Gene Details:
- Gene ID: AT3G07040
- Gene Symbol: RPM1, RPS3
- Gene Name: RESISTANCE TO P. SYRINGAE PV MACULICOLA 1, RESISTANCE TO PSEUDOMONAS SYRINGAE 3
- Description: NB-ARC domain-containing disease resistance protein;(source:Araport11)
- TAIR Accession:
- Genome: Araport11_genome_release
- Species: Arabidopsis thaliana
Transcripts:
Germplasm Phenotype:
- CS6193 — susceptible to Pseudomonas syringae pv. tomato strain carrying the avirulence gene avrB from the soybean pathogen Pseudomonas syringae pv. glycinea; lacks trichomes on stem and leaves.
- CS67955 — Increased susceptibility to Pseudomonas syringae strains carrying avrB or avrRpm1.
- CS67956 — Increased susceptibility to Pseudomonas syringae strains carrying avrB or avrRpm1.
- CS67957 — Increased susceptibility to Pseudomonas syringae strains carrying avrB or avrRpm1.
- CS68739 — Susceptible to bacterial pathogen Pseudomonas syringae pv. tomato DC3000 (Pto DC3000) carrying the avirulence gene avrRpm1 or avrB.
- CS68740 — Susceptible to bacterial pathogen Pseudomonas syringae pv. tomato DC3000 (Pto DC3000) carrying virulence effector gene avrRpm1, avrB, or avrRpt2.
- CS68746 — Susceptible to bacterial pathogen Pseudomonas syringae pv. tomato DC3000 (Pto DC3000) carrying the avirulence gene avrB. Susceptibility is similar to single mutant rpm1-3 (CS68739).
- CS68760 — Susceptible to pathogen Pto DC3000 carrying virulence effector gene avrRpm1or avrRpt2.
- CS68777 — Lose AvrRpm1-induced cell death. Control for a11 (CS68776).
- CS68778 — No visible phenotype.
- CS68779 — Lose AvrRpm1-induced cell death; reduced RPM1-myc accumulation.
- CS68783 — No visible phenotype.
- CS68789 — No visible phenotype.
- CS68790 — No visible phenotype.
- CS68791 — No visible phenotype.
- CS68792 — No visible phenotype.
- CS68799 — No visible phenotype.
- CS68800 — No visible phenotype.
- CS68801 — No visible phenotype.
- CS68802 — No visible phenotype.
- CS72197 — Full loss-of-function for RPM1 against P. syringae type III effector protein AvrB, and partial loss-of-function for RPM1 against P. syringae type II effector protein AvrRpm1.
- CS72198 — Small, chlorotic plants under long day growth conditions. Gain-of-function for RPM1, up-regulated PR1.
- CS72200 — Suppressed callose accumulation upon flg22 treatment.
- CS72201 — Enhanced callose accumulation upon flg22 treatment. Weak enhanced disease resistance (EDR) phenotype against P. syringae virulence strain DC3000.
- CS72202 — Enhanced callose accumulation upon flg22 treatment. Weak enhanced disease resistance (EDR) phenotype against P. syringae virulence strain DC3000.
- CS72204 — Suppression of callose accumulation upon flg22 treatment. Weak enhanced disease susceptibility (EDS) phenotype against P. syringae virulence strain DC3000.
- CS72205 — Suppression of callose accumulation upon flg22 treatment. Weak enhanced disease susceptibility (EDS) phenotype against P. syringae virulence strain DC3000.
- CS8637 — susceptible to Pseudomonas syringae strains carrying the avirulence genes avrB or avrRpm1
Literature:
- Plant disease resistance genes encode members of an ancient and diverse protein family within the nucleotide-binding superfamily. DOI: 10.1046/j.1365-313x.1999.t01-1-00606.x ; PMID: 10571892
- Identification of three putative signal transduction genes involved in R gene-specified disease resistance in Arabidopsis. DOI: 10.1093/genetics/152.1.401 ; PMID: 10224270
- Different requirements for EDS1 and NDR1 by disease resistance genes define at least two R gene-mediated signaling pathways in Arabidopsis. DOI: 10.1073/pnas.95.17.10306 ; PMID: 9707643
- Isolation of Arabidopsis genes that differentiate between resistance responses mediated by the RPS2 and RPM1 disease resistance genes. DOI: 10.1105/tpc.8.2.241 ; PMID: 8742710
- Rapid activation of a novel plant defense gene is strictly dependent on the Arabidopsis RPM1 disease resistance locus. DOI: 10.1002/j.1460-2075.1992.tb05572.x ; PMID: 1464303
- Arabidopsis NHO1 is required for general resistance against Pseudomonas bacteria. DOI: 10.1105/tpc.13.2.437 ; PMID: 11226196
- A gain-of-function mutation in an Arabidopsis Toll Interleukin1 receptor-nucleotide binding site-leucine-rich repeat type R gene triggers defense responses and results in enhanced disease resistance. DOI: 10.1105/tpc.005348 ; PMID: 12468733
- Expression profiling of the host response to bacterial infection: the transition from basal to induced defence responses in RPM1-mediated resistance. DOI: 10.1046/j.1365-313x.2003.01653.x ; PMID: 12609040
- Activation of a COI1-dependent pathway in Arabidopsis by Pseudomonas syringae type III effectors and coronatine. DOI: 10.1111/j.1365-313x.2003.01986.x ; PMID: 14756769
- A putative nucleoporin 96 Is required for both basal defense and constitutive resistance responses mediated by suppressor of npr1-1,constitutive 1. DOI: 10.1105/tpc.104.029926 ; PMID: 15772285
- RIN13 is a positive regulator of the plant disease resistance protein RPM1. DOI: 10.1105/tpc.104.028720 ; PMID: 15722472
- Characterization of natural and induced variation in the LOV1 gene, a CC-NB-LRR gene conferring victorin sensitivity and disease susceptibility in Arabidopsis. DOI: 10.1094/MPMI-21-1-0007 ; PMID: 18052878
- Constitutive activation of a CC-NB-LRR protein alters morphogenesis through the cytokinin pathway in Arabidopsis. DOI: 10.1111/j.1365-313X.2008.03466.x ; PMID: 18315541
- Arabidopsis TAO1 is a TIR-NB-LRR protein that contributes to disease resistance induced by the Pseudomonas syringae effector AvrB. DOI: 10.1073/pnas.0802157105 ; PMID: 18424557
- 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
- The Pseudomonas syringae type III effector AvrRpm1 induces significant defenses by activating the Arabidopsis nucleotide-binding leucine-rich repeat protein RPS2. DOI: 10.1111/j.1365-313X.2008.03716.x ; PMID: 18980653
- Combining subproteome enrichment and Rubisco depletion enables identification of low abundance proteins differentially regulated during plant defense. DOI: 10.1002/pmic.200800293 ; PMID: 19053141
- Resistance to the Pseudomonas syringae effector HopA1 is governed by the TIR-NBS-LRR protein RPS6 and is enhanced by mutations in SRFR1. DOI: 10.1104/pp.109.139238 ; PMID: 19525323
- A protein phosphatase 2C, responsive to the bacterial effector AvrRpm1 but not to the AvrB effector, regulates defense responses in Arabidopsis. DOI: 10.1111/j.1365-313X.2009.04047.x ; PMID: 19843314
- Lazarus1, a DUF300 protein, contributes to programmed cell death associated with Arabidopsis acd11 and the hypersensitive response. DOI: 10.1371/journal.pone.0012586 ; PMID: 20830211
- Arabidopsis NDR1 is an integrin-like protein with a role in fluid loss and plasma membrane-cell wall adhesion. DOI: 10.1104/pp.110.169656 ; PMID: 21398259
- A receptor-like cytoplasmic kinase phosphorylates the host target RIN4, leading to the activation of a plant innate immune receptor. DOI: 10.1016/j.chom.2011.01.010 ; PMID: 21320696
- Dynamics of defense responses and cell fate change during Arabidopsis-Pseudomonas syringae interactions. DOI: 10.1371/journal.pone.0083219 ; PMID: 24349466
- A restorer-of-fertility like pentatricopeptide repeat gene directs ribonucleolytic processing within the coding sequence of rps3-rpl16 and orf240a mitochondrial transcripts in Arabidopsis thaliana. DOI: 10.1111/tpj.12463 ; PMID: 24506331
- The Arabidopsis immune adaptor SRFR1 interacts with TCP transcription factors that redundantly contribute to effector-triggered immunity. DOI: 10.1111/tpj.12527 ; PMID: 24689742
- Pseudomonas syringae Effector AvrPphB Suppresses AvrB-Induced Activation of RPM1 but Not AvrRpm1-Induced Activation. DOI: 10.1094/MPMI-08-14-0248-R ; PMID: 25625821
- Two N-terminal acetyltransferases antagonistically regulate the stability of a nod-like receptor in Arabidopsis. DOI: 10.1105/tpc.15.00173 ; PMID: 25966763
- IBR5 Modulates Temperature-Dependent, R Protein CHS3-Mediated Defense Responses in Arabidopsis. DOI: 10.1371/journal.pgen.1005584 ; PMID: 26451844
- Correction: IBR5 Modulates Temperature-Dependent, R Protein CHS3-Mediated Defense Responses in Arabidopsis. DOI: 10.1371/journal.pgen.1005795 ; PMID: 26735692
- The Bacterial Effector AvrB-Induced RIN4 Hyperphosphorylation Is Mediated by a Receptor-Like Cytoplasmic Kinase Complex in Arabidopsis. DOI: 10.1094/MPMI-01-17-0017-R ; PMID: 28353399
- Translatome analysis of an NB-LRR immune response identifies important contributors to plant immunity in Arabidopsis. DOI: 10.1093/jxb/erx078 ; PMID: 28369573
- Comparative Genomics of Non-TNL Disease Resistance Genes from Six Plant Species. DOI: 10.3390/genes8100249 ; PMID: 28973974
- Corrigendum: Translatome analysis of an NB-LRR immune response identifies important contributors to plant immunity in Arabidopsis. DOI: 10.1093/jxb/ery150 ; PMID: 29878155
- The analogous and opposing roles of double-stranded RNA-binding proteins in bacterial resistance. DOI: 10.1093/jxb/erz019 ; PMID: 30843586
- Pathogen-Associated Molecular Pattern-Triggered Immunity Involves Proteolytic Degradation of Core Nonsense-Mediated mRNA Decay Factors During the Early Defense Response. DOI: 10.1105/tpc.19.00631 ; PMID: 32086363
- The nuclear localized RIN13 induces cell death through interacting with ARF1. DOI: 10.1016/j.bbrc.2020.04.082 ; PMID: 32446355
- RIN13-mediated disease resistance depends on the SNC1-EDS1/PAD4 signaling pathway in Arabidopsis. DOI: 10.1093/jxb/eraa433 ; PMID: 32937656
- DELAYED GREENING 409 encodes a dual-localized pentatricopeptide repeat protein required for chloroplast and mitochondrial development. DOI: 10.1093/plphys/kiad258 ; PMID: 37096684
- Quantitative phosphoproteomics of early elicitor signaling in Arabidopsis. DOI: 10.1074/mcp.M600429-MCP200 ; PMID: 17317660
- Interaction between SGT1 and cytosolic/nuclear HSC70 chaperones regulates Arabidopsis immune responses. DOI: 10.1105/tpc.107.051896 ; PMID: 18065690
Sequences:
cDNA Sequence
- >AT3G07040.1
GGCGTTTATGAGTCGGTCGGTTAAACTTTCTGATATATGTGCTTCATGAACTAGTAGTAATACTGAAGCGATTTTGATTTCTTTAATTAACGTTTCTTCTATTCCAATTCTGCTTTGCTTAACAAATATCTTAAGAACATTCAAAAATCATTGAGGTAAGTGTACTTCTTCGCCCTTCAGAAGAAAGTAATAATCTTTTACCCTTTCAGTTTCAGGTAACGAATGACGAAAACAACACCCGAGTTCAGTACATCAGATTTCTCTGTCTCTCTCTTGGAACTTCCAAACTCGACCATATCCGTCAAATTGAATTCCAAGTTGCAAATGTGAAAGCAGTTTAAACCCGTGTTGACTTTAACGCAAGTAAAGGACGTTGACTTTGTTGAGGTCCTTAAGGATAATTGATCAAAATGTTATGTGGCAGGCATGTAAGGTGTGAACCGAAAGCTTGGCTTTGCTCAAATTCAGCAAGTTCACCAAGAGAAACTAAATCAGTGAAGGAAAAAAGGTTCAAGCGAGACTCTGAGGAAGATGGCTTCGGCTACTGTTGATTTTGGGATCGGACGGATTCTTAGTGTCCTGGAAAACGAGACCTTGTTATTGTCAGGAGTCCATGGTGAGATTGATAAAATGAAGAAGGAGTTGCTGATCATGAAGTCCTTTCTTGAGGATACTCATAAACATGGTGGAAATGGATCCACAACAACAACAACTCAACTCTTCCAAACTTTTGTGGCAAACACGAGAGATTTGGCTTACCAAATCGAAGACATTCTCGACGAGTTTGGCTATCACATCCACGGTTATCGTAGCTGCGCCAAAATTTGGCGTGCGTTTCATTTCCCGAGGTATATGTGGGCGAGGCACTCGATAGCTCAAAAGCTAGGAATGGTTAATGTCATGATTCAATCCATTTCTGATTCCATGAAAAGGTACTATCATTCAGAAAACTACCAAGCAGCATTATTACCGCCTATTGATGATGGCGATGCAAAGTGGGTGAACAACATCAGTGAGTCATCTCTTTTCTTTAGTGAAAATAGTCTTGTAGGGATTGATGCACCCAAGGGAAAGCTCATCGGACGGCTTCTAAGTCCCGAACCTCAGCGGATTGTTGTCGCGGTGGTTGGGATGGGCGGTTCAGGGAAAACTACACTCTCAGCGAATATCTTCAAGTCTCAAAGTGTGCGGAGGCATTTTGAGTCTTACGCTTGGGTTACAATCTCGAAATCTTATGTGATTGAAGATGTGTTTAGGACCATGATCAAGGAGTTTTACAAAGAAGCAGATACACAGATTCCAGCTGAATTATACTCCTTAGGCTACAGAGAGTTGGTGGAAAAACTTGTGGAGTATTTGCAGTCGAAGAGGTACATTGTTGTGCTTGATGATGTATGGACCACTGGTCTATGGAGGGAGATAAGTATTGCTTTACCAGATGGTATTTATGGAAGTCGTGTTATGATGACTACTCGGGACATGAACGTGGCTTCTTTCCCATATGGAATTGGGAGCACAAAGCACGAGATTGAGCTCTTAAAAGAAGACGAAGCTTGGGTGCTTTTCTCCAACAAAGCTTTTCCGGCAAGTCTTGAGCAATGCAGAACGCAGAATTTGGAGCCGATAGCACGAAAATTAGTCGAGAGATGTCAGGGTTTGCCATTAGCTATTGCTTCTTTGGGAAGCATGATGTCAACCAAGAAGTTTGAATCAGAATGGAAGAAAGTCTACAGTACTTTAAACTGGGAACTGAACAACAATCATGAACTCAAGATTGTTCGAAGCATTATGTTCCTTAGCTTCAATGATTTGCCATACCCGCTTAAACGTTGTTTCTTATATTGTTCTCTTTTCCCTGTGAACTATCGGATGAAAAGAAAGAGGCTCATTAGGATGTGGATGGCACAAAGGTTTGTGGAACCGATCAGAGGAGTGAAAGCAGAAGAAGTGGCTGATAGTTACCTCAATGAACTTGTTTACAGAAATATGCTTCAAGTTATCTTGTGGAATCCTTTTGGACGACCCAAGGCGTTCAAGATGCATGACGTGATATGGGAGATTGCTCTATCTGTATCCAAACTTGAGAGGTTCTGTGATGTATATAATGATGACAGTGATGGTGATGATGCTGCAGAAACAATGGAGAATTACGGTAGTCGCCATTTATGCATTCAGAAAGAGATGACACCTGATAGTATACGTGCAACAAACCTTCACTCTCTTTTGGTTTGCTCTTCTGCTAAACACAAGATGGAATTACTTCCAAGTCTGAACCTTCTGAGAGCCTTAGACCTTGAAGACTCTTCCATCAGCAAGTTACCAGATTGTTTAGTAACTATGTTCAACTTAAAGTACTTGAATTTGTCCAAGACACAGGTGAAAGAACTGCCAAAAAACTTCCATAAACTCGTCAATTTGGAGACGTTGAACACAAAGCACTCCAAGATTGAGGAACTTCCTCTAGGGATGTGGAAATTGAAGAAGTTGCGATATCTCATTACTTTTCGCCGCAATGAAGGACATGATTCCAATTGGAATTATGTTTTAGGTACAAGGGTTGTTCCTAAAATCTGGCAGTTGAAGGATTTGCAAGTCATGGACTGCTTCAACGCAGAAGATGAGCTTATCAAAAATCTCGGGTGTATGACTCAGCTCACAAGAATAAGTCTTGTCATGGTTAGGAGAGAACATGGAAGAGACTTGTGCGATTCACTGAATAAGATTAAAAGAATTCGATTCTTATCTTTAACGTCGATTGATGAAGAGGAACCGTTAGAGATAGATGACCTGATCGCAACTGCAAGCATTGAGAAGCTCTTTCTTGCTGGGAAACTGGAGAGAGTACCAAGTTGGTTCAACACTCTTCAAAACCTTACCTATTTGGGTTTGCGTGGATCTCAGCTACAGGAAAACGCCATTCTCTCTATCCAAACGCTTCCTAGATTGGTATGGCTTTCATTTTACAATGCATACATGGGACCTAGGTTGCGTTTTGCACAAGGATTTCAGAATCTGAAGATTCTAGAGATAGTTCAGATGAAACATCTGACAGAAGTTGTTATAGAAGACGGTGCAATGTTTGAGCTTCAGAAGCTTTATGTCAGGGCTTGTAGAGGGTTAGAGTACGTACCAAGAGGAATTGAGAATCTTATAAATCTTCAAGAACTGCATTTGATTCATGTTTCTAATCAGTTAGTAGAACGCATTCGCGGAGAAGGGAGTGTGGACCGGTCAAGGGTTAAACACATTCCTGCGATTAAGCATTATTTCAGAACTGATAATGGCTCTTTCTATGTGAGCCTCTCATCTTAGGCGGCCAAGGCAAGCTTCATCATACAAGATACTGCACACTGTACTGTGAAAATCAGGGATGGATATTCACATAACTACTAAACGCCATGAGCTTACCAAACAGATTGATTGTCATGTGTTGTCTTTGAAAGTCAACAATCAGGTCTTCTCTTCACTCAAAGACAACATTTTTTTGCTGGTCTCATGAGTCAGTGCTAATGACTAAACAGCTCACTTCACAGCAGTTTCCACTGTTTTTTTTCGAAATTCATTTAAGTAAGATTTAATATGGTCAGCTGATTGTTCTGTAATTCTGTGTAAACATTACTTTGTTAAGACCTTAATATTGTTGACATTGTTATTTGAGTATCGGCTTCAACCAAGAAATTCCACTACCGTGTTAGTCTTCT
CDS Sequence
- >AT3G07040.1
ATGGCTTCGGCTACTGTTGATTTTGGGATCGGACGGATTCTTAGTGTCCTGGAAAACGAGACCTTGTTATTGTCAGGAGTCCATGGTGAGATTGATAAAATGAAGAAGGAGTTGCTGATCATGAAGTCCTTTCTTGAGGATACTCATAAACATGGTGGAAATGGATCCACAACAACAACAACTCAACTCTTCCAAACTTTTGTGGCAAACACGAGAGATTTGGCTTACCAAATCGAAGACATTCTCGACGAGTTTGGCTATCACATCCACGGTTATCGTAGCTGCGCCAAAATTTGGCGTGCGTTTCATTTCCCGAGGTATATGTGGGCGAGGCACTCGATAGCTCAAAAGCTAGGAATGGTTAATGTCATGATTCAATCCATTTCTGATTCCATGAAAAGGTACTATCATTCAGAAAACTACCAAGCAGCATTATTACCGCCTATTGATGATGGCGATGCAAAGTGGGTGAACAACATCAGTGAGTCATCTCTTTTCTTTAGTGAAAATAGTCTTGTAGGGATTGATGCACCCAAGGGAAAGCTCATCGGACGGCTTCTAAGTCCCGAACCTCAGCGGATTGTTGTCGCGGTGGTTGGGATGGGCGGTTCAGGGAAAACTACACTCTCAGCGAATATCTTCAAGTCTCAAAGTGTGCGGAGGCATTTTGAGTCTTACGCTTGGGTTACAATCTCGAAATCTTATGTGATTGAAGATGTGTTTAGGACCATGATCAAGGAGTTTTACAAAGAAGCAGATACACAGATTCCAGCTGAATTATACTCCTTAGGCTACAGAGAGTTGGTGGAAAAACTTGTGGAGTATTTGCAGTCGAAGAGGTACATTGTTGTGCTTGATGATGTATGGACCACTGGTCTATGGAGGGAGATAAGTATTGCTTTACCAGATGGTATTTATGGAAGTCGTGTTATGATGACTACTCGGGACATGAACGTGGCTTCTTTCCCATATGGAATTGGGAGCACAAAGCACGAGATTGAGCTCTTAAAAGAAGACGAAGCTTGGGTGCTTTTCTCCAACAAAGCTTTTCCGGCAAGTCTTGAGCAATGCAGAACGCAGAATTTGGAGCCGATAGCACGAAAATTAGTCGAGAGATGTCAGGGTTTGCCATTAGCTATTGCTTCTTTGGGAAGCATGATGTCAACCAAGAAGTTTGAATCAGAATGGAAGAAAGTCTACAGTACTTTAAACTGGGAACTGAACAACAATCATGAACTCAAGATTGTTCGAAGCATTATGTTCCTTAGCTTCAATGATTTGCCATACCCGCTTAAACGTTGTTTCTTATATTGTTCTCTTTTCCCTGTGAACTATCGGATGAAAAGAAAGAGGCTCATTAGGATGTGGATGGCACAAAGGTTTGTGGAACCGATCAGAGGAGTGAAAGCAGAAGAAGTGGCTGATAGTTACCTCAATGAACTTGTTTACAGAAATATGCTTCAAGTTATCTTGTGGAATCCTTTTGGACGACCCAAGGCGTTCAAGATGCATGACGTGATATGGGAGATTGCTCTATCTGTATCCAAACTTGAGAGGTTCTGTGATGTATATAATGATGACAGTGATGGTGATGATGCTGCAGAAACAATGGAGAATTACGGTAGTCGCCATTTATGCATTCAGAAAGAGATGACACCTGATAGTATACGTGCAACAAACCTTCACTCTCTTTTGGTTTGCTCTTCTGCTAAACACAAGATGGAATTACTTCCAAGTCTGAACCTTCTGAGAGCCTTAGACCTTGAAGACTCTTCCATCAGCAAGTTACCAGATTGTTTAGTAACTATGTTCAACTTAAAGTACTTGAATTTGTCCAAGACACAGGTGAAAGAACTGCCAAAAAACTTCCATAAACTCGTCAATTTGGAGACGTTGAACACAAAGCACTCCAAGATTGAGGAACTTCCTCTAGGGATGTGGAAATTGAAGAAGTTGCGATATCTCATTACTTTTCGCCGCAATGAAGGACATGATTCCAATTGGAATTATGTTTTAGGTACAAGGGTTGTTCCTAAAATCTGGCAGTTGAAGGATTTGCAAGTCATGGACTGCTTCAACGCAGAAGATGAGCTTATCAAAAATCTCGGGTGTATGACTCAGCTCACAAGAATAAGTCTTGTCATGGTTAGGAGAGAACATGGAAGAGACTTGTGCGATTCACTGAATAAGATTAAAAGAATTCGATTCTTATCTTTAACGTCGATTGATGAAGAGGAACCGTTAGAGATAGATGACCTGATCGCAACTGCAAGCATTGAGAAGCTCTTTCTTGCTGGGAAACTGGAGAGAGTACCAAGTTGGTTCAACACTCTTCAAAACCTTACCTATTTGGGTTTGCGTGGATCTCAGCTACAGGAAAACGCCATTCTCTCTATCCAAACGCTTCCTAGATTGGTATGGCTTTCATTTTACAATGCATACATGGGACCTAGGTTGCGTTTTGCACAAGGATTTCAGAATCTGAAGATTCTAGAGATAGTTCAGATGAAACATCTGACAGAAGTTGTTATAGAAGACGGTGCAATGTTTGAGCTTCAGAAGCTTTATGTCAGGGCTTGTAGAGGGTTAGAGTACGTACCAAGAGGAATTGAGAATCTTATAAATCTTCAAGAACTGCATTTGATTCATGTTTCTAATCAGTTAGTAGAACGCATTCGCGGAGAAGGGAGTGTGGACCGGTCAAGGGTTAAACACATTCCTGCGATTAAGCATTATTTCAGAACTGATAATGGCTCTTTCTATGTGAGCCTCTCATCTTAG
Protein Sequence
- >AT3G07040.1
MASATVDFGIGRILSVLENETLLLSGVHGEIDKMKKELLIMKSFLEDTHKHGGNGSTTTTTQLFQTFVANTRDLAYQIEDILDEFGYHIHGYRSCAKIWRAFHFPRYMWARHSIAQKLGMVNVMIQSISDSMKRYYHSENYQAALLPPIDDGDAKWVNNISESSLFFSENSLVGIDAPKGKLIGRLLSPEPQRIVVAVVGMGGSGKTTLSANIFKSQSVRRHFESYAWVTISKSYVIEDVFRTMIKEFYKEADTQIPAELYSLGYRELVEKLVEYLQSKRYIVVLDDVWTTGLWREISIALPDGIYGSRVMMTTRDMNVASFPYGIGSTKHEIELLKEDEAWVLFSNKAFPASLEQCRTQNLEPIARKLVERCQGLPLAIASLGSMMSTKKFESEWKKVYSTLNWELNNNHELKIVRSIMFLSFNDLPYPLKRCFLYCSLFPVNYRMKRKRLIRMWMAQRFVEPIRGVKAEEVADSYLNELVYRNMLQVILWNPFGRPKAFKMHDVIWEIALSVSKLERFCDVYNDDSDGDDAAETMENYGSRHLCIQKEMTPDSIRATNLHSLLVCSSAKHKMELLPSLNLLRALDLEDSSISKLPDCLVTMFNLKYLNLSKTQVKELPKNFHKLVNLETLNTKHSKIEELPLGMWKLKKLRYLITFRRNEGHDSNWNYVLGTRVVPKIWQLKDLQVMDCFNAEDELIKNLGCMTQLTRISLVMVRREHGRDLCDSLNKIKRIRFLSLTSIDEEEPLEIDDLIATASIEKLFLAGKLERVPSWFNTLQNLTYLGLRGSQLQENAILSIQTLPRLVWLSFYNAYMGPRLRFAQGFQNLKILEIVQMKHLTEVVIEDGAMFELQKLYVRACRGLEYVPRGIENLINLQELHLIHVSNQLVERIRGEGSVDRSRVKHIPAIKHYFRTDNGSFYVSLSS