Information report for AT3G13530
Gene Details
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Functional Descriptions
- 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)
- 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
Functional Keywords
Literature and News
- 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
Gene Resources
- UniProt: A0A654FGY9
- EMBL: CACRSJ010000106
- EnsemblPlants: AT3G13530.1
- Gramene: AT3G13530.1
- KEGG: ath:AT3G13530
- Orthologous matrix: VKQIKLV
- ExpressionAtlas: AT3G13530
- InterPro: IPR000225, IPR000719, IPR001245
- PANTHER: PTHR46618, PTHR46618:SF1
- SUPFAM: SSF48371, SSF56112
- PROSITE: PS00107, PS00108, PS50011
- Gene3D: 1.10.510.10, 1.25.10.10
- SWISS-MODEL: A0A654FGY9
- Conserved Domain Database: cd06627
Sequences
cDNA Sequence
- >AT3G13530.1
TATATATAGAGAATATGTAGAACAGCAGTGTTAAAAAAGAGTAACATATTTTGAGTCTCTGCGACTAATATCTTCATATCGGTACGTTGTAATATTTATCCGTTAATTATACGTGTGTTAGATGTGTTAGTGTATATGCAGATGAATATGTCATTTTATGCATCACATGTATATACTCAATTTGTTTATCTTATTTTTTTATTTAATGTTCCCCTTCGTTGGCATCATATATATTTCTCTTGAAGTTTTGAGTAAAACCTCTAGAGATGTTGGAAGATATATCCAGTATATCGACTATATATAGTATCCAATCTTATGATGACTATGTATCTAACACTAAAATTTTGTTAATCAGAGTCTTAGGTTTACGAATTTTTTGGCAATAAATCATTTTCGTCTAAATTTGGTTGAGCCAGAGACTATCGGTTAGTTAATTATTTTTGCTGCTGTGATGTGAACCGAAGGGTCAAAGAGAAGGTTAGGTCGGAGCAGCATAGTCGCATGCGAAGTTCGTTTTAAGTAAAAAGTAAAAACTTATGTAAATTAAACGTCAATTATTCTAACCGCTAATGTTGGTCTATAATTCAATTTTCCTAGGCTTTAACTAAGGGTAGTTTATATGGCGTAAATGTGGGAACGTGTGAAGAGTCAATGTGAAAACGGCATGGTGTTCTTTTTGGTTTTAAGTAACGAATTCTAGAGGGAGAACGCACGGACGAGAGACTGTGATGAAGTAAGCATATATATACATAAAACTGTGTTAAACAATAAATCTGCATGCATAGGTAAAAAACTATATCTTCGACCAACATTGGTCTTACTATAAGATACGTAAATGTGAACTACGCAACAAACTTTGATTTTCGAACTTATAGTATATCCTCATCGATAAAAAGAACCTATAAGTTTCAACTTATATATACAACTCATGAATTGTGTCTGAAATACTTAAAACAAACATTTTTGAGTTTTAATTTAGTATTACATGAAAATAGAGTTTTATAACCTCAACTCGTGTGGTGACGCAAACACATAATAAACCTATAGGCAACATATATGTTTTTTTTTTCAAACAACATATATGTTATTATCGTACTTTAGTATGTAAACTGTCCGGAATATGTTTAATAGCTTATAAAGTTTAGTGTATTTTTGTTTTCAAGGATATGAAGTTTAACGTTAGCACTTAGCTAGCCTGTATTGTTTACATTAAATAAACTTCTTGAAGAAATTAAACTTAGAAACATATCTAGTACCATAATTTAAGATTGTGAACATGCTTATTAGTTATCTGTATTTGACAAAAGCTTACCACGAGTCTTATTTAACGATAGTGATGATTCATTTATTCGCAATAGATATATCCATATATATAAATAGAGGTTTGTGTACTCAGTTACACTCACAATTTATGGTTTTATAATAATCACACAAATCACCACAAAACAACTTAGTACACATATATGCCAACCTTCTAGATCGCATCTGTGACCCCTTCTTGAAGCATGGTAGATATAGAAGACATCAAGATTCGATCAACTATATATCTTCCTGTATCTAGTCATGTCCTAAGCTAGAAGACGACGCTCCAACAATCCCATCCTTACAATCATCCATCTGCAAAGGTTGAGATATTGGGATAATATTACCAAAAGGATCACCAACATCGTTGATGAGCGAATTAAGAAACGATGAGAACTTGTCGTCGTAGCAGAAACCAAAGTCTTCGTAGCCGTGTTCACCACCAAAGACATTGATACTGTTCTTGCTATCTCCATCCCCGCCATTAACAGTGGTATCATCAGTATGAGAACTAGAAATAGGCTCTAGAGGGTACTTTTGTCCACCGGAAACTTCTTCTTCTGGTTTATGGATGTTGTTTGCATCAAGAGGCTTGTGGGTTTGAGGATCAATTCCTTGCCTTAAAAGTTTCTTACGAAGATGAGTGTTCCAATAGTTCTTAATTTCATTATCAGTCCTTCCCGGTATCCTTCCCGCGATCAATGACCACCTGCATCACACATTAGAATTTCCATGAAGAACAAGAGCGGTTAATTACTAATATGGTTACAAAACAAGCTTGCATTTTTATCCTAGTAATCATAAACAATTTGAAAAAAGAATGAATGATCTCTAGAACTATTAATTTGCTCTAGAACCAGAATCAACTTAATTAAAATTATACTCTAAAGAAACTAGAGAAGGGATTAACCTTTTGTTCTATATAAATATCGAATCAAGAATCAAAGTATAATTGTTTTATATAGCTATAAGAAAAAATGGGATCAAGCTAAAATCAGAACCTTCATGTTTATGTGGAAGAAATAAAACCCTAGCTAGCTTAAACAAAAAAATAACTCTAGTGTATGGGTAGAGAGAGACACACACATACGTATGCATATAAACTAAACGATCTTGTATAGTTGAATACTTGACGAGATTTTTTTTTAATATCTATATATATACCTGTTGCCGAGGAGGCGGTGAAGACGGAGGATGAGATCTTCCTCGTCCGACGTAATTCCTCCACGTTTAACCGAGGGTCGGAGATAGTTCATCCACCGTAGACGACAGCTCTTTCCACATCTGAGTAAACCAGCTCTCTTAGGAAGCGATCGCCACCGTCCTTCACCTTCTTTCTTAATGAAGCTCACAAGAATCTCGTCTTCCTCCACCGTCCATGGTCCTCTCTTCATCCCCATCTTCGTGCAACACGGCGTTGTTTTCTTAGACACTGGCTTCTTCCCACCACATGACATCATCTCCGCCGTCTTCAACAAAGCTTTCTCTCTTTCCACTAGGGTTTCGTGATCTCTATGAGTTCTTCGATTGGTTGTTTTTTTCTTTTCTCAAAGTTTCTCTCTCTCCATTAGTCTGCTGATGTTACCAATGAACCTACCGACCTTTTCTCTCACGCGCTAGCTTCGGCGTTTGGTAATAATCTTCATTTGGTTTTTATTTCACCTGCGTGGTTTTTTTTTCCTTTCATTTTAAAGATTTTGCAGTAACAATCATATTGAAATCCAAATGGCTAATGTTATTACAATGCATAGGTTAGTTGCTTCTAGTTATTTATATTAAAGATTTGATACTACTATGAATTATAATTTGATTGGCTATAAACATCCGATTATACCAGCTCCTACAATTGAGAAAGTTATAACAAAATGGTTGATAATACATTAATGAATACTAACCACCTTAATTAAAATTGACACCAGTGAAAAAGCATTAAATATTTGGACCACCTTTTAAATAGATGATTAATCAGTAATTGGACAAAATGCTAGTATTTTTACAAATCGGGAAATAAAGGGGTGAAATCGTAAATAAATAAAAAGTATGGGCCACATAATAAAGAAGAATACAGGCGCATGAGAAATTAACATAATTACCTCTCCTTTATTACAGTTAGTCAATTTCTAACCCAAAACTTTTGTTTTGTTCTTTCCTTTTTCTTAATTTTGATTTTATTAAAATTTGGTCATGTATTTTCACTACTGTAATAGAGCTGGCATCTCTGATCTTTCAACTCCACCAATCTCGAAATCTTTTCTTTCAATTTTCTCAAAAAATTAAAACCCTAATTCTTATTGGATTCTGTTTCCTTGAGGAGCAATTGTGTTCTGTTCGCTGCATTTTTTTTGTTCTGCTGACGGAGGAAGAAGAAACGAGAAGAGATGGCGCGGCAAATGACGTCATCTCAGTTTCACAAATCAAAGACTCTCGACAACAAATATATGCTGGGAGATGAAATTGGTAAAGGAGCTTATGGTCGAGTTTATAAAGGATTAGACTTGGAGAATGGTGACTTTGTGGCCATTAAACAAGTCTCTTTGGAAAATATTGTTCAAGAGGATCTTAACACCATTATGCAAGAAATTGATCTTTTGAAGAACTTGAACCATAAAAACATTGTGAAGTATCTTGGGTCGTCGAAGACAAAGACTCACCTTCACATTATTTTGGAGTACGTTGAGAATGGCTCTCTTGCAAACATTATTAAACCAAATAAATTTGGACCTTTCCCAGAATCTTTGGTGGCTGTTTACATTGCTCAGGTCTTGGAAGGTTTGGTATATCTGCATGAGCAGGGTGTTATACACCGTGATATTAAGGGTGCAAATATTTTGACGACAAAGGAGGGTCTTGTGAAGCTTGCTGACTTTGGAGTTGCCACTAAACTTAACGAGGCTGATGTTAATACTCACTCGGTGGTTGGAACTCCTTACTGGATGGCTCCTGAGGTTATTGAAATGTCAGGAGTTTGTGCTGCTTCTGACATTTGGAGCGTTGGATGCACTGTTATCGAACTTCTGACATGTGTACCTCCTTACTATGATCTGCAACCCATGCCAGCCCTCTTTCGTATTGTTCAGGATGACAACCCTCCTATTCCTGATAGTCTTTCTCCAGATATTACGGACTTTCTACGACAGTGCTTCAAGAAGGATTCCAGGCAGAGGCCTGATGCAAAGACACTGCTCTCTCACCCTTGGATACGAAACTCTAGACGAGCTTTGCAGTCATCACTTCGGCATAGTGGCACCATCAAATATATGAAGGAAGCCACTGCAAGTTCAGAGAAGGATGATGAAGGTAGTCAAGATGCAGCAGAAAGCCTTTCAGGAGAAAATGTGGGAATATCAAAAACTGACTCGAAAAGCAAATTACCTCTGGTAGGGGTGTCGAGTTTTAGGTCTGAGAAAGATCAGTCGACACCCAGTGATCTTGGTGAAGAAGGAACAGATAATTCAGAAGATGATATTATGTCAGATCAAGTTCCTACACTGTCGATCCATGAGAAATCTTCGGATGCTAAGGGGACACCTCAAGATGTATCAGACTTTCATGGGAAATCTGAACGTGGTGAAACACCTGAAAATCTTGTAACGGAAACTTCTGAAGCTAGAAAAAATACTTCAGCAATAAAGCACGTTGGCAAAGAATTATCCATCCCAGTGGACCAGACATCACATAGTTTTGGCCGCAAAGGTGAAGAACGTGGGATTCGAAAGGCTGTGAAGACTCCATCTAGTGTTAGTGGGAATGAACTGGCTAGGTTTAGTGATCCTCCTGGGGATGCTTCTTTGCATGATTTATTTCACCCATTGGATAAAGTGTCTGAGGGAAAACCAAATGAAGCCTCAACATCCATGCCTACGTCAAATGTCAACCAAGGTGATTCTCCTGTTGCAGATGGTGGAAAGAATGATCTGGCTACAAAATTGAGGGCTACAATTGCTCAGAAGCAAATGGAGGGGGAAACAGGGCACTCAAATGATGGTGGTGATCTTTTTCGCTTGATGATGGGTGTTTTGAAAGATGATGTTATTGACATTGATGGCTTGGTATTTGATGAAAAAGTGCCCGCGGAGAATCTTTTTCCTCTGCAGGCAGTCGAGTTCAGCAGACTGGTCAGCTCCTTGAGGCCAGATGAGTCAGAAGATGCAATAGTATCTTCTTGTCAGAAACTTGTTGCCATGTTTCGTCAGAGACCTGAGCAGAAAGTAGTATTTGTGACACAGCATGGTTTCCTGCCTCTAATGGATCTACTCGATATTCCTAAATCTCGAGTAATATGTGCTGTGCTGCAGCTGATAAACGAAATTATTAAAGATAACACTGACTTCCAGGAAAATGCTTGTCTTGTTGGCCTTATTCCTGTTGTAATGAGTTTTGCTGGTCCTGAGAGGGATCGTTCTCGCGAAATTCGTAAAGAAGCAGCTTACTTCTTGCAGCAGCTTTGTCAGTCAAGCCCCTTGACGTTGCAAATGTTCATAGCTTGCCGTGGAATACCCGTTTTGGTGGGATTTCTTGAAGCAGATTATGCCAAATACAGGGAGATGGTTCACTTGGCTATTGATGGGATGTGGCAGGTATTTAAACTCAAAAGATCCACCCCAAGAAATGATTTCTGCCGTATAGCTGCAAAGAATGGAATTCTTCTGAGGCTAATCAACACTCTTTATAGCTTGAATGAGGCAACCCGGCTGGCTTCTATATCAGGGGGCCTGGATGGTCAAGCTCCACGAGTGCGCTCTGGTCAACTTGACCCTAACAATCCTATTTTTGGTCAAAATGAGACTTCTTCACTCAGTATGATTGATCAGCCTGATGTATTGAAAACTAGGCATGGGGGTGGTGAAGAGCCTTCTCATGCTTCAACCTCAAATTCTCAAAGATCAGATGTCCATCAACCAGATGCTTTGCACCCAGATGGTGATAAGCCTAGAGTAAGCAGTGTTGCACCAGATGCCTCAACCTCTGGCACAGAAGATGTTAGACAACAGCATCGAATATCTCTTTCCGCCAATAGGACATCGACAGATAAGCTTCAGAAGCTGGCAGAGGGCGCCTCTAATGGTTTTCCTGTTACTCAGACAGAACAAGTTCGACCTTTGCTTAGCTTGTTGGATAAAGAACCCCCTTCAAGACATTATTCTGGTCAACTGGATTATGTTAAGCATATCACTGGCATAGAGAGACATGAAAGTAGACTTCCTCTTTTGCATGGATCAAATGAAAAGAAAAACAACGGAGACCTAGATTTTCTGATGGCTGAATTTGCAGAGGTCTCTGGACGTGGAAAGGAAAATGGAAGTCTTGATACTACGACTAGATATCCCAGTAAAACAATGACAAAGAAGGTTCTGGCTATTGAAGGAGTTGCTTCAACATCTGGGATTGCATCTCAGACAGCATCTGGAGTACTGTCAGGTTCGGGTGTTCTAAACGCTAGACCTGGAAGTGCCACATCATCTGGTTTACTTGCCCATATGGTCTCTACGCTGAGTGCAGATGTTGCAAGGGAATACTTGGAGAAAGTTGCTGACCTGCTTCTTGAATTTGCTCGAGCTGATACGACAGTAAAGTCATATATGTGCAGCCAAAGCTTACTCAGTCGTCTTTTTCAGATGTTCAACCGTGTAGAACCTCCTATTCTGTTAAAGATACTGGAGTGCACAAATCATTTATCAACTGATCCAAATTGCTTGGAGAATCTGCAGCGTGCAGATGCAATTAAGCATTTGATCCCCAACCTTGAGCTTAAGGATGGGCATCTTGTTTATCAGATCCATCATGAGGTGCTTAGTGCACTATTCAACCTGTGCAAGATAAACAAGAGGAGGCAGGAACAAGCGGCTGAAAACGGAATCATTCCGCATCTGATGCTTTTCATTATGTCAGATTCTCCTCTGAAACAGTATGCATTGCCACTACTCTGCGATATGGCTCATGCATCTCGAAATTCAAGAGAACAGTTAAGGGCCCACGGTGGTCTTGATGTTTACCTGAGTTTACTCGATGATGAATACTGGTCCGTGATAGCCTTAGATTCAATCGCTGTTTGCTTGGCGCAAGACAATGACAACCGCAAGGTAGAGCAGGCATTGCTCAAGCAAGATGCAATTCAGAAATTAGTTGACTTCTTCCAGAGCTGCCCAGAGAGACACTTCGTGCACATATTGGAGCCATTCTTAAAGATTATCACGAAATCATATCGGATCAATAAGACATTAGCTGTAAATGGATTGACTCCACTGCTTATTTCAAGGCTAGACCATCAAGATGCGATTGCTCGACTTAACCTCCTAAAACTCATCAAGGCTGTTTATGAACATCATCCACGGCCGAAACAGCTGATCGTAGAGAACGACCTTCCTCAAAAACTGCAGAATCTAATAGAAGAACGACGAGATGGACAACGTTCAGGAGGCCAAGTTCTGGTGAAACAAATGGCAACATCTCTCCTCAAAGCACTTCACATCAACACAATATTGTGAGTCCACCAAAACGATAATATCCCTTGGGGGACTGTACATTTACTCCCATTTTTCCAAGAAGAAAGTGCCTGTTCTTCTTCCCTTCCATTTACAAAATGTGAAACTTAAAAGATTTGTAATTGTTTAGTTGTGGCTTCTCTTGTGTTTTTAGTCCCTCGAGAGATGCCAACACTTGTGGTTTTTGTAATATATATACTGCTCTTGCTAGCCTTCTTTAGGGGAGTTGTATTTATGTGATCGATTCTT
CDS Sequence
- >AT3G13530.1
ATGGCGCGGCAAATGACGTCATCTCAGTTTCACAAATCAAAGACTCTCGACAACAAATATATGCTGGGAGATGAAATTGGTAAAGGAGCTTATGGTCGAGTTTATAAAGGATTAGACTTGGAGAATGGTGACTTTGTGGCCATTAAACAAGTCTCTTTGGAAAATATTGTTCAAGAGGATCTTAACACCATTATGCAAGAAATTGATCTTTTGAAGAACTTGAACCATAAAAACATTGTGAAGTATCTTGGGTCGTCGAAGACAAAGACTCACCTTCACATTATTTTGGAGTACGTTGAGAATGGCTCTCTTGCAAACATTATTAAACCAAATAAATTTGGACCTTTCCCAGAATCTTTGGTGGCTGTTTACATTGCTCAGGTCTTGGAAGGTTTGGTATATCTGCATGAGCAGGGTGTTATACACCGTGATATTAAGGGTGCAAATATTTTGACGACAAAGGAGGGTCTTGTGAAGCTTGCTGACTTTGGAGTTGCCACTAAACTTAACGAGGCTGATGTTAATACTCACTCGGTGGTTGGAACTCCTTACTGGATGGCTCCTGAGGTTATTGAAATGTCAGGAGTTTGTGCTGCTTCTGACATTTGGAGCGTTGGATGCACTGTTATCGAACTTCTGACATGTGTACCTCCTTACTATGATCTGCAACCCATGCCAGCCCTCTTTCGTATTGTTCAGGATGACAACCCTCCTATTCCTGATAGTCTTTCTCCAGATATTACGGACTTTCTACGACAGTGCTTCAAGAAGGATTCCAGGCAGAGGCCTGATGCAAAGACACTGCTCTCTCACCCTTGGATACGAAACTCTAGACGAGCTTTGCAGTCATCACTTCGGCATAGTGGCACCATCAAATATATGAAGGAAGCCACTGCAAGTTCAGAGAAGGATGATGAAGGTAGTCAAGATGCAGCAGAAAGCCTTTCAGGAGAAAATGTGGGAATATCAAAAACTGACTCGAAAAGCAAATTACCTCTGGTAGGGGTGTCGAGTTTTAGGTCTGAGAAAGATCAGTCGACACCCAGTGATCTTGGTGAAGAAGGAACAGATAATTCAGAAGATGATATTATGTCAGATCAAGTTCCTACACTGTCGATCCATGAGAAATCTTCGGATGCTAAGGGGACACCTCAAGATGTATCAGACTTTCATGGGAAATCTGAACGTGGTGAAACACCTGAAAATCTTGTAACGGAAACTTCTGAAGCTAGAAAAAATACTTCAGCAATAAAGCACGTTGGCAAAGAATTATCCATCCCAGTGGACCAGACATCACATAGTTTTGGCCGCAAAGGTGAAGAACGTGGGATTCGAAAGGCTGTGAAGACTCCATCTAGTGTTAGTGGGAATGAACTGGCTAGGTTTAGTGATCCTCCTGGGGATGCTTCTTTGCATGATTTATTTCACCCATTGGATAAAGTGTCTGAGGGAAAACCAAATGAAGCCTCAACATCCATGCCTACGTCAAATGTCAACCAAGGTGATTCTCCTGTTGCAGATGGTGGAAAGAATGATCTGGCTACAAAATTGAGGGCTACAATTGCTCAGAAGCAAATGGAGGGGGAAACAGGGCACTCAAATGATGGTGGTGATCTTTTTCGCTTGATGATGGGTGTTTTGAAAGATGATGTTATTGACATTGATGGCTTGGTATTTGATGAAAAAGTGCCCGCGGAGAATCTTTTTCCTCTGCAGGCAGTCGAGTTCAGCAGACTGGTCAGCTCCTTGAGGCCAGATGAGTCAGAAGATGCAATAGTATCTTCTTGTCAGAAACTTGTTGCCATGTTTCGTCAGAGACCTGAGCAGAAAGTAGTATTTGTGACACAGCATGGTTTCCTGCCTCTAATGGATCTACTCGATATTCCTAAATCTCGAGTAATATGTGCTGTGCTGCAGCTGATAAACGAAATTATTAAAGATAACACTGACTTCCAGGAAAATGCTTGTCTTGTTGGCCTTATTCCTGTTGTAATGAGTTTTGCTGGTCCTGAGAGGGATCGTTCTCGCGAAATTCGTAAAGAAGCAGCTTACTTCTTGCAGCAGCTTTGTCAGTCAAGCCCCTTGACGTTGCAAATGTTCATAGCTTGCCGTGGAATACCCGTTTTGGTGGGATTTCTTGAAGCAGATTATGCCAAATACAGGGAGATGGTTCACTTGGCTATTGATGGGATGTGGCAGGTATTTAAACTCAAAAGATCCACCCCAAGAAATGATTTCTGCCGTATAGCTGCAAAGAATGGAATTCTTCTGAGGCTAATCAACACTCTTTATAGCTTGAATGAGGCAACCCGGCTGGCTTCTATATCAGGGGGCCTGGATGGTCAAGCTCCACGAGTGCGCTCTGGTCAACTTGACCCTAACAATCCTATTTTTGGTCAAAATGAGACTTCTTCACTCAGTATGATTGATCAGCCTGATGTATTGAAAACTAGGCATGGGGGTGGTGAAGAGCCTTCTCATGCTTCAACCTCAAATTCTCAAAGATCAGATGTCCATCAACCAGATGCTTTGCACCCAGATGGTGATAAGCCTAGAGTAAGCAGTGTTGCACCAGATGCCTCAACCTCTGGCACAGAAGATGTTAGACAACAGCATCGAATATCTCTTTCCGCCAATAGGACATCGACAGATAAGCTTCAGAAGCTGGCAGAGGGCGCCTCTAATGGTTTTCCTGTTACTCAGACAGAACAAGTTCGACCTTTGCTTAGCTTGTTGGATAAAGAACCCCCTTCAAGACATTATTCTGGTCAACTGGATTATGTTAAGCATATCACTGGCATAGAGAGACATGAAAGTAGACTTCCTCTTTTGCATGGATCAAATGAAAAGAAAAACAACGGAGACCTAGATTTTCTGATGGCTGAATTTGCAGAGGTCTCTGGACGTGGAAAGGAAAATGGAAGTCTTGATACTACGACTAGATATCCCAGTAAAACAATGACAAAGAAGGTTCTGGCTATTGAAGGAGTTGCTTCAACATCTGGGATTGCATCTCAGACAGCATCTGGAGTACTGTCAGGTTCGGGTGTTCTAAACGCTAGACCTGGAAGTGCCACATCATCTGGTTTACTTGCCCATATGGTCTCTACGCTGAGTGCAGATGTTGCAAGGGAATACTTGGAGAAAGTTGCTGACCTGCTTCTTGAATTTGCTCGAGCTGATACGACAGTAAAGTCATATATGTGCAGCCAAAGCTTACTCAGTCGTCTTTTTCAGATGTTCAACCGTGTAGAACCTCCTATTCTGTTAAAGATACTGGAGTGCACAAATCATTTATCAACTGATCCAAATTGCTTGGAGAATCTGCAGCGTGCAGATGCAATTAAGCATTTGATCCCCAACCTTGAGCTTAAGGATGGGCATCTTGTTTATCAGATCCATCATGAGGTGCTTAGTGCACTATTCAACCTGTGCAAGATAAACAAGAGGAGGCAGGAACAAGCGGCTGAAAACGGAATCATTCCGCATCTGATGCTTTTCATTATGTCAGATTCTCCTCTGAAACAGTATGCATTGCCACTACTCTGCGATATGGCTCATGCATCTCGAAATTCAAGAGAACAGTTAAGGGCCCACGGTGGTCTTGATGTTTACCTGAGTTTACTCGATGATGAATACTGGTCCGTGATAGCCTTAGATTCAATCGCTGTTTGCTTGGCGCAAGACAATGACAACCGCAAGGTAGAGCAGGCATTGCTCAAGCAAGATGCAATTCAGAAATTAGTTGACTTCTTCCAGAGCTGCCCAGAGAGACACTTCGTGCACATATTGGAGCCATTCTTAAAGATTATCACGAAATCATATCGGATCAATAAGACATTAGCTGTAAATGGATTGACTCCACTGCTTATTTCAAGGCTAGACCATCAAGATGCGATTGCTCGACTTAACCTCCTAAAACTCATCAAGGCTGTTTATGAACATCATCCACGGCCGAAACAGCTGATCGTAGAGAACGACCTTCCTCAAAAACTGCAGAATCTAATAGAAGAACGACGAGATGGACAACGTTCAGGAGGCCAAGTTCTGGTGAAACAAATGGCAACATCTCTCCTCAAAGCACTTCACATCAACACAATATTGTGA
Protein Sequence
- >AT3G13530.1
MARQMTSSQFHKSKTLDNKYMLGDEIGKGAYGRVYKGLDLENGDFVAIKQVSLENIVQEDLNTIMQEIDLLKNLNHKNIVKYLGSSKTKTHLHIILEYVENGSLANIIKPNKFGPFPESLVAVYIAQVLEGLVYLHEQGVIHRDIKGANILTTKEGLVKLADFGVATKLNEADVNTHSVVGTPYWMAPEVIEMSGVCAASDIWSVGCTVIELLTCVPPYYDLQPMPALFRIVQDDNPPIPDSLSPDITDFLRQCFKKDSRQRPDAKTLLSHPWIRNSRRALQSSLRHSGTIKYMKEATASSEKDDEGSQDAAESLSGENVGISKTDSKSKLPLVGVSSFRSEKDQSTPSDLGEEGTDNSEDDIMSDQVPTLSIHEKSSDAKGTPQDVSDFHGKSERGETPENLVTETSEARKNTSAIKHVGKELSIPVDQTSHSFGRKGEERGIRKAVKTPSSVSGNELARFSDPPGDASLHDLFHPLDKVSEGKPNEASTSMPTSNVNQGDSPVADGGKNDLATKLRATIAQKQMEGETGHSNDGGDLFRLMMGVLKDDVIDIDGLVFDEKVPAENLFPLQAVEFSRLVSSLRPDESEDAIVSSCQKLVAMFRQRPEQKVVFVTQHGFLPLMDLLDIPKSRVICAVLQLINEIIKDNTDFQENACLVGLIPVVMSFAGPERDRSREIRKEAAYFLQQLCQSSPLTLQMFIACRGIPVLVGFLEADYAKYREMVHLAIDGMWQVFKLKRSTPRNDFCRIAAKNGILLRLINTLYSLNEATRLASISGGLDGQAPRVRSGQLDPNNPIFGQNETSSLSMIDQPDVLKTRHGGGEEPSHASTSNSQRSDVHQPDALHPDGDKPRVSSVAPDASTSGTEDVRQQHRISLSANRTSTDKLQKLAEGASNGFPVTQTEQVRPLLSLLDKEPPSRHYSGQLDYVKHITGIERHESRLPLLHGSNEKKNNGDLDFLMAEFAEVSGRGKENGSLDTTTRYPSKTMTKKVLAIEGVASTSGIASQTASGVLSGSGVLNARPGSATSSGLLAHMVSTLSADVAREYLEKVADLLLEFARADTTVKSYMCSQSLLSRLFQMFNRVEPPILLKILECTNHLSTDPNCLENLQRADAIKHLIPNLELKDGHLVYQIHHEVLSALFNLCKINKRRQEQAAENGIIPHLMLFIMSDSPLKQYALPLLCDMAHASRNSREQLRAHGGLDVYLSLLDDEYWSVIALDSIAVCLAQDNDNRKVEQALLKQDAIQKLVDFFQSCPERHFVHILEPFLKIITKSYRINKTLAVNGLTPLLISRLDHQDAIARLNLLKLIKAVYEHHPRPKQLIVENDLPQKLQNLIEERRDGQRSGGQVLVKQMATSLLKALHINTIL