: 23056537
- Different expression of an S-adenosylmethionine synthetase gene in transgenic tobacco callus modifies alkaloid biosynthesis. DOI: 10.1002/(SICI)1097-0290(20000705)69:1<11::AID-BIT2>3.0.CO;2-J ; PMID: 10820326
- Transient occurrence of extrachromosomal DNA of an Arabidopsis thaliana transposon-like element, Tat1. DOI: 10.1073/pnas.88.9.3618 ; PMID: 1850833
- Structure and expression analyses of the S-adenosylmethionine synthetase gene family in Arabidopsis thaliana. DOI: 10.1016/0378-1119(89)90510-6 ; PMID: 2482229
- Strong cellular preference in the expression of a housekeeping gene of Arabidopsis thaliana encoding S-adenosylmethionine synthetase. DOI: 10.1105/tpc.1.1.81 ; PMID: 2535470
- Rice salT promoter is activated in Papaver somniferum and Nicotiana tabacum transgenic cells in the absence of exogenous ABA. DOI: 10.1016/s0141-0229(00)00286-6 ; PMID: 11118604
- Overexpression of a heterologous sam gene encoding S-adenosylmethionine synthetase in flax (Linum usitatissimum) cells: Consequences on methylation of lignin precursors and pectins. DOI: 10.1034/j.1399-3054.2001.1120211.x ; PMID: 11454228
- Genes involved in biosynthesis and signalisation of ethylene in Brassica oleracea and Arabidopsis thaliana: identification and genome comparative mapping of specific gene homologues. DOI: 10.1007/s00122-005-0136-7 ; PMID: 16311726
Sequences:
cDNA Sequence
- >AT1G01960.1
CGGAGACATTACCGCCACTATTCAAGGATATATAAGTCATTTCATATAGAGGAGAGGACGGCGATCCAAATCTGGTTCTCTCGGATTTTTATTATATTGGTTACTTCACTCAAGCTCACCATTTTTTTTTTTGTCTCGTCTGCTTCATCTTCGTAGATGTCTGTAATTCACTGACTCCCTGATAAGAATACTGCTTTGATTGGATCGCAGAGGAGGAGGCGTTGCTCTTGTTGTTGTTATCCGTTCTCTCTGGGCTACATAGATAGATACTCACTCTCCTCTTATAGATCTAAATTGGTGATTCGTTGAAGTCACGGCTACCAATCTGGAATGGCTTCTACGGAAGTCGATTCCCGCTTAGGTCGAGTTGTTATCCCTGCTTTGGACAAGGTCATTAAGAACGCCTCCTGGCGTAAGCACTCCAAGCTCGCCCACGAGTGCAAATCCGTCATCGAACGCCTTAGATCCCCTGAAAATTCCTCTCCTGTTGCCGACTCTGAATCTGGATCCTCCATTCCTGGACCACTTCACGACGGAGGAGCCGCCGAATACTCTCTCGCCGAGTCCGAGATCATCCTCAGCCCTCTCATCAACGCCTCCTCCACCGGCGTTCTCAAGATTGTCGATCCCGCCGTTGATTGCATCCAGAAGCTTATTGCTCATGGCTACGTTCGCGGTGAGGCTGATCCCACCGGCGGACCTGAGGCGCTACTCCTTTCCAAGCTCATTGAAACCATCTGCAAATGTCACGAGCTAGACGACGAAGGGCTCGAGTTGCTCGTGCTGAAGACGCTCTTGACTGCGGTAACTTCAATTTCCCTGAGGATCCATGGAGATTCTTTGCTACAGATCGTCAGGACTTGTTATGGTATCTACTTGGGAAGCAGAAACGTGGTTAATCAGGCGACTGCTAAAGCCTCGCTCGTGCAGATGTCTGTTATCGTGTTCAGAAGAATGGAGGCAGATTCATCCACCGTCCCCATTCAGCCCATCGTCGTGGCCGAGCTGATGGAGCCCATGGACAAATCCGAATCAGACCCATCTACGACGCAGTCTGTTCAAGGTTTCATTACCAAGATTATGCAGGACATTGACGGAGTCTTCAATTCAGCTAACGCCAAGGGCACATTCGGCGGCCATGACGGGGCCTTCGAGACTTCATTGCCTGGCACTGCCAATCCTACTGATTTGTTGGATTCTACTGATAAGGATATGTTGGATGCCAAGTACTGGGAGATCAGTATGTATAAGTCGGCCCTCGAGGGAAGAAAAGGAGAGCTGGCCGATGGAGAAGTGGAGAAAGACGATGATTCTGAAGTTCAGATTGGGAATAAGCTGAGAAGAGACGCCTTCTTGGTTTTCAGGGCACTTTGCAAGCTGTCCATGAAGACGCCTCCCAAGGAAGATCCAGAGTTGATGAGAGGGAAGATTGTGGCTCTCGAGTTATTGAAGATTCTGCTTGAGAATGCCGGTGCTGTCTTTAGAACCAGCGATAGGTTCTTAGGCGCCATCAAGCAGTATCTGTGTCTCTCCTTGCTGAAGAACAGTGCTTCAAATCTTATGATCATTTTCCAGCTTTCCTGCTCGATTTTACTTAGCTTGGTTTCGAGGTTTCGTGCTGGGCTGAAGGCAGAGATTGGGGTGTTCTTCCCTATGATTGTTCTAAGAGTATTAGAGAATGTTGCTCAACCTGATTTCCAACAGAAGATGATAGTGCTTCGGTTCTTGGACAAGCTCTGCGTTGATTCACAGATTTTGGTAGATATCTTCATCAACTATGATTGCGATGTCAACTCATCCAATATATTTGAGAGGATGGTCAATGGTCTCCTTAAGACTGCTCAAGGAGTGCCTCCTGGTACAGTTACTACCTTGTTGCCACCTCAGGAAGCAGCCATGAAGCTTGAAGCCATGAAATGCTTAGTTGCTGTTTTAAGGTCTATGGGAGACTGGGTGAATAAGCAGTTGCGTCTTCCAGATCCTTATTCGGCAAAAATGCTGGAAATTGTTGATAGAAATCTTGAAGAAGGAAGTCATCCAGTAGAAAATGGTAAGGGGGATGGAGGCCATGGTGGTTTTGAAAGATCAGACTCTCAGTCTGAATTGTCCAGTGGGAATTCTGATGCCTTAGCAATAGAGCAGCGCCGAGCTTACAAGCTTGAACTTCAGGAAGGTATTTCTATTTTCAACCAGAAACCTAAGAAAGGTATTGAATTTTTAATCAAGGCAAACAAGGTGGGGGACTCGCCAGAGGAAATAGCAGCTTTTCTCAAAGATGCATCAGGGTTGAACAAGACTTTGATAGGGGATTATCTGGGGGAAAGAGAAGACTTATCTCTGAAAGTGATGCATGCATATGTGGATTCTTTCGAATTTCAAGGCATGGAATTTGATGAGGCAATTCGAGCCTTTCTCCGGGGCTTTAGGCTGCCAGGAGAAGCACAAAAAATCGATCGTATAATGGAAAAATTTGCAGAGCGATTCTGTAAATGCAACCCAAAGGATTTTTCTAGCGCTGATACGGCATATGTCCTCGCTTACTCAGTCATTTTGCTCAACACAGATGCACATAACCCTATGGTGAAGAGCAAGATGACAGCTGATGGTTTTATTAGAAACAATCGTGGTATAGATGATGGGAAAGATTTGCCTGAGGAATATCTACGTGCATTATATGAAAGGATATCTAGAAATGAGATAAAGATGAAGGATGATGGTTTGGGTCCGCAGCAGAAGCAGCCTACAAACTCAAGTAGATTACTTGGCTTAGATACTATCTTAAATATTGTTGTTCCTAGGCGTGGTGACGATATGAACATGGAGACCAGTGATGATCTTATCAGGCATATGCAAGAGAGATTTAAAGAAAAGGCTCGCAAATCTGAGTCAGTTTATTATGCAGCCTCGGATGTGATTATACTCAGATTTATGGTTGAGGTTTGTTGGGCTCCTATGTTGGCAGCTTTCAGTGTTCCACTTGACCAGAGTGATGATGCAGTAATAACAACATTATGTCTGGAGGGTTTCCATCATGCCATCCATGTCACTTCTGTAATGTCCTTAAAAACGCACAGAGATGCCTTTGTGACTTCACTAGCAAAATTTACTTCCCTCCACTCTCCTGCTGATATCAAGCAAAAAAACATTGAAGCAATAAAGGCAATAGTAAAACTGGCGGAGGAAGAAGGAAACTATCTACAAGATGCTTGGGAGCATATACTGACTTGTGTTTCACGGTTTGAGCATCTTCATCTCTTGGGGGAAGGAGCGCCTCCTGATGCCACTTTCTTTGCATTTCCTCAAACGGAGTCAGGAAACTCTCCACTGGCTAAGCCAAATTCCGTACCTGCAATTAAAGAAAGAGCACCTGGAAAACTTCAGTATGCTGCATCTGCTATGATAAGGGGTTCCTACGATGGTTCTGGTGTTGCTGGAAAGGCTTCTAATACAGTGACATCTGAACAGATGAACAACTTGATATCTAATCTAAACTTGCTAGAACAAGTTGGTGACATGAGTCGGATATTTACTCGTAGTCAAAGATTGAATAGTGAAGCCATAATTGACTTTGTTAAAGCCCTCTGCAAAGTTTCCATGGATGAGTTACGATCTCCATCTGATCCACGGGTCTTCAGCCTAACAAAGATTGTGGAAATAGCGCACTATAACATGAACCGCATAAGACTTGTCTGGTCGAGCATCTGGCATGTGCTCTCTGATTTCTTTGTGACTATTGGCTGTTCTGATAACCTCTCCATTGCAATTTTTGCAATGGATTCTTTGCGCCAGCTGTCTATGAAGTTCTTAGAGCGGGAAGAGTTGGCGAATTATAACTTCCAAAATGAATTTATGAAGCCTTTTGTTGTTGTCATGCGCAAAAGTGGTGCTGTTGAGATCAGGGAATTGATTATACGATGTGTCTCACAGATGGTTTTATCCCGTGTTGACAATGTCAAGTCGGGATGGAAGAGTATGTTCATGATTTTCACGACAGCAGCACATGATGCACATAAAAATATTGTGTTCCTGTCTTTTGAAATGGTTGAGAAGATTATCCGAGACTACTTCCCACACATCACGGAGACAGAGACAACCACCTTCACAGACTGTGTGAATTGCCTTGTTGCGTTCACCAATTGTAAATTTGAGAAAGATATTAGTCTCCAAGCCATTGCTTTCCTTCAGTATTGCGCAAGAAAACTTGCTGAAGGCTATGTTGGTTCGTCACTGAGGAGGAACCCACCATTATCTCCTCAGGGTGGAAAAATTGGAAAACAAGATAGTGGGAAGTTTCTAGAAAGTGATGAACATTTGTATTCTTGGTTTCCACTGTTAGCCGGTTTATCTGAACTTAGTTTCGACCCAAGAGCAGAAATTAGGAAGGTTGCATTGAAAGTCCTGTTTGATACTCTGAGGAACCATGGTGACCATTTCAGTCTGGCGTTATGGGAACGGGTTTTTGAGTCTGTTTTATTTCGAATATTCGACTATGTGCGTCAGGACGTTGACCCATCTGAGGATGATTCAACAGATCAGAGAGGTTACAATGGTGAAGTCGACCAAGAGTCTTGGCTTTATGAGACATGCTCGTTAGCTCTACAGCTGGTTGTAGACCTCTTTGTAAATTTTTACAAGACGGTTAACCCTCTCCTTAAGAAGGTACTGATGTTATTTGTAAGCTTGATAAAACGTCCTCACCAAAGTCTTGCTGGTGCGGGTATTGCTGCGCTTGTCCGTCTGATGAGAGATGTCGGTCATCAATTCTCTAACGAACAATGGCTCGAGGTTGTGTCATGTATCAAAGAAGCAGCAGATGCTACATCCCCTGACTTCTCATACGTTACCAGTGAAGATTTGATGGAGGATGTAAGCAATGAGGACGAAACAAACGATAATTCCAACGACGCACTGAGAAGAAGGAACAGGCAGCTTCATGCTGTCGTCACAGATGCCAAATCTAAAGCTTCAATTCAGATTTTTGTGATTCAGGCGGTAACAGATATCTACGACATGTACCGTATGTCTCTCACAGCCAATCACATGTTGATGCTCTTCGACGCTATGCACGGCATTGGATCCAACGCTCACAAAATCAACGCTGATCTACTCTTACGTTCCAAGCTCCAGGAGCTCGGGTCGTCCCTTGAATCCCAAGAAGCTCCTCTGCTGCGCCTGGAGAACGAATCTTTCCAAACATGTATGACCTTCTTAGACAACCTCATCTCAGATCAGCCTGTGGGTTACAACGAGGCTGAAATAGAATCCCACCTCATAAGCCTCTGCAGAGAGGTGTTAGAGTTCTACATAAATATTTCATGTTCAAAGGAGCAGTCTTCAAGGTGGGCGGTTCCCTCGGGGTCAGGAAAAAAGAAAGAGCTAACAGCGCGGGCTCCGCTAGTGGTGGCTGCAATTCAGACATTGGGAAACATGGGAGAGTCACTGTTCAAGAAGAACTTGCCGGAGTTGTTTCCATTGATAGCGACGTTGATAAGCTGTGAACATGGGTCAGGAGAGGTACAAGTAGCTCTTAGTGATATGCTTCAGACATCAATGGGACCTGTTCTCCTCCGCTCTTGCTGCTAAATATCTATCTATCTCTCTGTAAGATTTCTTCATTTACTCCCTCGATTTTCATCATAATTCTGTTTGGGTCTTCTTTGAGTTTTTATCACAAATTACTTACATTGTTTGGTAGCCATGGGAAGAGATTAGTGTTCACGAGGGATTTTTTTTTTAACTTTCTTATATGTAAATTGTAAAATATTAGACAGTCTGTGTTTTTGACACGTTGTTGCATAATAAGTCTTAGCAATCTTTCTTTGTTT
CDS Sequence
- >AT1G01960.1
ATGGCTTCTACGGAAGTCGATTCCCGCTTAGGTCGAGTTGTTATCCCTGCTTTGGACAAGGTCATTAAGAACGCCTCCTGGCGTAAGCACTCCAAGCTCGCCCACGAGTGCAAATCCGTCATCGAACGCCTTAGATCCCCTGAAAATTCCTCTCCTGTTGCCGACTCTGAATCTGGATCCTCCATTCCTGGACCACTTCACGACGGAGGAGCCGCCGAATACTCTCTCGCCGAGTCCGAGATCATCCTCAGCCCTCTCATCAACGCCTCCTCCACCGGCGTTCTCAAGATTGTCGATCCCGCCGTTGATTGCATCCAGAAGCTTATTGCTCATGGCTACGTTCGCGGTGAGGCTGATCCCACCGGCGGACCTGAGGCGCTACTCCTTTCCAAGCTCATTGAAACCATCTGCAAATGTCACGAGCTAGACGACGAAGGGCTCGAGTTGCTCGTGCTGAAGACGCTCTTGACTGCGGTAACTTCAATTTCCCTGAGGATCCATGGAGATTCTTTGCTACAGATCGTCAGGACTTGTTATGGTATCTACTTGGGAAGCAGAAACGTGGTTAATCAGGCGACTGCTAAAGCCTCGCTCGTGCAGATGTCTGTTATCGTGTTCAGAAGAATGGAGGCAGATTCATCCACCGTCCCCATTCAGCCCATCGTCGTGGCCGAGCTGATGGAGCCCATGGACAAATCCGAATCAGACCCATCTACGACGCAGTCTGTTCAAGGTTTCATTACCAAGATTATGCAGGACATTGACGGAGTCTTCAATTCAGCTAACGCCAAGGGCACATTCGGCGGCCATGACGGGGCCTTCGAGACTTCATTGCCTGGCACTGCCAATCCTACTGATTTGTTGGATTCTACTGATAAGGATATGTTGGATGCCAAGTACTGGGAGATCAGTATGTATAAGTCGGCCCTCGAGGGAAGAAAAGGAGAGCTGGCCGATGGAGAAGTGGAGAAAGACGATGATTCTGAAGTTCAGATTGGGAATAAGCTGAGAAGAGACGCCTTCTTGGTTTTCAGGGCACTTTGCAAGCTGTCCATGAAGACGCCTCCCAAGGAAGATCCAGAGTTGATGAGAGGGAAGATTGTGGCTCTCGAGTTATTGAAGATTCTGCTTGAGAATGCCGGTGCTGTCTTTAGAACCAGCGATAGGTTCTTAGGCGCCATCAAGCAGTATCTGTGTCTCTCCTTGCTGAAGAACAGTGCTTCAAATCTTATGATCATTTTCCAGCTTTCCTGCTCGATTTTACTTAGCTTGGTTTCGAGGTTTCGTGCTGGGCTGAAGGCAGAGATTGGGGTGTTCTTCCCTATGATTGTTCTAAGAGTATTAGAGAATGTTGCTCAACCTGATTTCCAACAGAAGATGATAGTGCTTCGGTTCTTGGACAAGCTCTGCGTTGATTCACAGATTTTGGTAGATATCTTCATCAACTATGATTGCGATGTCAACTCATCCAATATATTTGAGAGGATGGTCAATGGTCTCCTTAAGACTGCTCAAGGAGTGCCTCCTGGTACAGTTACTACCTTGTTGCCACCTCAGGAAGCAGCCATGAAGCTTGAAGCCATGAAATGCTTAGTTGCTGTTTTAAGGTCTATGGGAGACTGGGTGAATAAGCAGTTGCGTCTTCCAGATCCTTATTCGGCAAAAATGCTGGAAATTGTTGATAGAAATCTTGAAGAAGGAAGTCATCCAGTAGAAAATGGTAAGGGGGATGGAGGCCATGGTGGTTTTGAAAGATCAGACTCTCAGTCTGAATTGTCCAGTGGGAATTCTGATGCCTTAGCAATAGAGCAGCGCCGAGCTTACAAGCTTGAACTTCAGGAAGGTATTTCTATTTTCAACCAGAAACCTAAGAAAGGTATTGAATTTTTAATCAAGGCAAACAAGGTGGGGGACTCGCCAGAGGAAATAGCAGCTTTTCTCAAAGATGCATCAGGGTTGAACAAGACTTTGATAGGGGATTATCTGGGGGAAAGAGAAGACTTATCTCTGAAAGTGATGCATGCATATGTGGATTCTTTCGAATTTCAAGGCATGGAATTTGATGAGGCAATTCGAGCCTTTCTCCGGGGCTTTAGGCTGCCAGGAGAAGCACAAAAAATCGATCGTATAATGGAAAAATTTGCAGAGCGATTCTGTAAATGCAACCCAAAGGATTTTTCTAGCGCTGATACGGCATATGTCCTCGCTTACTCAGTCATTTTGCTCAACACAGATGCACATAACCCTATGGTGAAGAGCAAGATGACAGCTGATGGTTTTATTAGAAACAATCGTGGTATAGATGATGGGAAAGATTTGCCTGAGGAATATCTACGTGCATTATATGAAAGGATATCTAGAAATGAGATAAAGATGAAGGATGATGGTTTGGGTCCGCAGCAGAAGCAGCCTACAAACTCAAGTAGATTACTTGGCTTAGATACTATCTTAAATATTGTTGTTCCTAGGCGTGGTGACGATATGAACATGGAGACCAGTGATGATCTTATCAGGCATATGCAAGAGAGATTTAAAGAAAAGGCTCGCAAATCTGAGTCAGTTTATTATGCAGCCTCGGATGTGATTATACTCAGATTTATGGTTGAGGTTTGTTGGGCTCCTATGTTGGCAGCTTTCAGTGTTCCACTTGACCAGAGTGATGATGCAGTAATAACAACATTATGTCTGGAGGGTTTCCATCATGCCATCCATGTCACTTCTGTAATGTCCTTAAAAACGCACAGAGATGCCTTTGTGACTTCACTAGCAAAATTTACTTCCCTCCACTCTCCTGCTGATATCAAGCAAAAAAACATTGAAGCAATAAAGGCAATAGTAAAACTGGCGGAGGAAGAAGGAAACTATCTACAAGATGCTTGGGAGCATATACTGACTTGTGTTTCACGGTTTGAGCATCTTCATCTCTTGGGGGAAGGAGCGCCTCCTGATGCCACTTTCTTTGCATTTCCTCAAACGGAGTCAGGAAACTCTCCACTGGCTAAGCCAAATTCCGTACCTGCAATTAAAGAAAGAGCACCTGGAAAACTTCAGTATGCTGCATCTGCTATGATAAGGGGTTCCTACGATGGTTCTGGTGTTGCTGGAAAGGCTTCTAATACAGTGACATCTGAACAGATGAACAACTTGATATCTAATCTAAACTTGCTAGAACAAGTTGGTGACATGAGTCGGATATTTACTCGTAGTCAAAGATTGAATAGTGAAGCCATAATTGACTTTGTTAAAGCCCTCTGCAAAGTTTCCATGGATGAGTTACGATCTCCATCTGATCCACGGGTCTTCAGCCTAACAAAGATTGTGGAAATAGCGCACTATAACATGAACCGCATAAGACTTGTCTGGTCGAGCATCTGGCATGTGCTCTCTGATTTCTTTGTGACTATTGGCTGTTCTGATAACCTCTCCATTGCAATTTTTGCAATGGATTCTTTGCGCCAGCTGTCTATGAAGTTCTTAGAGCGGGAAGAGTTGGCGAATTATAACTTCCAAAATGAATTTATGAAGCCTTTTGTTGTTGTCATGCGCAAAAGTGGTGCTGTTGAGATCAGGGAATTGATTATACGATGTGTCTCACAGATGGTTTTATCCCGTGTTGACAATGTCAAGTCGGGATGGAAGAGTATGTTCATGATTTTCACGACAGCAGCACATGATGCACATAAAAATATTGTGTTCCTGTCTTTTGAAATGGTTGAGAAGATTATCCGAGACTACTTCCCACACATCACGGAGACAGAGACAACCACCTTCACAGACTGTGTGAATTGCCTTGTTGCGTTCACCAATTGTAAATTTGAGAAAGATATTAGTCTCCAAGCCATTGCTTTCCTTCAGTATTGCGCAAGAAAACTTGCTGAAGGCTATGTTGGTTCGTCACTGAGGAGGAACCCACCATTATCTCCTCAGGGTGGAAAAATTGGAAAACAAGATAGTGGGAAGTTTCTAGAAAGTGATGAACATTTGTATTCTTGGTTTCCACTGTTAGCCGGTTTATCTGAACTTAGTTTCGACCCAAGAGCAGAAATTAGGAAGGTTGCATTGAAAGTCCTGTTTGATACTCTGAGGAACCATGGTGACCATTTCAGTCTGGCGTTATGGGAACGGGTTTTTGAGTCTGTTTTATTTCGAATATTCGACTATGTGCGTCAGGACGTTGACCCATCTGAGGATGATTCAACAGATCAGAGAGGTTACAATGGTGAAGTCGACCAAGAGTCTTGGCTTTATGAGACATGCTCGTTAGCTCTACAGCTGGTTGTAGACCTCTTTGTAAATTTTTACAAGACGGTTAACCCTCTCCTTAAGAAGGTACTGATGTTATTTGTAAGCTTGATAAAACGTCCTCACCAAAGTCTTGCTGGTGCGGGTATTGCTGCGCTTGTCCGTCTGATGAGAGATGTCGGTCATCAATTCTCTAACGAACAATGGCTCGAGGTTGTGTCATGTATCAAAGAAGCAGCAGATGCTACATCCCCTGACTTCTCATACGTTACCAGTGAAGATTTGATGGAGGATGTAAGCAATGAGGACGAAACAAACGATAATTCCAACGACGCACTGAGAAGAAGGAACAGGCAGCTTCATGCTGTCGTCACAGATGCCAAATCTAAAGCTTCAATTCAGATTTTTGTGATTCAGGCGGTAACAGATATCTACGACATGTACCGTATGTCTCTCACAGCCAATCACATGTTGATGCTCTTCGACGCTATGCACGGCATTGGATCCAACGCTCACAAAATCAACGCTGATCTACTCTTACGTTCCAAGCTCCAGGAGCTCGGGTCGTCCCTTGAATCCCAAGAAGCTCCTCTGCTGCGCCTGGAGAACGAATCTTTCCAAACATGTATGACCTTCTTAGACAACCTCATCTCAGATCAGCCTGTGGGTTACAACGAGGCTGAAATAGAATCCCACCTCATAAGCCTCTGCAGAGAGGTGTTAGAGTTCTACATAAATATTTCATGTTCAAAGGAGCAGTCTTCAAGGTGGGCGGTTCCCTCGGGGTCAGGAAAAAAGAAAGAGCTAACAGCGCGGGCTCCGCTAGTGGTGGCTGCAATTCAGACATTGGGAAACATGGGAGAGTCACTGTTCAAGAAGAACTTGCCGGAGTTGTTTCCATTGATAGCGACGTTGATAAGCTGTGAACATGGGTCAGGAGAGGTACAAGTAGCTCTTAGTGATATGCTTCAGACATCAATGGGACCTGTTCTCCTCCGCTCTTGCTGCTAA
Protein Sequence
- >AT1G01960.1
MASTEVDSRLGRVVIPALDKVIKNASWRKHSKLAHECKSVIERLRSPENSSPVADSESGSSIPGPLHDGGAAEYSLAESEIILSPLINASSTGVLKIVDPAVDCIQKLIAHGYVRGEADPTGGPEALLLSKLIETICKCHELDDEGLELLVLKTLLTAVTSISLRIHGDSLLQIVRTCYGIYLGSRNVVNQATAKASLVQMSVIVFRRMEADSSTVPIQPIVVAELMEPMDKSESDPSTTQSVQGFITKIMQDIDGVFNSANAKGTFGGHDGAFETSLPGTANPTDLLDSTDKDMLDAKYWEISMYKSALEGRKGELADGEVEKDDDSEVQIGNKLRRDAFLVFRALCKLSMKTPPKEDPELMRGKIVALELLKILLENAGAVFRTSDRFLGAIKQYLCLSLLKNSASNLMIIFQLSCSILLSLVSRFRAGLKAEIGVFFPMIVLRVLENVAQPDFQQKMIVLRFLDKLCVDSQILVDIFINYDCDVNSSNIFERMVNGLLKTAQGVPPGTVTTLLPPQEAAMKLEAMKCLVAVLRSMGDWVNKQLRLPDPYSAKMLEIVDRNLEEGSHPVENGKGDGGHGGFERSDSQSELSSGNSDALAIEQRRAYKLELQEGISIFNQKPKKGIEFLIKANKVGDSPEEIAAFLKDASGLNKTLIGDYLGEREDLSLKVMHAYVDSFEFQGMEFDEAIRAFLRGFRLPGEAQKIDRIMEKFAERFCKCNPKDFSSADTAYVLAYSVILLNTDAHNPMVKSKMTADGFIRNNRGIDDGKDLPEEYLRALYERISRNEIKMKDDGLGPQQKQPTNSSRLLGLDTILNIVVPRRGDDMNMETSDDLIRHMQERFKEKARKSESVYYAASDVIILRFMVEVCWAPMLAAFSVPLDQSDDAVITTLCLEGFHHAIHVTSVMSLKTHRDAFVTSLAKFTSLHSPADIKQKNIEAIKAIVKLAEEEGNYLQDAWEHILTCVSRFEHLHLLGEGAPPDATFFAFPQTESGNSPLAKPNSVPAIKERAPGKLQYAASAMIRGSYDGSGVAGKASNTVTSEQMNNLISNLNLLEQVGDMSRIFTRSQRLNSEAIIDFVKALCKVSMDELRSPSDPRVFSLTKIVEIAHYNMNRIRLVWSSIWHVLSDFFVTIGCSDNLSIAIFAMDSLRQLSMKFLEREELANYNFQNEFMKPFVVVMRKSGAVEIRELIIRCVSQMVLSRVDNVKSGWKSMFMIFTTAAHDAHKNIVFLSFEMVEKIIRDYFPHITETETTTFTDCVNCLVAFTNCKFEKDISLQAIAFLQYCARKLAEGYVGSSLRRNPPLSPQGGKIGKQDSGKFLESDEHLYSWFPLLAGLSELSFDPRAEIRKVALKVLFDTLRNHGDHFSLALWERVFESVLFRIFDYVRQDVDPSEDDSTDQRGYNGEVDQESWLYETCSLALQLVVDLFVNFYKTVNPLLKKVLMLFVSLIKRPHQSLAGAGIAALVRLMRDVGHQFSNEQWLEVVSCIKEAADATSPDFSYVTSEDLMEDVSNEDETNDNSNDALRRRNRQLHAVVTDAKSKASIQIFVIQAVTDIYDMYRMSLTANHMLMLFDAMHGIGSNAHKINADLLLRSKLQELGSSLESQEAPLLRLENESFQTCMTFLDNLISDQPVGYNEAEIESHLISLCREVLEFYINISCSKEQSSRWAVPSGSGKKKELTARAPLVVAAIQTLGNMGESLFKKNLPELFPLIATLISCEHGSGEVQVALSDMLQTSMGPVLLRSCC