Information report for AT5G20320
Gene Details
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Functional Descriptions
- PO:0009005 — root — raíz (Spanish, exact), radices (exact, plural), radix (exact), 根 (Japanese, exact), aerial root (narrow), climbing root (narrow)
- CS16391 — Subtle elongation of leaves resulting in less rounded tips at early stages of development.
- CS66075 — Rosette leaves elongated and curled downwards. Early rosette leaves have higher length/width ratios than those of Col-0. Precocious production of abaxial trichomes in early rosette leaves implying accelerated vegetative phase change. Phenotype similar to rdr6-15.
- CS66078 — Rosette leaves elongated and curled downwards. Early rosette leaves have higher length/width ratios than those of Col-0. Precocious production of abaxial trichomes in early rosette leaves implying accelerated vegetative phase change. Phenotype similar to rdr6-15. Increased susceptibility to tobacco rattle virus (TRV) and silencing suppressor-deficient turnip crinkle virus (TCV) and turnip mosaic virus (TuMV). Mutant displays restored systemic infection by a silencing suppressor-deficient TCV, while wild-type systemic tissues remain symptom-free.
- CS66484 — similar to rdr6-15 phenotype: homozygous individuals have elongated, downwardly curled rosette leaves; early rosette leaves have higher length/width ratios than those of Col-0.
- CS6954 — Leaves elongated and curled downwards; produces abaxial trichomes precociously. Morphological phenotype similar to zip, rdr6 and sgs3. Blocks silencing of L1 transgene.
- dcl4-1 — Leaves are curled slightly downward at the margins.
- dcl4-2t — Downward-curled leaf margins.
- dcl4-2t — Elongated and downward curled leaves. Precocious distribution of abaxial trichomes in early rosette leaves which implies accelerated vegetative phase change.
- dcl4-4 — Plants have altered silencing movement with respect to the parent line. Whereas the parent line has low levels of SUL mRNA and displays non-cell autonomous silencing, the mutants lost the silencing movement phenotype and accumulated high levels of SUL mRNA. 21-nt SUL siRNAs are undetectable in these plants, wherease the 24-nt siRNAs accumulated to similar levels as in the SUC-SUL parental line.
Functional Keywords
Literature and News
- DICER-LIKE1: blind men and elephants in Arabidopsis development. DOI: 10.1016/s1360-1385(02)02355-5 ; PMID: 12417148
- Partially redundant functions of Arabidopsis DICER-like enzymes and a role for DCL4 in producing trans-acting siRNAs. DOI: 10.1016/j.cub.2005.07.024 ; PMID: 16040244
- A pathway for the biogenesis of trans-acting siRNAs in Arabidopsis. DOI: 10.1101/gad.1352605 ; PMID: 16131612
- It's a small RNA world, after all. DOI: 10.1126/science.1117805 ; PMID: 16141062
- Specific interactions between Dicer-like proteins and HYL1/DRB-family dsRNA-binding proteins in Arabidopsis thaliana. DOI: 10.1007/s11103-004-6853-5 ; PMID: 15821876
- DICER-LIKE 4 is required for RNA interference and produces the 21-nucleotide small interfering RNA component of the plant cell-to-cell silencing signal. DOI: 10.1038/ng1675 ; PMID: 16273107
- Dissecting Arabidopsis thaliana DICER function in small RNA processing, gene silencing and DNA methylation patterning. DOI: 10.1038/ng1804 ; PMID: 16699516
- Regulation of AUXIN RESPONSE FACTOR3 by TAS3 ta-siRNA affects developmental timing and patterning in Arabidopsis. DOI: 10.1016/j.cub.2006.03.065 ; PMID: 16682356
- Specification of leaf polarity in Arabidopsis via the trans-acting siRNA pathway. DOI: 10.1016/j.cub.2006.03.064 ; PMID: 16682355
- DRB4-dependent TAS3 trans-acting siRNAs control leaf morphology through AGO7. DOI: 10.1016/j.cub.2006.03.035 ; PMID: 16682354
- An antagonistic function for Arabidopsis DCL2 in development and a new function for DCL4 in generating viral siRNAs. DOI: 10.1038/sj.emboj.7601217 ; PMID: 16810317
- Four plant Dicers mediate viral small RNA biogenesis and DNA virus induced silencing. DOI: 10.1093/nar/gkl886 ; PMID: 17090584
- A diverse and evolutionarily fluid set of microRNAs in Arabidopsis thaliana. DOI: 10.1101/gad.1476406 ; PMID: 17182867
- RNA silencing of host transcripts by cauliflower mosaic virus requires coordinated action of the four Arabidopsis Dicer-like proteins. DOI: 10.1073/pnas.0604627103 ; PMID: 17164336
- The dsRNA-binding protein DRB4 interacts with the Dicer-like protein DCL4 in vivo and functions in the trans-acting siRNA pathway. DOI: 10.1007/s11103-006-9125-8 ; PMID: 17221360
- Role of RNA polymerase IV in plant small RNA metabolism. DOI: 10.1073/pnas.0611456104 ; PMID: 17360559
- Genome-wide analysis of the RNA-DEPENDENT RNA POLYMERASE6/DICER-LIKE4 pathway in and tasiRNA-directed targeting. DOI: 10.1105/tpc.107.050062 ; PMID: 17400893
- An SNF2 protein associated with nuclear RNA silencing and the spread of a silencing signal between cells in Arabidopsis. DOI: 10.1105/tpc.107.051540 ; PMID: 17526749
- Suppression of antiviral silencing by cucumber mosaic virus 2b protein in Arabidopsis is associated with drastically reduced accumulation of three classes of viral small interfering RNAs. DOI: 10.1105/tpc.106.047449 ; PMID: 17586651
- and intercellular RNA interference in Arabidopsis thaliana requires components of the microRNA and heterochromatic silencing pathways. DOI: 10.1038/ng2081 ; PMID: 17558406
- Nuclear gene silencing directs reception of long-distance mRNA silencing in Arabidopsis. DOI: 10.1073/pnas.0706701104 ; PMID: 17785412
- A novel class of bacteria-induced small RNAs in Arabidopsis. DOI: 10.1101/gad.1595107 ; PMID: 18003861
- The roles of plant dsRNA-binding proteins in RNAi-like pathways. DOI: 10.1016/j.febslet.2008.07.004 ; PMID: 18625233
- The CaMV transactivator/viroplasmin interferes with RDR6-dependent trans-acting and secondary siRNA pathways in Arabidopsis. DOI: 10.1093/nar/gkn590 ; PMID: 18801846
- Arabidopsis DRB4, AGO1, AGO7, and RDR6 participate in a DCL4-initiated antiviral RNA silencing pathway negatively regulated by DCL1. DOI: 10.1073/pnas.0805760105 ; PMID: 18799732
- Evolution of Arabidopsis MIR genes generates novel microRNA classes. DOI: 10.1093/nar/gkn670 ; PMID: 18842626
- Novel long non-protein coding RNAs involved in Arabidopsis differentiation and stress responses. DOI: 10.1101/gr.080275.108 ; PMID: 18997003
- Dicer-like (DCL) proteins in plants. DOI: 10.1007/s10142-009-0111-5 ; PMID: 19221817
- Structural and genetic requirements for the biogenesis of tobacco rattle virus-derived small interfering RNAs. DOI: 10.1128/JVI.00272-08 ; PMID: 18353962
- Computational and analytical framework for small RNA profiling by high-throughput sequencing. DOI: 10.1261/rna.1473809 ; PMID: 19307293
- The Arabidopsis thaliana double-stranded RNA binding protein DRB1 directs guide strand selection from microRNA duplexes. DOI: 10.1261/rna.1646909 ; PMID: 19861421
- Identification of MIR390a precursor processing-defective mutants in Arabidopsis by direct genome sequencing. DOI: 10.1073/pnas.0913203107 ; PMID: 20018656
- Auxin regulation of the microRNA390-dependent transacting small interfering RNA pathway in Arabidopsis lateral root development. DOI: 10.1093/nar/gkp1128 ; PMID: 19969544
- Structure of the Arabidopsis thaliana DCL4 DUF283 domain reveals a noncanonical double-stranded RNA-binding fold for protein-protein interaction. DOI: 10.1261/rna.1965310 ; PMID: 20106953
- Arabidopsis RNA-dependent RNA polymerases and dicer-like proteins in antiviral defense and small interfering RNA biogenesis during Turnip Mosaic Virus infection. DOI: 10.1105/tpc.109.073056 ; PMID: 20190077
- Argonaute quenching and global changes in Dicer homeostasis caused by a pathogen-encoded GW repeat protein. DOI: 10.1101/gad.1908710 ; PMID: 20439431
- Differential sensitivity of Arabidopsis siRNA biogenesis mutants to genotoxic stress. DOI: 10.1007/s00299-010-0930-9 ; PMID: 20953786
- Transcriptional silencing induced by Arabidopsis T-DNA mutants is associated with 35S promoter siRNAs and requires genes involved in siRNA-mediated chromatin silencing. DOI: 10.1111/j.1365-313X.2010.04358.x ; PMID: 21070421
- The 21-nucleotide, but not 22-nucleotide, viral secondary small interfering RNAs direct potent antiviral defense by two cooperative argonautes in Arabidopsis thaliana. DOI: 10.1105/tpc.110.082305 ; PMID: 21467580
- Mutations in the antiviral RNAi defense pathway modify Brome mosaic virus RNA recombinant profiles. DOI: 10.1094/MPMI-05-11-0137 ; PMID: 21936664
- Herbivory in the previous generation primes plants for enhanced insect resistance. DOI: 10.1104/pp.111.187831 ; PMID: 22209873
- Sequencing of RDR6-dependent double-stranded RNAs reveals novel features of plant siRNA biogenesis. DOI: 10.1093/nar/gks242 ; PMID: 22434877
- RDR6-mediated synthesis of complementary RNA is terminated by miRNA stably bound to template RNA. DOI: 10.1093/nar/gkr760 ; PMID: 21930511
- DRD1-Pol V-dependent self-silencing of an exogenous silencer restricts the non-cell autonomous silencing of an endogenous target gene. DOI: 10.1111/j.1365-313X.2011.04714.x ; PMID: 21771120
- Systematic identification of functional plant modules through the integration of complementary data sources. DOI: 10.1104/pp.112.196725 ; PMID: 22589469
- DRB2, DRB3 and DRB5 function in a non-canonical microRNA pathway in Arabidopsis thaliana. DOI: 10.4161/psb.21518 ; PMID: 22902697
- Roles of dicer-like and argonaute proteins in TAS-derived small interfering RNA-triggered DNA methylation. DOI: 10.1104/pp.112.200279 ; PMID: 22846193
- Comprehensive analysis of silencing mutants reveals complex regulation of the Arabidopsis methylome. DOI: 10.1016/j.cell.2012.10.054 ; PMID: 23313553
- Small RNA pathways and diversity in model legumes: lessons from genomics. DOI: 10.3389/fpls.2013.00236 ; PMID: 23847640
- Transcription termination and chimeric RNA formation controlled by Arabidopsis thaliana FPA. DOI: 10.1371/journal.pgen.1003867 ; PMID: 24204292
- Salicylic acid and gentisic acid induce RNA silencing-related genes and plant resistance to RNA pathogens. DOI: 10.1016/j.plaphy.2014.01.016 ; PMID: 24531234
- miRNAs trigger widespread epigenetically activated siRNAs from transposons in Arabidopsis. DOI: 10.1038/nature13069 ; PMID: 24670663
- Different roles for RNA silencing and RNA processing components in virus recovery and virus-induced gene silencing in plants. DOI: 10.1093/jxb/eru447 ; PMID: 25385769
- PRL1, an RNA-binding protein, positively regulates the accumulation of miRNAs and siRNAs in Arabidopsis. DOI: 10.1371/journal.pgen.1004841 ; PMID: 25474114
- DICER-LIKE1 processed trans-acting siRNAs mediate DNA methylation: case study of complex small RNA biogenesis and action pathways in plants. DOI: 10.4161/psb.22476 ; PMID: 23104109
- CMA33/XCT Regulates Small RNA Production through Modulating the Transcription of Dicer-Like Genes in Arabidopsis. DOI: 10.1016/j.molp.2015.03.002 ; PMID: 25770820
- Functional and Genetic Analysis Identify a Role for Arabidopsis ARGONAUTE5 in Antiviral RNA Silencing. DOI: 10.1105/tpc.15.00264 ; PMID: 26023161
- Retraction for Moissiard and Voinnet, RNA silencing of host transcripts by cauliflower mosaic virus requires coordinated action of the four Arabidopsis Dicer-like proteins. DOI: 10.1073/pnas.1513620112 ; PMID: 26216957
- Dicer-independent RNA-directed DNA methylation in Arabidopsis. DOI: 10.1038/cr.2015.145 ; PMID: 26642813
- Arabidopsis thaliana siRNA biogenesis mutants have the lower frequency of homologous recombination. DOI: 10.1080/15592324.2016.1151599 ; PMID: 26901311
- Requirement for Host RNA-Silencing Components and the Virus-Silencing Suppressor when Second-Site Mutations Compensate for Structural Defects in the 3' Untranslated Region. DOI: 10.1128/JVI.01566-15 ; PMID: 26355083
- DNA Methylation Influences the Expression of DICER-LIKE4 Isoforms, Which Encode Proteins of Alternative Localization and Function. DOI: 10.1105/tpc.16.00554 ; PMID: 27956586
- A complex of Arabidopsis DRB proteins can impair dsRNA processing. DOI: 10.1261/rna.059519.116 ; PMID: 28232389
- Small RNA-mediated repair of UV-induced DNA lesions by the DNA DAMAGE-BINDING PROTEIN 2 and ARGONAUTE 1. DOI: 10.1073/pnas.1618834114 ; PMID: 28325872
- Identification of a New Host Factor Required for Antiviral RNAi and Amplification of Viral siRNAs. DOI: 10.1104/pp.17.01370 ; PMID: 29184028
- Arabidopsis ENOR3 regulates RNAi-mediated antiviral defense. DOI: 10.1016/j.jgg.2017.11.005 ; PMID: 29396140
- Transcriptional read-through of the long non-coding RNA SVALKA governs plant cold acclimation. DOI: 10.1038/s41467-018-07010-6 ; PMID: 30385760
- Analysis of siRNA Precursors Generated by RNA Polymerase IV and RNA-Dependent RNA Polymerase 2 in Arabidopsis. DOI: 10.1007/978-1-4939-9045-0_2 ; PMID: 30945177
- Arabidopsis RNA Polymerase IV generates 21-22 nucleotide small RNAs that can participate in RNA-directed DNA methylation and may regulate genes. DOI: 10.1098/rstb.2019.0417 ; PMID: 32075560
- Synergy between the anthocyanin and RDR6/SGS3/DCL4 siRNA pathways expose hidden features of Arabidopsis carbon metabolism. DOI: 10.1038/s41467-020-16289-3 ; PMID: 32415123
- Developmentally regulated Arabidopsis thaliana susceptibility to tomato spotted wilt virus infection. DOI: 10.1111/mpp.12944 ; PMID: 32441865
- Characterization of a DCL2-Insensitive Tomato Bushy Stunt Virus Isolate Infecting Arabidopsis thaliana. DOI: 10.3390/v12101121 ; PMID: 33023227
- Simultaneous silencing of two different Arabidopsis genes with a novel virus-induced gene silencing vector. DOI: 10.1186/s13007-020-00701-6 ; PMID: 33407679
- Role of the RNA-directed DNA Methylation pathway in the regulation of maternal effects in Arabidopsis thaliana seed germination. DOI: 10.17912/micropub.biology.000504 ; PMID: 34901781
- Safeguard DCL2-Dependent 22-nt siRNA generation by DCL1. DOI: 10.1016/j.bbrc.2022.03.076 ; PMID: 35316769
- TYMV and TRV infect Arabidopsis thaliana by expressing weak suppressors of RNA silencing and inducing host RNASE THREE LIKE1. DOI: 10.1371/journal.ppat.1010482 ; PMID: 36696453
Gene Resources
- UniProt: F4K482
- EMBL: CP002688
- EnsemblPlants: AT5G20320.2
- Gramene: AT5G20320.2
- ExpressionAtlas: AT5G20320
- InterPro: IPR000999, IPR001650, IPR003100
- PANTHER: PTHR14950, PTHR14950:SF15
- SUPFAM: SSF52540, SSF54768, SSF69065
- PROSITE: PS00517, PS50137, PS50142
- Gene3D: 1.10.1520.10, 2.170.260.10, 3.30.160.20
- SWISS-MODEL: F4K482
- Conserved Domain Database: cd00593, cd18034, cd18802
Sequences
cDNA Sequence
- >AT5G20320.2
CAAAAGATGTATTTTAAAATCTCTAAACTCAATAACTCCACAAAAATTTTCAGAATCAATGATTGTAGAAACACATGATTTCTGGTTCAGAATTTCACACACTCCACCCAAAAAAATACCCTTAAAAAGTTATAATTGTATTGATTAGCTGATAAAATCAATTTATTGGAAAGAAATCCTAATAATAACGCTGTAATAGAAGAGAAGAGAAGAGAGAGGGAGACGTGAGATCGTGAATTATGCGTGACGAAGTTGACTTGAGCTTGACCATTCCCTCGAAGCTTTTGGGGAAGCGAGACAGAGAACAAAAAAATTGTGAAGAAGAAAAAAACAAAAACAAAAAAGCTAAAAAGCAGCAAAAGGACCCAATTCTTCTTCACACTAGTGCTGCCACTCACAAGTTTCTTCCTCCTCCTTTGACCATGCCGTACAGTGAAATCGGCGACGATCTTCGCTCACTCGACTTTGACCACGCCGATGTTTCTTCCGACCTTCACCTCACTTCTTCTTCCTCTGTTTCTTCGTTTTCCTCTTCTTCGTCTTCTTTGTTCTCCGCGGCTGGTACGGATGATCCTTCACCGAAAATGGAGAAAGACCCTAGAAAAATCGCCAGGAGGTATCAGGTGGAGCTGTGTAAGAAAGCAACGGAGGAGAACGTTATTGTATATTTGGGTACAGGTTGTGGGAAGACTCACATTGCAGTGATGCTTATATATGAGCTTGGTCATTTGGTTCTTAGTCCCAAGAAAAGTGTTTGTATTTTTCTTGCTCCCACCGTGGCTTTGGTCGAACAGCAAGCCAAGGTCATAGCGGACTCTGTCAACTTCAAAGTTGCAATACATTGTGGAGGCAAGAGGATTGTGAAGAGCCACTCGGAGTGGGAGAGAGAGATTGCAGCGAATGAGCACTGTTTCATCAAGATGGAGTGTATCTCCCTTCTAATATTTGATGAGTGTCACCATGCTCAACAACAAAGCAACCATCCTTATGCAGAAATCATGAAGGTTTTCTATAAATCGGAAAGTTTACAACGGCCTCGAATATTTGGAATGACTGCATCTCCAGTTGTTGGCAAAGGGTCTTTTCAATCAGAGAATTTATCGAAAAGCATTAATAGCCTTGAAAATTTGCTCAATGCCAAGGTTTATTCAGTGGAAAGCAATGTCCAGCTGGATGGTTTTGTTTCATCTCCTTTAGTCAAAGTATATTATTATCGGTCAGCTTTAAGTGATGCATCTCAATCGACCATCAGATATGAAAACATGCTGGAGGACATCAAACAGCGGTGCTTGGCATCACTTAAGCTGCTGATTGATACTCATCAAACACAAACCCTCCTAAGTATGAAAAGGCTTCTCAAAAGATCTCATGATAATCTCATATATACTCTGCTGAATCTTGGCCTCTGGGGAGCAATACAGGCTGCTAAAATCCAATTGAATAGTGACCATAATGTACAAGACGAGCCTGTGGGAAAGAATCCTAAGTCAAAGATATGTGATACATATCTTTCTATGGCTGCTGAGGCCCTCTCTTCTGGTGTTGCTAAAGATGAGAATGCATCTGACCTCCTCAGCTTAGCGGCGTTGAAGGAACCATTATTCTCTAGAAAGCTAGTTCAATTGATTAAGATCCTTTCGGTATTCAGGCTAGAGCCACACATGAAATGTATAATATTTGTCAATCGGATTGTGACTGCAAGAACATTGTCATGCATACTAAATAACTTGGAACTGCTACGGTCTTGGAAGTCTGATTTCCTTGTTGGACTTAGTTCTGGACTGAAGAGCATGTCAAGAAGGAGTATGGAAACAATACTTAAACGGTTCCAATCTAAAGAGCTCAATTTACTGGTTGCCACTAAAGTTGGTGAAGAAGGCCTTGATATTCAGACATGCTGTCTTGTGATCCGTTATGATTTACCAGAGACTGTTACCAGCTTCATACAGTCCAGAGGTCGTGCTCGAATGCCTCAGTCTGAATATGCGTTTCTAGTGGACAGCGGAAACGAGAAAGAGATGGATCTTATTGAAAATTTTAAAGTAAATGAAGATCGAATGAATCTAGAAATTACTTACAGAAGCTCAGAGGAAACTTGTCCTAGACTTGATGAGGAGTTATACAAAGTTCATGAGACAGGAGCTTGTATCAGTGGTGGAAGCAGCATCTCCCTTCTCTATAAATATTGTTCTAGGCTTCCACATGATGAATTTTTTCAGCCCAAGCCAGAGTTTCAATTCAAGCCTGTTGACGAATTTGGTGGAACTATCTGTCGCATAACTTTACCTGCTAATGCTCCTATAAGTGAAATCGAAAGTTCACTACTACCTTCGACAGAAGCTGCTAAAAAGGATGCTTGTCTAAAGGCTGTGCATGAGTTGCACAACTTGGGTGTACTTAACGATTTTCTGTTGCCAGATTCCAAGGATGAAATTGAGGACGAATTGTCAGATGATGAATTTGATTTTGATAACATCAAAGGTGAAGGCTGTTCACGAGGTGACCTGTATGAGATGCGTGTACCAGTCTTGTTTAAACAAAAGTGGGATCCATCTACAAGTTGTGTCAATCTTCATTCTTACTATATAATGTTTGTGCCTCATCCCGCTGATAGGATCTACAAAAAGTTTGGTTTCTTCATGAAGTCACCTCTTCCCGTTGAGGCTGAGACTATGGATATCGATCTTCACCTTGCTCATCAAAGATCTGTAAGTGTAAAGATTTTTCCATCAGGGGTCACAGAATTCGACAACGATGAGATAAGACTAGCTGAGCTTTTCCAGGAGATTGCCCTGAAGGTTCTTTTTGAACGGGGGGAGCTGATCCCGGACTTTGTTCCCTTGGAACTGCAAGACTCTTCTAGAACAAGCAAATCCACCTTCTACCTTCTTCTTCCACTCTGTCTGCATGATGGAGAAAGTGTTATATCTGTAGATTGGGTGACTATCAGAAACTGCTTGTCATCACCAATCTTTAAGACTCCATCTGTTTTAGTGGAAGATATATTTCCTCCTTCGGGCTCTCATTTAAAGCTAGCAAATGGCTGCTGGAATATTGATGATGTGAAGAACAGCTTGGTTTTTACAACCTACAGTAAACAATTTTACTTTGTTGCTGATATCTGCCATGGAAGAAATGGTTTCAGTCCTGTTAAGGAATCTAGCACCAAAAGCCATGTGGAGAGCATATATAAGTTGTATGGCGTGGAACTCAAGCATCCTGCACAGCCACTCTTGCGTGTGAAACCACTTTGTCATGTTCGGAACTTGCTTCACAACCGAATGCAGACGAATTTGGAACCACAAGAACTTGACGAATACTTCATAGAGATTCCTCCCGAACTTTCTCACTTAAAGATAAAAGGATTATCTAAAGACATCGGAAGCTCGTTATCCTTGTTACCATCAATCATGCATCGTATGGAGAATTTACTCGTGGCTATTGAACTGAAACATGTGCTGTCTGCTTCGATCCCTGAGATAGCTGAAGTTTCTGGTCACAGGGTACTCGAGGCGCTCACAACAGAGAAATGTCATGAGCGCCTTTCTCTTGAAAGGCTTGAGGTGCTTGGTGATGCATTCCTCAAGTTTGCTGTTAGCCGACACCTTTTTCTACACCATGATAGTCTTGATGAAGGAGAGTTGACTCGGAGACGCTCTAACGTTGTTAACAATTCCAACTTGTGCAGGCTTGCAATAAAAAAAAATCTGCAGGTCTACATCCGTGATCAAGCATTGGATCCTACTCAGTTCTTTGCATTTGGCCATCCATGCAGAGTAACCTGTGACGAGGTAGCCAGTAAAGAGGTTCATTCCTTGAATAGGGATCTTGGGATCTTGGAGTCAAATACTGGTGAAATCAGATGTAGCAAAGGCCATCATTGGTTGTACAAGAAAACAATTGCTGATGTGGTTGAGGCTCTTGTGGGAGCTTTCTTAGTTGACAGTGGCTTCAAAGGTGCTGTGAAATTTCTGAAGTGGATTGGTGTAAATGTTGATTTTGAATCCTTGCAAGTACAAGATGCTTGTATTGCAAGCAGGCGCTACTTGCCCCTCACTACTCGCAATAATTTGGAGACCCTTGAAAACCAGCTTGACTATAAGTTCCTCCACAAAGGTCTACTTGTACAAGCCTTTATCCATCCATCTTACAACAGGCATGGAGGAGGCTGCTACCAGAGATTGGAGTTTCTTGGGGATGCTGTTCTGGACTACTTGATGACATCCTATTTTTTCACAGTCTTCCCGAAACTGAAACCTGGTCAACTGACCGATCTAAGATCTCTCTCAGTAAATAATGAGGCGCTAGCAAATGTTGCTGTCAGTTTTTCGCTAAAGAGATTTCTATTTTGCGAGTCCATTTATCTTCATGAAGTTATAGAGGATTATACCAATTTCCTGGCATCTTCCCCATTGGCAAGTGGACAATCTGAAGGTCCAAGATGCCCAAAGGTTCTTGGTGACTTGGTAGAATCCTGTTTGGGGGCTCTTTTCCTCGATTGTGGGTTCAACTTGAATCATGTCTGGACTATGATGCTATCATTTCTAGATCCGGTCAAAAACTTGTCTAACCTTCAGATTAGTCCTATAAAAGAACTGATTGAACTTTGCCAGTCTTACAAGTGGGATCGGGAAATATCAGCGACGAAAAAGGATGGTGCTTTTACTGTTGAACTAAAAGTGACCAAGAATGGTTGTTGCCTTACAGTTTCTGCAACTGGTCGGAACAAAAGAGAGGGCACAAAAAAGGCTGCACAGCTGATGATTACAAACCTGAAGGCTCATGAGAACATAACAACCTCCCATCCGTTGGAGGATGTTCTGAAGAATGGCATCCGAAATGAAGCTAAATTAATTGGCTACAATGAAGATCCTATAGATGTTGTGGATCTTGTTGGGCTGGACGTTGAAAACCTAAATATCCTAGAAACTTTTGGCGGGAATAGTGAAAGAAGCAGCTCATACGTCATCAGACGAGGTCTCCCCCAAGCACCATCTAAAACAGAAGACAGGCTTCCTCAAAAGGCCATCATAAAAGCAGGTGGACCAAGCAGCAAAACCGCAAAATCCCTCTTGCACGAAACATGTGTTGCTAACTGTTGGAAGCCACCACACTTCGAATGTTGTGAAGAGGAAGGACCAGGCCACCTGAAATCATTCGTCTACAAGGTAATCCTGGAAGTTGAAGATGCGCCCAATATGACATTGGAATGTTATGGTGAGGCTAGAGCAACGAAGAAAGGTGCAGCAGAGCACGCTGCCCAAGCTGCTATATGGTGCCTCAAGCATTCTGGATTCCTTTGCTGATGATCTCGAGCGGCTATATATCGGTTAGAAATAGATGTTATCATAGGCATATATAACTTTTACCAGAGCTACATATTAGCATATATGATCGACACCTACAATTTCTCGAAAGAGAAAAAAGGATGTCTGAAAACTAACCTTAAACCATAGATTTTGGAGCGGAGAGCTTTCGGCAAAAGTTCTCTTCGATTGCTCTTCTGAATTTCTGAATATAAGTATATGTTTACTTGTACTTGATGAACCCATAGCATGATAGGCTCCAAAAATATAGTTTACTCATCTCTCATGCATCAAATATGTTCCTGTGTGATCTTAATTAAACAATATATGAACTAAGCGTTAA - >AT5G20320.3
CAAAAGATGTATTTTAAAATCTCTAAACTCAATAACTCCACAAAAATTTTCAGAATCAATGATTGTAGAAACACATGATTTCTGGTTCAGAATTTCACACACTCCACCCAAAAAAATACCCTTAAAAAGTTATAATTGTATTGATTAGCTGATAAAATCAATTTATTGGAAAGAAATCCTAATAATAACGCTGTAATAGAAGAGAAGAGAAGAGAGAGGGAGACGTGAGATCGTGAATTATGCGTGACGAAGTTGACTTGAGCTTGACCATTCCCTCGAAGCTTTTGGGGAAGCGAGACAGAGAACAAAAAAATTGTGAAGAAGAAAAAAACAAAAACAAAAAAGCTAAAAAGCAGCAAAAGGACCCAATTCTTCTTCACACTAGTGCTGCCACTCACAAGTTTCTTCCTCCTCCTTTGACCATGCCGTACAGTGAAATCGGCGACGATCTTCGCTCACTCGACTTTGACCACGCCGATGTTTCTTCCGACCTTCACCTCACTTCTTCTTCCTCTGTTTCTTCGTTTTCCTCTTCTTCGTCTTCTTTGTTCTCCGCGGCTGGTACGGATGATCCTTCACCGAAAATGGAGAAAGACCCTAGAAAAATCGCCAGGAGGTATCAGGTGGAGCTGTGTAAGAAAGCAACGGAGGAGAACGTTATTGTATATTTGGGTACAGGTTGTGGGAAGACTCACATTGCAGTGATGCTTATATATGAGCTTGGTCATTTGGTTCTTAGTCCCAAGAAAAGTGTTTGTATTTTTCTTGCTCCCACCGTGGCTTTGGTCGAACAGCAAGCCAAGGTCATAGCGGACTCTGTCAACTTCAAAGTTGCAATACATTGTGGAGGCAAGAGGATTGTGAAGAGCCACTCGGAGTGGGAGAGAGAGATTGCAGCGAATGAGCACTGTTTCATCAAGATGGAGTGTATCTCCCTTCTAATATTTGATGAGTGTCACCATGCTCAACAACAAAGCAACCATCCTTATGCAGAAATCATGAAGGTTTTCTATAAATCGGAAAGTTTACAACGGCCTCGAATATTTGGAATGACTGCATCTCCAGTTGTTGGCAAAGGGTCTTTTCAATCAGAGAATTTATCGAAAAGCATTAATAGCCTTGAAAATTTGCTCAATGCCAAGGTTTATTCAGTGGAAAGCAATGTCCAGCTGGATGGTTTTGTTTCATCTCCTTTAGTCAAAGTATATTATTATCGGTCAGCTTTAAGTGATGCATCTCAATCGACCATCAGATATGAAAACATGCTGGAGGACATCAAACAGCGGTGCTTGGCATCACTTAAGCTGCTGATTGATACTCATCAAACACAAACCCTCCTAAGTATGAAAAGGCTTCTCAAAAGATCTCATGATAATCTCATATATACTCTGCTGAATCTTGGCCTCTGGGGAGCAATACAGGCTGCTAAAATCCAATTGAATAGTGACCATAATGTACAAGACGAGCCTGTGGGAAAGAATCCTAAGTCAAAGATATGTGATACATATCTTTCTATGGCTGCTGAGGCCCTCTCTTCTGGTGTTGCTAAAGATGAGAATGCATCTGACCTCCTCAGCTTAGCGGCGTTGAAGGAACCATTATTCTCTAGAAAGCTAGTTCAATTGATTAAGATCCTTTCGGTATTCAGGCTAGAGCCACACATGAAATGTATAATATTTGTCAATCGGATTGTGACTGCAAGAACATTGTCATGCATACTAAATAACTTGGAACTGCTACGGTCTTGGAAGTCTGATTTCCTTGTTGGACTTAGTTCTGGACTGAAGAGCATGTCAAGAAGGAGTATGGAAACAATACTTAAACGGTTCCAATCTAAAGAGCTCAATTTACTGGTTGCCACTAAAGTTGGTGAAGAAGGCCTTGATATTCAGACATGCTGTCTTGTGATCCGTTATGATTTACCAGAGACTGTTACCAGCTTCATACAGTCCAGAGGTCGTGCTCGAATGCCTCAGTCTGAATATGCGTTTCTAGTGGACAGCGGAAACGAGAAAGAGATGGATCTTATTGAAAATTTTAAAGTAAATGAAGATCGAATGAATCTAGAAATTACTTACAGAAGCTCAGAGGAAACTTGTCCTAGACTTGATGAGGAGTTATACAAAGTTCATGAGACAGGAGCTTGTATCAGTGGTGGAAGCAGCATCTCCCTTCTCTATAAATATTGTTCTAGGCTTCCACATGATGAATTTTTTCAGCCCAAGCCAGAGTTTCAATTCAAGCCTGTTGACGAATTTGGTGGAACTATCTGTCGCATAACTTTACCTGCTAATGCTCCTATAAGTGAAATCGAAAGTTCACTACTACCTTCGACAGAAGCTGCTAAAAAGGATGCTTGTCTAAAGGCTGTGCATGAGTTGCACAACTTGGGTGTACTTAACGATTTTCTGTTGCCAGATTCCAAGGATGAAATTGAGGACGAATTGTCAGATGATGAATTTGATTTTGATAACATCAAAGGTGAAGGCTGTTCACGAGGTGACCTGTATGAGATGCGTGTACCAGTCTTGTTTAAACAAAAGTGGGATCCATCTACAAGTTGTGTCAATCTTCATTCTTACTATATAATGTTTGTGCCTCATCCCGCTGATAGGATCTACAAAAAGTTTGGTTTCTTCATGAAGTCACCTCTTCCCGTTGAGGCTGAGACTATGGATATCGATCTTCACCTTGCTCATCAAAGATCTGTAAGTGTAAAGATTTTTCCATCAGGGGTCACAGAATTCGACAACGATGAGATAAGACTAGCTGAGCTTTTCCAGGAGATTGCCCTGAAGGTTCTTTTTGAACGGGGGGAGCTGATCCCGGACTTTGTTCCCTTGGAACTGCAAGACTCTTCTAGAACAAGCAAATCCACCTTCTACCTTCTTCTTCCACTCTGTCTGCATGATGGAGAAAGTGTTATATCTGTAGATTGGGTGACTATCAGAAACTGCTTGTCATCACCAATCTTTAAGACTCCATCTGTTTTAGTGGAAGATATATTTCCTCCTTCGGGCTCTCATTTAAAGCTAGCAAATGGCTGCTGGAATATTGATGATGTGAAGAACAGCTTGGTTTTTACAACCTACAGTAAACAATTTTACTTTGTTGCTGATATCTGCCATGGAAGAAATGGTTTCAGTCCTGTTAAGGAATCTAGCACCAAAAGCCATGTGGAGAGCATATATAAGTTGTATGGCGTGGAACTCAAGCATCCTGCACAGCCACTCTTGCGTGTGAAACCACTTTGTCATGTTCGGAACTTGCTTCACAACCGAATGCAGACGAATTTGGAACCACAAGAACTTGACGAATACTTCATAGAGATTCCTCCCGAACTTTCTCACTTAAAGATAAAAGGATTATCTAAAGACATCGGAAGCTCGTTATCCTTGTTACCATCAATCATGCATCGTATGGAGAATTTACTCGTGGCTATTGAACTGAAACATGTGCTGTCTGCTTCGATCCCTGAGATAGCTGAAGTTTCTGGTCACAGGGTACTCGAGGCGCTCACAACAGAGAAATGTCATGAGCGCCTTTCTCTTGAAAGGCTTGAGGTGCTTGGTGATGCATTCCTCAAGTTTGCTGTTAGCCGACACCTTTTTCTACACCATGATAGTCTTGATGAAGGAGAGTTGACTCGGAGACGCTCTAACGTTGTTAACAATTCCAACTTGTGCAGGCTTGCAATAAAAAAAAATCTGCAGGTCTACATCCGTGATCAAGCATTGGATCCTACTCAGTTCTTTGCATTTGGCCATCCATGCAGAGTAACCTGTGACGAGGTAGCCAGTAAAGAGGTTCATTCCTTGAATAGGGATCTTGGGATCTTGGAGTCAAATACTGGTGAAATCAGATGTAGCAAAGGCCATCATTGGTTGTACAAGAAAACAATTGCTGATGTGGTTGAGGCTCTTGTGGGAGCTTTCTTAGTTGACAGTGGCTTCAAAGGTGCTGTGAAATTTCTGAAGTGGATTGGTGTAAATGTTGATTTTGAATCCTTGCAAGTACAAGATGCTTGTATTGCAAGCAGGCGCTACTTGCCCCTCACTACTCGCAATAATTTGGAGACCCTTGAAAACCAGCTTGACTATAAGTTCCTCCACAAAGGTCTACTTGTACAAGCCTTTATCCATCCATCTTACAACAGGCATGGAGGAGGCTGCTACCAGAGATTGGAGTTTCTTGGGGATGCTGTTCTGGACTACTTGATGACATCCTATTTTTTCACAGTCTTCCCGAAACTGAAACCTGGTCAACTGACCGATCTAAGATCTCTCTCAGTAAATAATGAGGCGCTAGCAAATGTTGCTGTCAGTTTTTCGCTAAAGAGATTTCTATTTTGCGAGTCCATTTATCTTCATGAAGTTATAGAGGATTATACCAATTTCCTGGCATCTTCCCCATTGGCAAGTGGACAATCTGAAGGTCCAAGATGCCCAAAGGTTCTTGGTGACTTGGTAGAATCCTGTTTGGGGGCTCTTTTCCTCGATTGTGGGTTCAACTTGAATCATGTCTGGACTATGATGCTATCATTTCTAGATCCGGTCAAAAACTTGTCTAACCTTCAGATTAGTCCTATAAAAGAACTGATTGAACTTTGCCAGTCTTACAAGTGGGATCGGGAAATATCAGCGACGAAAAAGGATGGTGCTTTTACTGTTGAACTAAAAGTGACCAAGAATGGTTGTTGCCTTACAGTTTCTGCAACTGGTCGGAACAAAAGAGAGGGCACAAAAAAGGCTGCACAGCTGATGATTACAAACCTGAAGGCTCATGAGAACATAACAACCTCCCATCCGTTGGAGGATGTTCTGAAGAATGGCATCCGAAATGAAGCTAAATTAATTGGCTACAATGAAGATCCTATAGATGTTGTGGATCTTGTTGGGCTGGACGTTGAAAACCTAAATATCCTAGAAACTTTTGGCGGGAATAGTGAAAGAAGCAGCTCATACGTCATCAGACGAGGTCTCCCCCAAGCACCATCTAAAACAGAAGACAGGCTTCCTCAAAAGGCCATCATAAAAGCAGGTGGACCAAGCAGCAAAACCGCAAAATCCCTCTTGCACGAAACATGTGTTGCTAACTGTTGGAAGCCACCACACTTCGAATGTTGTGAAGAGGAAGGACCAGGCCACCTGAAATCATTCGTCTACAAGGTAATCCTGGAAGTTGAAGATGCGCCCAATATGACATTGGAATGTTATGGTGAGGCTAGAGCAACGAAGAAAGGTGCAGCAGAGCACGCTGCCCAAGCTGCTATATGGTGCCTCAAGCATTCTGGATTCCTTTGCTGATGATCTCGAGCGGCTATATATCGGTTAGAAATAGATGTTATCATAGGCATATATAACTTTTACCAGAGCTACATATTAGCATATATGATCGACACCTACAATTTCTCGAAAGAGAAAAAAGGATGTCTGAAAACTAACCTTAAACCATAGATTTTGGAGCGGAGAGCTTTCGGCAAAAGTTCTCTTCGATTGCTCTTCTGAATTTCTGAATATAAGTATATGTTTACTTGTACTTGATGAACCCATAGCATGATAGGCTCCAAAAATATAGTTTACTCATCTCTCATGCATCAAATATGTTCCTGTGTGATCTTAATTAAACAATATATGAACTAAGCGTTAA - >AT5G20320.1
CAAAAGATGTATTTTAAAATCTCTAAACTCAATAACTCCACAAAAATTTTCAGAATCAATGATTGTAGAAACACATGATTTCTGGTTCAGAATTTCACACACTCCACCCAAAAAAATACCCTTAAAAAGTTATAATTGTATTGATTAGCTGATAAAATCAATTTATTGGAAAGAAATCCTAATAATAACGCTGTAATAGAAGAGAAGAGAAGAGAGAGGGAGACGTGAGATCGTGAATTATGCGTGACGAAGTTGACTTGAGCTTGACCATTCCCTCGAAGCTTTTGGGGAAGCGAGACAGAGAACAAAAAAATTGTGAAGAAGAAAAAAACAAAAACAAAAAAGCTAAAAAGCAGCAAAAGGACCCAATTCTTCTTCACACTAGTGCTGCCACTCACAAGTTTCTTCCTCCTCCTTTGACCATGCCGTACAGTGAAATCGGCGACGATCTTCGCTCACTCGACTTTGACCACGCCGATGTTTCTTCCGACCTTCACCTCACTTCTTCTTCCTCTGTTTCTTCGTTTTCCTCTTCTTCGTCTTCTTTGTTCTCCGCGGCTGGTACGGATGATCCTTCACCGAAAATGGAGAAAGACCCTAGAAAAATCGCCAGGAGGTATCAGGTGGAGCTGTGTAAGAAAGCAACGGAGGAGAACGTTATTGTATATTTGGGTACAGGTTGTGGGAAGACTCACATTGCAGTGATGCTTATATATGAGCTTGGTCATTTGGTTCTTAGTCCCAAGAAAAGTGTTTGTATTTTTCTTGCTCCCACCGTGGCTTTGGTCGAACAGCAAGCCAAGGTCATAGCGGACTCTGTCAACTTCAAAGTTGCAATACATTGTGGAGGCAAGAGGATTGTGAAGAGCCACTCGGAGTGGGAGAGAGAGATTGCAGCGAATGAGCACTGTTTCATCAAGATGGAGTGTATCTCCCTTCTAATATTTGATGAGTGTCACCATGCTCAACAACAAAGCAACCATCCTTATGCAGAAATCATGAAGGTTTTCTATAAATCGGAAAGTTTACAACGGCCTCGAATATTTGGAATGACTGCATCTCCAGTTGTTGGCAAAGGGTCTTTTCAATCAGAGAATTTATCGAAAAGCATTAATAGCCTTGAAAATTTGCTCAATGCCAAGGTTTATTCAGTGGAAAGCAATGTCCAGCTGGATGGTTTTGTTTCATCTCCTTTAGTCAAAGTATATTATTATCGGTCAGCTTTAAGTGATGCATCTCAATCGACCATCAGATATGAAAACATGCTGGAGGACATCAAACAGCGGTGCTTGGCATCACTTAAGCTGCTGATTGATACTCATCAAACACAAACCCTCCTAAGTATGAAAAGGCTTCTCAAAAGATCTCATGATAATCTCATATATACTCTGCTGAATCTTGGCCTCTGGGGAGCAATACAGGCTGCTAAAATCCAATTGAATAGTGACCATAATGTACAAGACGAGCCTGTGGGAAAGAATCCTAAGTCAAAGATATGTGATACATATCTTTCTATGGCTGCTGAGGCCCTCTCTTCTGGTGTTGCTAAAGATGAGAATGCATCTGACCTCCTCAGCTTAGCGGCGTTGAAGGAACCATTATTCTCTAGAAAGCTAGTTCAATTGATTAAGATCCTTTCGGTATTCAGGCTAGAGCCACACATGAAATGTATAATATTTGTCAATCGGATTGTGACTGCAAGAACATTGTCATGCATACTAAATAACTTGGAACTGCTACGGTCTTGGAAGTCTGATTTCCTTGTTGGACTTAGTTCTGGACTGAAGAGCATGTCAAGAAGGAGTATGGAAACAATACTTAAACGGTTCCAATCTAAAGAGCTCAATTTACTGGTTGCCACTAAAGTTGGTGAAGAAGGCCTTGATATTCAGACATGCTGTCTTGTGATCCGTTATGATTTACCAGAGACTGTTACCAGCTTCATACAGTCCAGAGGTCGTGCTCGAATGCCTCAGTCTGAATATGCGTTTCTAGTGGACAGCGGAAACGAGAAAGAGATGGATCTTATTGAAAATTTTAAAGTAAATGAAGATCGAATGAATCTAGAAATTACTTACAGAAGCTCAGAGGAAACTTGTCCTAGACTTGATGAGGAGTTATACAAAGTTCATGAGACAGGAGCTTGTATCAGTGGTGGAAGCAGCATCTCCCTTCTCTATAAATATTGTTCTAGGCTTCCACATGATGAATTTTTTCAGCCCAAGCCAGAGTTTCAATTCAAGCCTGTTGACGAATTTGGTGGAACTATCTGTCGCATAACTTTACCTGCTAATGCTCCTATAAGTGAAATCGAAAGTTCACTACTACCTTCGACAGAAGCTGCTAAAAAGGATGCTTGTCTAAAGGCTGTGCATGAGTTGCACAACTTGGGTGTACTTAACGATTTTCTGTTGCCAGATTCCAAGGATGAAATTGAGGACGAATTGTCAGATGATGAATTTGATTTTGATAACATCAAAGGTGAAGGCTGTTCACGAGGTGACCTGTATGAGATGCGTGTACCAGTCTTGTTTAAACAAAAGTGGGATCCATCTACAAGTTGTGTCAATCTTCATTCTTACTATATAATGTTTGTGCCTCATCCCGCTGATAGGATCTACAAAAAGTTTGGTTTCTTCATGAAGTCACCTCTTCCCGTTGAGGCTGAGACTATGGATATCGATCTTCACCTTGCTCATCAAAGATCTGTAAGTGTAAAGATTTTTCCATCAGGGGTCACAGAATTCGACAACGATGAGATAAGACTAGCTGAGCTTTTCCAGGAGATTGCCCTGAAGGTTCTTTTTGAACGGGGGGAGCTGATCCCGGACTTTGTTCCCTTGGAACTGCAAGACTCTTCTAGAACAAGCAAATCCACCTTCTACCTTCTTCTTCCACTCTGTCTGCATGATGGAGAAAGTGTTATATCTGTAGATTGGGTGACTATCAGAAACTGCTTGTCATCACCAATCTTTAAGACTCCATCTGTTTTAGTGGAAGATATATTTCCTCCTTCGGGCTCTCATTTAAAGCTAGCAAATGGCTGCTGGAATATTGATGATGTGAAGAACAGCTTGGTTTTTACAACCTACAGTAAACAATTTTACTTTGTTGCTGATATCTGCCATGGAAGAAATGGTTTCAGTCCTGTTAAGGAATCTAGCACCAAAAGCCATGTGGAGAGCATATATAAGTTGTATGGCGTGGAACTCAAGCATCCTGCACAGCCACTCTTGCGTGTGAAACCACTTTGTCATGTTCGGAACTTGCTTCACAACCGAATGCAGACGAATTTGGAACCACAAGAACTTGACGAATACTTCATAGAGATTCCTCCCGAACTTTCTCACTTAAAGATAAAAGGATTATCTAAAGACATCGGAAGCTCGTTATCCTTGTTACCATCAATCATGCATCGTATGGAGAATTTACTCGTGGCTATTGAACTGAAACATGTGCTGTCTGCTTCGATCCCTGAGATAGCTGAAGTTTCTGGTCACAGGGTACTCGAGGCGCTCACAACAGAGAAATGTCATGAGCGCCTTTCTCTTGAAAGGCTTGAGGTGCTTGGTGATGCATTCCTCAAGTTTGCTGTTAGCCGACACCTTTTTCTACACCATGATAGTCTTGATGAAGGAGAGTTGACTCGGAGACGCTCTAACGTTGTTAACAATTCCAACTTGTGCAGGCTTGCAATAAAAAAAAATCTGCAGGTCTACATCCGTGATCAAGCATTGGATCCTACTCAGTTCTTTGCATTTGGCCATCCATGCAGAGTAACCTGTGACGAGGTAGCCAGTAAAGAGGTTCATTCCTTGAATAGGGATCTTGGGATCTTGGAGTCAAATACTGGTGAAATCAGATGTAGCAAAGGCCATCATTGGTTGTACAAGAAAACAATTGCTGATGTGGTTGAGGCTCTTGTGGGAGCTTTCTTAGTTGACAGTGGCTTCAAAGGTGCTGTGAAATTTCTGAAGTGGATTGGTGTAAATGTTGATTTTGAATCCTTGCAAGTACAAGATGCTTGTATTGCAAGCAGGCGCTACTTGCCCCTCACTACTCGCAATAATTTGGAGACCCTTGAAAACCAGCTTGACTATAAGTTCCTCCACAAAGGTCTACTTGTACAAGCCTTTATCCATCCATCTTACAACAGGCATGGAGGAGGCTGCTACCAGAGATTGGAGTTTCTTGGGGATGCTGTTCTGGACTACTTGATGACATCCTATTTTTTCACAGTCTTCCCGAAACTGAAACCTGGTCAACTGACCGATCTAAGATCTCTCTCAGTAAATAATGAGGCGCTAGCAAATGTTGCTGTCAGTTTTTCGCTAAAGAGATTTCTATTTTGCGAGTCCATTTATCTTCATGAAGTTATAGAGGATTATACCAATTTCCTGGCATCTTCCCCATTGGCAAGTGGACAATCTGAAGGTCCAAGATGCCCAAAGGTTCTTGGTGACTTGGTAGAATCCTGTTTGGGGGCTCTTTTCCTCGATTGTGGGTTCAACTTGAATCATGTCTGGACTATGATGCTATCATTTCTAGATCCGGTCAAAAACTTGTCTAACCTTCAGATTAGTCCTATAAAAGAACTGATTGAACTTTGCCAGTCTTACAAGTGGGATCGGGAAATATCAGCGACGAAAAAGGATGGTGCTTTTACTGTTGAACTAAAAGTGACCAAGAATGGTTGTTGCCTTACAGTTTCTGCAACTGGTCGGAACAAAAGAGAGGGCACAAAAAAGGCTGCACAGCTGATGATTACAAACCTGAAGGCTCATGAGAACATAACAACCTCCCATCCGTTGGAGGATGTTCTGAAGAATGGCATCCGAAATGAAGCTAAATTAATTGGCTACAATGAAGATCCTATAGATGTTGTGGATCTTGTTGGGCTGGACGTTGAAAACCTAAATATCCTAGAAACTTTTGGCGGGAATAGTGAAAGAAGCAGCTCATACGTCATCAGACGAGGTCTCCCCCAAGCACCATCTAAAACAGAAGACAGGCTTCCTCAAAAGGCCATCATAAAAGCAGGTGGACCAAGCAGCAAAACCGCAAAATCCCTCTTGCACGAAACATGTGTTGCTAACTGTTGGAAGCCACCACACTTCGAATGTTGTGAAGAGGAAGGACCAGGCCACCTGAAATCATTCGTCTACAAGGTAATCCTGGAAGTTGAAGATGCGCCCAATATGACATTGGAATGTTATGGTGAGGCTAGAGCAACGAAGAAAGGTGCAGCAGAGCACGCTGCCCAAGCTGCTATATGGTGCCTCAAGCATTCTGGATTCCTTTGCTGATGATCTCGAGCGGCTATATATCGGTTAGAAATAGATGTTATCATAGGCATATATAACTTTTACCAGAGCTACATATTAGCATATATGATCGACACCTACAATTTCTCGAAAGAGAAAAAAGGATGTCTGAAAACTAACCTTAAACCATAGATTTTGGAGCGGAGAGCTTTCGGCAAAAGTTCTCTTCGATTGCTCTTCTGAATTTCTGAATATAAGTATATGTTTACTTGTACTTGATGAACCCATAGCATGATAGGCTCCAAAAATATAGTTTACTCATCTCTCATGCATCAAATATGTTCCTGTGTGATCTTAATTAAACAATATATGAACTAAGCGTTAA
CDS Sequence
Protein Sequence