Gene Details:
- Gene ID: AT3G13530
- Gene Symbol: MAP3KE1, MAPKKK7
- Gene Name: MAP3K EPSILON PROTEIN KINASE, mitogen-activated protein kinase kinase kinase 7
- Description: mitogen-activated protein kinase kinase kinase 7;(source:Araport11)
- TAIR Accession:
- Genome: Araport11_genome_release
- Species: Arabidopsis thaliana
Transcripts:
Plant Ontology Annotations:
- PO:0006504 — leaf trichome — tricoma de hoja (Spanish, exact), 葉毛(毛茸、糸状体) (Japanese, exact), phyllid trichome (narrow)
- PO:0020022 — plant ovule inner integument — integumento interno (Spanish, exact), 内珠皮 (Japanese, exact), Poaceae inner integument (narrow)
- PO:0020023 — plant ovule outer integument — integumento externo (Spanish, exact), 外珠皮 (Japanese, exact), Poaceae outer integument (narrow)
- PO:0020128 — leaf margin — margen de la hoja (Spanish, exact), 葉縁 (Japanese, exact)
- PO:0020132 — columella root cap cell — célula de la columela del caliptra de la raíz (Spanish, exact), 柱軸根冠細胞 (Japanese, exact)
- PO:0020133 — columella root cap initial cell — célula inicial de la columela del caliptra de la raíz (Spanish, exact), columella root cap initial (exact), columella root cap stem cell (exact), columella stem cell (exact), 柱軸根冠始原細胞 (Japanese, exact)
Germplasm Phenotype:
- CS2106726 — Seed mucilage defects.
- map3ke1 — no abnormal phenotype was observed in homozygous plants when grown under standard conditions
- map3ke1;map3ke2 — homozygous double mutants are pollen lethal
Function-related keywords:
- leaf trichome , plant ovule inner integument , plant ovule outer integument , leaf margin , columella root cap cell , columella root cap initial cell
Literature:
- Mitogen-activated protein kinase cascades in plants: a new nomenclature. DOI: 10.1016/s1360-1385(02)02302-6 ; PMID: 12119167
- Arabidopsis kinome: after the casting. DOI: 10.1007/s10142-003-0096-4 ; PMID: 14740254
- Differential regulation of the expression of two high-affinity sulfate transporters, SULTR1.1 and SULTR1.2, in Arabidopsis. DOI: 10.1104/pp.108.118612 ; PMID: 18400935
- Functional compensation of primary and secondary metabolites by duplicate genes in Arabidopsis thaliana. DOI: 10.1093/molbev/msq204 ; PMID: 20736450
- Attenuation of pattern recognition receptor signaling is mediated by a MAP kinase kinase kinase. DOI: 10.15252/embr.201540806 ; PMID: 26769563
- A double-mutant collection targeting MAP kinase related genes in Arabidopsis for studying genetic interactions. DOI: 10.1111/tpj.13292 ; PMID: 27490954
- Cell type-specific proteomics uncovers a RAF15-SnRK2.6/OST1 kinase cascade in guard cells. DOI: 10.1111/jipb.13536 ; PMID: 37226855
- Expression profiling of the whole Arabidopsis shaggy-like kinase multigene family by real-time reverse transcriptase-polymerase chain reaction. DOI: 10.1104/pp.009175 ; PMID: 12376626
- Quantitative phosphoproteomics of early elicitor signaling in Arabidopsis. DOI: 10.1074/mcp.M600429-MCP200 ; PMID: 17317660
- MASCP Gator: an aggregation portal for the visualization of Arabidopsis proteomics data. DOI: 10.1104/pp.110.168195 ; PMID: 21075962
Sequences:
cDNA Sequence
- >AT3G13530.1
TATATATAGAGAATATGTAGAACAGCAGTGTTAAAAAAGAGTAACATATTTTGAGTCTCTGCGACTAATATCTTCATATCGGTACGTTGTAATATTTATCCGTTAATTATACGTGTGTTAGATGTGTTAGTGTATATGCAGATGAATATGTCATTTTATGCATCACATGTATATACTCAATTTGTTTATCTTATTTTTTTATTTAATGTTCCCCTTCGTTGGCATCATATATATTTCTCTTGAAGTTTTGAGTAAAACCTCTAGAGATGTTGGAAGATATATCCAGTATATCGACTATATATAGTATCCAATCTTATGATGACTATGTATCTAACACTAAAATTTTGTTAATCAGAGTCTTAGGTTTACGAATTTTTTGGCAATAAATCATTTTCGTCTAAATTTGGTTGAGCCAGAGACTATCGGTTAGTTAATTATTTTTGCTGCTGTGATGTGAACCGAAGGGTCAAAGAGAAGGTTAGGTCGGAGCAGCATAGTCGCATGCGAAGTTCGTTTTAAGTAAAAAGTAAAAACTTATGTAAATTAAACGTCAATTATTCTAACCGCTAATGTTGGTCTATAATTCAATTTTCCTAGGCTTTAACTAAGGGTAGTTTATATGGCGTAAATGTGGGAACGTGTGAAGAGTCAATGTGAAAACGGCATGGTGTTCTTTTTGGTTTTAAGTAACGAATTCTAGAGGGAGAACGCACGGACGAGAGACTGTGATGAAGTAAGCATATATATACATAAAACTGTGTTAAACAATAAATCTGCATGCATAGGTAAAAAACTATATCTTCGACCAACATTGGTCTTACTATAAGATACGTAAATGTGAACTACGCAACAAACTTTGATTTTCGAACTTATAGTATATCCTCATCGATAAAAAGAACCTATAAGTTTCAACTTATATATACAACTCATGAATTGTGTCTGAAATACTTAAAACAAACATTTTTGAGTTTTAATTTAGTATTACATGAAAATAGAGTTTTATAACCTCAACTCGTGTGGTGACGCAAACACATAATAAACCTATAGGCAACATATATGTTTTTTTTTTCAAACAACATATATGTTATTATCGTACTTTAGTATGTAAACTGTCCGGAATATGTTTAATAGCTTATAAAGTTTAGTGTATTTTTGTTTTCAAGGATATGAAGTTTAACGTTAGCACTTAGCTAGCCTGTATTGTTTACATTAAATAAACTTCTTGAAGAAATTAAACTTAGAAACATATCTAGTACCATAATTTAAGATTGTGAACATGCTTATTAGTTATCTGTATTTGACAAAAGCTTACCACGAGTCTTATTTAACGATAGTGATGATTCATTTATTCGCAATAGATATATCCATATATATAAATAGAGGTTTGTGTACTCAGTTACACTCACAATTTATGGTTTTATAATAATCACACAAATCACCACAAAACAACTTAGTACACATATATGCCAACCTTCTAGATCGCATCTGTGACCCCTTCTTGAAGCATGGTAGATATAGAAGACATCAAGATTCGATCAACTATATATCTTCCTGTATCTAGTCATGTCCTAAGCTAGAAGACGACGCTCCAACAATCCCATCCTTACAATCATCCATCTGCAAAGGTTGAGATATTGGGATAATATTACCAAAAGGATCACCAACATCGTTGATGAGCGAATTAAGAAACGATGAGAACTTGTCGTCGTAGCAGAAACCAAAGTCTTCGTAGCCGTGTTCACCACCAAAGACATTGATACTGTTCTTGCTATCTCCATCCCCGCCATTAACAGTGGTATCATCAGTATGAGAACTAGAAATAGGCTCTAGAGGGTACTTTTGTCCACCGGAAACTTCTTCTTCTGGTTTATGGATGTTGTTTGCATCAAGAGGCTTGTGGGTTTGAGGATCAATTCCTTGCCTTAAAAGTTTCTTACGAAGATGAGTGTTCCAATAGTTCTTAATTTCATTATCAGTCCTTCCCGGTATCCTTCCCGCGATCAATGACCACCTGCATCACACATTAGAATTTCCATGAAGAACAAGAGCGGTTAATTACTAATATGGTTACAAAACAAGCTTGCATTTTTATCCTAGTAATCATAAACAATTTGAAAAAAGAATGAATGATCTCTAGAACTATTAATTTGCTCTAGAACCAGAATCAACTTAATTAAAATTATACTCTAAAGAAACTAGAGAAGGGATTAACCTTTTGTTCTATATAAATATCGAATCAAGAATCAAAGTATAATTGTTTTATATAGCTATAAGAAAAAATGGGATCAAGCTAAAATCAGAACCTTCATGTTTATGTGGAAGAAATAAAACCCTAGCTAGCTTAAACAAAAAAATAACTCTAGTGTATGGGTAGAGAGAGACACACACATACGTATGCATATAAACTAAACGATCTTGTATAGTTGAATACTTGACGAGATTTTTTTTTAATATCTATATATATACCTGTTGCCGAGGAGGCGGTGAAGACGGAGGATGAGATCTTCCTCGTCCGACGTAATTCCTCCACGTTTAACCGAGGGTCGGAGATAGTTCATCCACCGTAGACGACAGCTCTTTCCACATCTGAGTAAACCAGCTCTCTTAGGAAGCGATCGCCACCGTCCTTCACCTTCTTTCTTAATGAAGCTCACAAGAATCTCGTCTTCCTCCACCGTCCATGGTCCTCTCTTCATCCCCATCTTCGTGCAACACGGCGTTGTTTTCTTAGACACTGGCTTCTTCCCACCACATGACATCATCTCCGCCGTCTTCAACAAAGCTTTCTCTCTTTCCACTAGGGTTTCGTGATCTCTATGAGTTCTTCGATTGGTTGTTTTTTTCTTTTCTCAAAGTTTCTCTCTCTCCATTAGTCTGCTGATGTTACCAATGAACCTACCGACCTTTTCTCTCACGCGCTAGCTTCGGCGTTTGGTAATAATCTTCATTTGGTTTTTATTTCACCTGCGTGGTTTTTTTTTCCTTTCATTTTAAAGATTTTGCAGTAACAATCATATTGAAATCCAAATGGCTAATGTTATTACAATGCATAGGTTAGTTGCTTCTAGTTATTTATATTAAAGATTTGATACTACTATGAATTATAATTTGATTGGCTATAAACATCCGATTATACCAGCTCCTACAATTGAGAAAGTTATAACAAAATGGTTGATAATACATTAATGAATACTAACCACCTTAATTAAAATTGACACCAGTGAAAAAGCATTAAATATTTGGACCACCTTTTAAATAGATGATTAATCAGTAATTGGACAAAATGCTAGTATTTTTACAAATCGGGAAATAAAGGGGTGAAATCGTAAATAAATAAAAAGTATGGGCCACATAATAAAGAAGAATACAGGCGCATGAGAAATTAACATAATTACCTCTCCTTTATTACAGTTAGTCAATTTCTAACCCAAAACTTTTGTTTTGTTCTTTCCTTTTTCTTAATTTTGATTTTATTAAAATTTGGTCATGTATTTTCACTACTGTAATAGAGCTGGCATCTCTGATCTTTCAACTCCACCAATCTCGAAATCTTTTCTTTCAATTTTCTCAAAAAATTAAAACCCTAATTCTTATTGGATTCTGTTTCCTTGAGGAGCAATTGTGTTCTGTTCGCTGCATTTTTTTTGTTCTGCTGACGGAGGAAGAAGAAACGAGAAGAGATGGCGCGGCAAATGACGTCATCTCAGTTTCACAAATCAAAGACTCTCGACAACAAATATATGCTGGGAGATGAAATTGGTAAAGGAGCTTATGGTCGAGTTTATAAAGGATTAGACTTGGAGAATGGTGACTTTGTGGCCATTAAACAAGTCTCTTTGGAAAATATTGTTCAAGAGGATCTTAACACCATTATGCAAGAAATTGATCTTTTGAAGAACTTGAACCATAAAAACATTGTGAAGTATCTTGGGTCGTCGAAGACAAAGACTCACCTTCACATTATTTTGGAGTACGTTGAGAATGGCTCTCTTGCAAACATTATTAAACCAAATAAATTTGGACCTTTCCCAGAATCTTTGGTGGCTGTTTACATTGCTCAGGTCTTGGAAGGTTTGGTATATCTGCATGAGCAGGGTGTTATACACCGTGATATTAAGGGTGCAAATATTTTGACGACAAAGGAGGGTCTTGTGAAGCTTGCTGACTTTGGAGTTGCCACTAAACTTAACGAGGCTGATGTTAATACTCACTCGGTGGTTGGAACTCCTTACTGGATGGCTCCTGAGGTTATTGAAATGTCAGGAGTTTGTGCTGCTTCTGACATTTGGAGCGTTGGATGCACTGTTATCGAACTTCTGACATGTGTACCTCCTTACTATGATCTGCAACCCATGCCAGCCCTCTTTCGTATTGTTCAGGATGACAACCCTCCTATTCCTGATAGTCTTTCTCCAGATATTACGGACTTTCTACGACAGTGCTTCAAGAAGGATTCCAGGCAGAGGCCTGATGCAAAGACACTGCTCTCTCACCCTTGGATACGAAACTCTAGACGAGCTTTGCAGTCATCACTTCGGCATAGTGGCACCATCAAATATATGAAGGAAGCCACTGCAAGTTCAGAGAAGGATGATGAAGGTAGTCAAGATGCAGCAGAAAGCCTTTCAGGAGAAAATGTGGGAATATCAAAAACTGACTCGAAAAGCAAATTACCTCTGGTAGGGGTGTCGAGTTTTAGGTCTGAGAAAGATCAGTCGACACCCAGTGATCTTGGTGAAGAAGGAACAGATAATTCAGAAGATGATATTATGTCAGATCAAGTTCCTACACTGTCGATCCATGAGAAATCTTCGGATGCTAAGGGGACACCTCAAGATGTATCAGACTTTCATGGGAAATCTGAACGTGGTGAAACACCTGAAAATCTTGTAACGGAAACTTCTGAAGCTAGAAAAAATACTTCAGCAATAAAGCACGTTGGCAAAGAATTATCCATCCCAGTGGACCAGACATCACATAGTTTTGGCCGCAAAGGTGAAGAACGTGGGATTCGAAAGGCTGTGAAGACTCCATCTAGTGTTAGTGGGAATGAACTGGCTAGGTTTAGTGATCCTCCTGGGGATGCTTCTTTGCATGATTTATTTCACCCATTGGATAAAGTGTCTGAGGGAAAACCAAATGAAGCCTCAACATCCATGCCTACGTCAAATGTCAACCAAGGTGATTCTCCTGTTGCAGATGGTGGAAAGAATGATCTGGCTACAAAATTGAGGGCTACAATTGCTCAGAAGCAAATGGAGGGGGAAACAGGGCACTCAAATGATGGTGGTGATCTTTTTCGCTTGATGATGGGTGTTTTGAAAGATGATGTTATTGACATTGATGGCTTGGTATTTGATGAAAAAGTGCCCGCGGAGAATCTTTTTCCTCTGCAGGCAGTCGAGTTCAGCAGACTGGTCAGCTCCTTGAGGCCAGATGAGTCAGAAGATGCAATAGTATCTTCTTGTCAGAAACTTGTTGCCATGTTTCGTCAGAGACCTGAGCAGAAAGTAGTATTTGTGACACAGCATGGTTTCCTGCCTCTAATGGATCTACTCGATATTCCTAAATCTCGAGTAATATGTGCTGTGCTGCAGCTGATAAACGAAATTATTAAAGATAACACTGACTTCCAGGAAAATGCTTGTCTTGTTGGCCTTATTCCTGTTGTAATGAGTTTTGCTGGTCCTGAGAGGGATCGTTCTCGCGAAATTCGTAAAGAAGCAGCTTACTTCTTGCAGCAGCTTTGTCAGTCAAGCCCCTTGACGTTGCAAATGTTCATAGCTTGCCGTGGAATACCCGTTTTGGTGGGATTTCTTGAAGCAGATTATGCCAAATACAGGGAGATGGTTCACTTGGCTATTGATGGGATGTGGCAGGTATTTAAACTCAAAAGATCCACCCCAAGAAATGATTTCTGCCGTATAGCTGCAAAGAATGGAATTCTTCTGAGGCTAATCAACACTCTTTATAGCTTGAATGAGGCAACCCGGCTGGCTTCTATATCAGGGGGCCTGGATGGTCAAGCTCCACGAGTGCGCTCTGGTCAACTTGACCCTAACAATCCTATTTTTGGTCAAAATGAGACTTCTTCACTCAGTATGATTGATCAGCCTGATGTATTGAAAACTAGGCATGGGGGTGGTGAAGAGCCTTCTCATGCTTCAACCTCAAATTCTCAAAGATCAGATGTCCATCAACCAGATGCTTTGCACCCAGATGGTGATAAGCCTAGAGTAAGCAGTGTTGCACCAGATGCCTCAACCTCTGGCACAGAAGATGTTAGACAACAGCATCGAATATCTCTTTCCGCCAATAGGACATCGACAGATAAGCTTCAGAAGCTGGCAGAGGGCGCCTCTAATGGTTTTCCTGTTACTCAGACAGAACAAGTTCGACCTTTGCTTAGCTTGTTGGATAAAGAACCCCCTTCAAGACATTATTCTGGTCAACTGGATTATGTTAAGCATATCACTGGCATAGAGAGACATGAAAGTAGACTTCCTCTTTTGCATGGATCAAATGAAAAGAAAAACAACGGAGACCTAGATTTTCTGATGGCTGAATTTGCAGAGGTCTCTGGACGTGGAAAGGAAAATGGAAGTCTTGATACTACGACTAGATATCCCAGTAAAACAATGACAAAGAAGGTTCTGGCTATTGAAGGAGTTGCTTCAACATCTGGGATTGCATCTCAGACAGCATCTGGAGTACTGTCAGGTTCGGGTGTTCTAAACGCTAGACCTGGAAGTGCCACATCATCTGGTTTACTTGCCCATATGGTCTCTACGCTGAGTGCAGATGTTGCAAGGGAATACTTGGAGAAAGTTGCTGACCTGCTTCTTGAATTTGCTCGAGCTGATACGACAGTAAAGTCATATATGTGCAGCCAAAGCTTACTCAGTCGTCTTTTTCAGATGTTCAACCGTGTAGAACCTCCTATTCTGTTAAAGATACTGGAGTGCACAAATCATTTATCAACTGATCCAAATTGCTTGGAGAATCTGCAGCGTGCAGATGCAATTAAGCATTTGATCCCCAACCTTGAGCTTAAGGATGGGCATCTTGTTTATCAGATCCATCATGAGGTGCTTAGTGCACTATTCAACCTGTGCAAGATAAACAAGAGGAGGCAGGAACAAGCGGCTGAAAACGGAATCATTCCGCATCTGATGCTTTTCATTATGTCAGATTCTCCTCTGAAACAGTATGCATTGCCACTACTCTGCGATATGGCTCATGCATCTCGAAATTCAAGAGAACAGTTAAGGGCCCACGGTGGTCTTGATGTTTACCTGAGTTTACTCGATGATGAATACTGGTCCGTGATAGCCTTAGATTCAATCGCTGTTTGCTTGGCGCAAGACAATGACAACCGCAAGGTAGAGCAGGCATTGCTCAAGCAAGATGCAATTCAGAAATTAGTTGACTTCTTCCAGAGCTGCCCAGAGAGACACTTCGTGCACATATTGGAGCCATTCTTAAAGATTATCACGAAATCATATCGGATCAATAAGACATTAGCTGTAAATGGATTGACTCCACTGCTTATTTCAAGGCTAGACCATCAAGATGCGATTGCTCGACTTAACCTCCTAAAACTCATCAAGGCTGTTTATGAACATCATCCACGGCCGAAACAGCTGATCGTAGAGAACGACCTTCCTCAAAAACTGCAGAATCTAATAGAAGAACGACGAGATGGACAACGTTCAGGAGGCCAAGTTCTGGTGAAACAAATGGCAACATCTCTCCTCAAAGCACTTCACATCAACACAATATTGTGAGTCCACCAAAACGATAATATCCCTTGGGGGACTGTACATTTACTCCCATTTTTCCAAGAAGAAAGTGCCTGTTCTTCTTCCCTTCCATTTACAAAATGTGAAACTTAAAAGATTTGTAATTGTTTAGTTGTGGCTTCTCTTGTGTTTTTAGTCCCTCGAGAGATGCCAACACTTGTGGTTTTTGTAATATATATACTGCTCTTGCTAGCCTTCTTTAGGGGAGTTGTATTTATGTGATCGATTCTT
CDS Sequence
- >AT3G13530.1
ATGGCGCGGCAAATGACGTCATCTCAGTTTCACAAATCAAAGACTCTCGACAACAAATATATGCTGGGAGATGAAATTGGTAAAGGAGCTTATGGTCGAGTTTATAAAGGATTAGACTTGGAGAATGGTGACTTTGTGGCCATTAAACAAGTCTCTTTGGAAAATATTGTTCAAGAGGATCTTAACACCATTATGCAAGAAATTGATCTTTTGAAGAACTTGAACCATAAAAACATTGTGAAGTATCTTGGGTCGTCGAAGACAAAGACTCACCTTCACATTATTTTGGAGTACGTTGAGAATGGCTCTCTTGCAAACATTATTAAACCAAATAAATTTGGACCTTTCCCAGAATCTTTGGTGGCTGTTTACATTGCTCAGGTCTTGGAAGGTTTGGTATATCTGCATGAGCAGGGTGTTATACACCGTGATATTAAGGGTGCAAATATTTTGACGACAAAGGAGGGTCTTGTGAAGCTTGCTGACTTTGGAGTTGCCACTAAACTTAACGAGGCTGATGTTAATACTCACTCGGTGGTTGGAACTCCTTACTGGATGGCTCCTGAGGTTATTGAAATGTCAGGAGTTTGTGCTGCTTCTGACATTTGGAGCGTTGGATGCACTGTTATCGAACTTCTGACATGTGTACCTCCTTACTATGATCTGCAACCCATGCCAGCCCTCTTTCGTATTGTTCAGGATGACAACCCTCCTATTCCTGATAGTCTTTCTCCAGATATTACGGACTTTCTACGACAGTGCTTCAAGAAGGATTCCAGGCAGAGGCCTGATGCAAAGACACTGCTCTCTCACCCTTGGATACGAAACTCTAGACGAGCTTTGCAGTCATCACTTCGGCATAGTGGCACCATCAAATATATGAAGGAAGCCACTGCAAGTTCAGAGAAGGATGATGAAGGTAGTCAAGATGCAGCAGAAAGCCTTTCAGGAGAAAATGTGGGAATATCAAAAACTGACTCGAAAAGCAAATTACCTCTGGTAGGGGTGTCGAGTTTTAGGTCTGAGAAAGATCAGTCGACACCCAGTGATCTTGGTGAAGAAGGAACAGATAATTCAGAAGATGATATTATGTCAGATCAAGTTCCTACACTGTCGATCCATGAGAAATCTTCGGATGCTAAGGGGACACCTCAAGATGTATCAGACTTTCATGGGAAATCTGAACGTGGTGAAACACCTGAAAATCTTGTAACGGAAACTTCTGAAGCTAGAAAAAATACTTCAGCAATAAAGCACGTTGGCAAAGAATTATCCATCCCAGTGGACCAGACATCACATAGTTTTGGCCGCAAAGGTGAAGAACGTGGGATTCGAAAGGCTGTGAAGACTCCATCTAGTGTTAGTGGGAATGAACTGGCTAGGTTTAGTGATCCTCCTGGGGATGCTTCTTTGCATGATTTATTTCACCCATTGGATAAAGTGTCTGAGGGAAAACCAAATGAAGCCTCAACATCCATGCCTACGTCAAATGTCAACCAAGGTGATTCTCCTGTTGCAGATGGTGGAAAGAATGATCTGGCTACAAAATTGAGGGCTACAATTGCTCAGAAGCAAATGGAGGGGGAAACAGGGCACTCAAATGATGGTGGTGATCTTTTTCGCTTGATGATGGGTGTTTTGAAAGATGATGTTATTGACATTGATGGCTTGGTATTTGATGAAAAAGTGCCCGCGGAGAATCTTTTTCCTCTGCAGGCAGTCGAGTTCAGCAGACTGGTCAGCTCCTTGAGGCCAGATGAGTCAGAAGATGCAATAGTATCTTCTTGTCAGAAACTTGTTGCCATGTTTCGTCAGAGACCTGAGCAGAAAGTAGTATTTGTGACACAGCATGGTTTCCTGCCTCTAATGGATCTACTCGATATTCCTAAATCTCGAGTAATATGTGCTGTGCTGCAGCTGATAAACGAAATTATTAAAGATAACACTGACTTCCAGGAAAATGCTTGTCTTGTTGGCCTTATTCCTGTTGTAATGAGTTTTGCTGGTCCTGAGAGGGATCGTTCTCGCGAAATTCGTAAAGAAGCAGCTTACTTCTTGCAGCAGCTTTGTCAGTCAAGCCCCTTGACGTTGCAAATGTTCATAGCTTGCCGTGGAATACCCGTTTTGGTGGGATTTCTTGAAGCAGATTATGCCAAATACAGGGAGATGGTTCACTTGGCTATTGATGGGATGTGGCAGGTATTTAAACTCAAAAGATCCACCCCAAGAAATGATTTCTGCCGTATAGCTGCAAAGAATGGAATTCTTCTGAGGCTAATCAACACTCTTTATAGCTTGAATGAGGCAACCCGGCTGGCTTCTATATCAGGGGGCCTGGATGGTCAAGCTCCACGAGTGCGCTCTGGTCAACTTGACCCTAACAATCCTATTTTTGGTCAAAATGAGACTTCTTCACTCAGTATGATTGATCAGCCTGATGTATTGAAAACTAGGCATGGGGGTGGTGAAGAGCCTTCTCATGCTTCAACCTCAAATTCTCAAAGATCAGATGTCCATCAACCAGATGCTTTGCACCCAGATGGTGATAAGCCTAGAGTAAGCAGTGTTGCACCAGATGCCTCAACCTCTGGCACAGAAGATGTTAGACAACAGCATCGAATATCTCTTTCCGCCAATAGGACATCGACAGATAAGCTTCAGAAGCTGGCAGAGGGCGCCTCTAATGGTTTTCCTGTTACTCAGACAGAACAAGTTCGACCTTTGCTTAGCTTGTTGGATAAAGAACCCCCTTCAAGACATTATTCTGGTCAACTGGATTATGTTAAGCATATCACTGGCATAGAGAGACATGAAAGTAGACTTCCTCTTTTGCATGGATCAAATGAAAAGAAAAACAACGGAGACCTAGATTTTCTGATGGCTGAATTTGCAGAGGTCTCTGGACGTGGAAAGGAAAATGGAAGTCTTGATACTACGACTAGATATCCCAGTAAAACAATGACAAAGAAGGTTCTGGCTATTGAAGGAGTTGCTTCAACATCTGGGATTGCATCTCAGACAGCATCTGGAGTACTGTCAGGTTCGGGTGTTCTAAACGCTAGACCTGGAAGTGCCACATCATCTGGTTTACTTGCCCATATGGTCTCTACGCTGAGTGCAGATGTTGCAAGGGAATACTTGGAGAAAGTTGCTGACCTGCTTCTTGAATTTGCTCGAGCTGATACGACAGTAAAGTCATATATGTGCAGCCAAAGCTTACTCAGTCGTCTTTTTCAGATGTTCAACCGTGTAGAACCTCCTATTCTGTTAAAGATACTGGAGTGCACAAATCATTTATCAACTGATCCAAATTGCTTGGAGAATCTGCAGCGTGCAGATGCAATTAAGCATTTGATCCCCAACCTTGAGCTTAAGGATGGGCATCTTGTTTATCAGATCCATCATGAGGTGCTTAGTGCACTATTCAACCTGTGCAAGATAAACAAGAGGAGGCAGGAACAAGCGGCTGAAAACGGAATCATTCCGCATCTGATGCTTTTCATTATGTCAGATTCTCCTCTGAAACAGTATGCATTGCCACTACTCTGCGATATGGCTCATGCATCTCGAAATTCAAGAGAACAGTTAAGGGCCCACGGTGGTCTTGATGTTTACCTGAGTTTACTCGATGATGAATACTGGTCCGTGATAGCCTTAGATTCAATCGCTGTTTGCTTGGCGCAAGACAATGACAACCGCAAGGTAGAGCAGGCATTGCTCAAGCAAGATGCAATTCAGAAATTAGTTGACTTCTTCCAGAGCTGCCCAGAGAGACACTTCGTGCACATATTGGAGCCATTCTTAAAGATTATCACGAAATCATATCGGATCAATAAGACATTAGCTGTAAATGGATTGACTCCACTGCTTATTTCAAGGCTAGACCATCAAGATGCGATTGCTCGACTTAACCTCCTAAAACTCATCAAGGCTGTTTATGAACATCATCCACGGCCGAAACAGCTGATCGTAGAGAACGACCTTCCTCAAAAACTGCAGAATCTAATAGAAGAACGACGAGATGGACAACGTTCAGGAGGCCAAGTTCTGGTGAAACAAATGGCAACATCTCTCCTCAAAGCACTTCACATCAACACAATATTGTGA
Protein Sequence
- >AT3G13530.1
MARQMTSSQFHKSKTLDNKYMLGDEIGKGAYGRVYKGLDLENGDFVAIKQVSLENIVQEDLNTIMQEIDLLKNLNHKNIVKYLGSSKTKTHLHIILEYVENGSLANIIKPNKFGPFPESLVAVYIAQVLEGLVYLHEQGVIHRDIKGANILTTKEGLVKLADFGVATKLNEADVNTHSVVGTPYWMAPEVIEMSGVCAASDIWSVGCTVIELLTCVPPYYDLQPMPALFRIVQDDNPPIPDSLSPDITDFLRQCFKKDSRQRPDAKTLLSHPWIRNSRRALQSSLRHSGTIKYMKEATASSEKDDEGSQDAAESLSGENVGISKTDSKSKLPLVGVSSFRSEKDQSTPSDLGEEGTDNSEDDIMSDQVPTLSIHEKSSDAKGTPQDVSDFHGKSERGETPENLVTETSEARKNTSAIKHVGKELSIPVDQTSHSFGRKGEERGIRKAVKTPSSVSGNELARFSDPPGDASLHDLFHPLDKVSEGKPNEASTSMPTSNVNQGDSPVADGGKNDLATKLRATIAQKQMEGETGHSNDGGDLFRLMMGVLKDDVIDIDGLVFDEKVPAENLFPLQAVEFSRLVSSLRPDESEDAIVSSCQKLVAMFRQRPEQKVVFVTQHGFLPLMDLLDIPKSRVICAVLQLINEIIKDNTDFQENACLVGLIPVVMSFAGPERDRSREIRKEAAYFLQQLCQSSPLTLQMFIACRGIPVLVGFLEADYAKYREMVHLAIDGMWQVFKLKRSTPRNDFCRIAAKNGILLRLINTLYSLNEATRLASISGGLDGQAPRVRSGQLDPNNPIFGQNETSSLSMIDQPDVLKTRHGGGEEPSHASTSNSQRSDVHQPDALHPDGDKPRVSSVAPDASTSGTEDVRQQHRISLSANRTSTDKLQKLAEGASNGFPVTQTEQVRPLLSLLDKEPPSRHYSGQLDYVKHITGIERHESRLPLLHGSNEKKNNGDLDFLMAEFAEVSGRGKENGSLDTTTRYPSKTMTKKVLAIEGVASTSGIASQTASGVLSGSGVLNARPGSATSSGLLAHMVSTLSADVAREYLEKVADLLLEFARADTTVKSYMCSQSLLSRLFQMFNRVEPPILLKILECTNHLSTDPNCLENLQRADAIKHLIPNLELKDGHLVYQIHHEVLSALFNLCKINKRRQEQAAENGIIPHLMLFIMSDSPLKQYALPLLCDMAHASRNSREQLRAHGGLDVYLSLLDDEYWSVIALDSIAVCLAQDNDNRKVEQALLKQDAIQKLVDFFQSCPERHFVHILEPFLKIITKSYRINKTLAVNGLTPLLISRLDHQDAIARLNLLKLIKAVYEHHPRPKQLIVENDLPQKLQNLIEERRDGQRSGGQVLVKQMATSLLKALHINTIL