Information report for AT1G01580
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)
- PO:0009046 — flower — flor (Spanish, exact), 花 (Japanese, exact), floret (related), Asteraceae floret (narrow), basal flower (narrow), double flower (narrow), hermaphrodite flower (narrow), monoclinous flower (narrow), perfect flower (narrow)
- PO:0000293 — guard cell — célula guardiana (Spanish, exact), occlusive cell (exact), 孔辺細胞 (Japanese, exact)
- GO:0000293 — enables — ferric-chelate reductase activity
- GO:0060586 — acts upstream of or within — multicellular organismal-level iron ion homeostasis
- GO:0009617 — acts upstream of or within — response to bacterium
- GO:0005886 — located in — plasma membrane
- GO:0033214 — acts upstream of or within — siderophore-dependent iron import into cell
- GO:0005634 — located in — nucleus
- GO:0016491 — enables — oxidoreductase activity
- GO:0005886 — is active in — plasma membrane
Functional Keywords
- root , flower , root , guard cell
Literature and News
- Chloroplast development at low temperatures requires a homolog of DIM1, a yeast gene encoding the 18S rRNA dimethylase. DOI: 10.1105/tpc.10.5.699 ; PMID: 9596631
- AtGEN1 and AtSEND1, two paralogs in Arabidopsis, possess holliday junction resolvase activity. DOI: 10.1104/pp.114.237834 ; PMID: 25037209
- The Structure-Specific Endonucleases MUS81 and SEND1 Are Essential for Telomere Stability in Arabidopsis. DOI: 10.1105/tpc.15.00898 ; PMID: 26704385
- CDC48B facilitates the intercellular trafficking of SHORT-ROOT during radial patterning in roots. DOI: 10.1111/jipb.13231 ; PMID: 35088574
- Quantitative trait loci associated with adventitious shoot formation in tissue culture and the program of shoot development in Arabidopsis. DOI: 10.1534/genetics.103.025213 ; PMID: 15342526
- Proteomic analysis of secreted proteins from Arabidopsis thaliana seedlings: improved recovery following removal of phenolic compounds. DOI: 10.1016/j.phytochem.2004.12.013 ; PMID: 15694452
- Co-immunoprecipitation of Hsp101 with cytosolic Hsc70. DOI: 10.1016/j.plaphy.2004.10.006 ; PMID: 15763661
- Cell wall proteins in apoplastic fluids of Arabidopsis thaliana rosettes: identification by mass spectrometry and bioinformatics. DOI: 10.1002/pmic.200400882 ; PMID: 15593128
- Inferring hypotheses on functional relationships of genes: Analysis of the Arabidopsis thaliana subtilase gene family. DOI: 10.1371/journal.pcbi.0010040 ; PMID: 16193095
- Systemic signalling of environmental cues in Arabidopsis leaves. DOI: 10.1093/jxb/erj033 ; PMID: 16330523
- Cross genome comparisons of serine proteases in Arabidopsis and rice. DOI: 10.1186/1471-2164-7-200 ; PMID: 16895613
- Developmental steps in acquiring competence for shoot development in Arabidopsis tissue culture. DOI: 10.1007/s00425-007-0565-4 ; PMID: 17581762
- Core genome responses involved in acclimation to high temperature. DOI: 10.1104/pp.107.112060 ; PMID: 18055584
- Proteolytic processing of a precursor protein for a growth-promoting peptide by a subtilisin serine protease in Arabidopsis. DOI: 10.1111/j.1365-313X.2008.03598.x ; PMID: 18643977
- Identification of novel proteins involved in plant cell-wall synthesis based on protein-protein interaction data. DOI: 10.1021/pr100249c ; PMID: 20687615
- Loss of GET pathway orthologs in Arabidopsis thaliana causes root hair growth defects and affects SNARE abundance. DOI: 10.1073/pnas.1619525114 ; PMID: 28096354
- Endoplasmic reticulum membrane receptors of the GET pathway are conserved throughout eukaryotes. DOI: 10.1073/pnas.2017636118 ; PMID: 33443185
- Structures of Get3d reveal a distinct architecture associated with the emergence of photosynthesis. DOI: 10.1016/j.jbc.2023.104752 ; PMID: 37100288
- A genome-wide transcriptome profiling reveals the early molecular events during callus initiation in Arabidopsis multiple organs. DOI: 10.1016/j.ygeno.2012.05.013 ; PMID: 22664253
- The Arabidopsis cyclophilin gene family. DOI: 10.1104/pp.103.022160 ; PMID: 15051864
- Immunophilins and parvulins. Superfamily of peptidyl prolyl isomerases in Arabidopsis. DOI: 10.1104/pp.103.031005 ; PMID: 15047905
- The Arabidopsis cyclophilin CYP18-1 facilitates PRP18 dephosphorylation and the splicing of introns retained under heat stress. DOI: 10.1093/plcell/koac084 ; PMID: 35262729
- Armadillo repeat-containing kinesins and a NIMA-related kinase are required for epidermal-cell morphogenesis in Arabidopsis. DOI: 10.1111/j.1365-313X.2007.03327.x ; PMID: 17971038
- A mutation in MRH2 kinesin enhances the root hair tip growth defect caused by constitutively activated ROP2 small GTPase in Arabidopsis. DOI: 10.1371/journal.pone.0001074 ; PMID: 17957256
- An ungrouped plant kinesin accumulates at the preprophase band in a cell cycle-dependent manner. DOI: 10.1002/cm.20508 ; PMID: 21387573
- Stable ARMADILLO REPEAT KINESIN 2 in light inhibits hypocotyl elongation and facilitates light-induced cortical microtubule reorientation in Arabidopsis. DOI: 10.1093/jxb/erac473 ; PMID: 36453983
- Genetic and molecular identification of genes required for female gametophyte development and function in Arabidopsis. DOI: 10.1242/dev.01595 ; PMID: 15634699
- The Arabidopsis cohesin protein SYN3 localizes to the nucleolus and is essential for gametogenesis. DOI: 10.1111/j.1365-313X.2007.03106.x ; PMID: 17488242
- Membrane association of the Arabidopsis ARF exchange factor GNOM involves interaction of conserved domains. DOI: 10.1105/tpc.107.056515 ; PMID: 18203920
- In silico comparison of transcript abundances during Arabidopsis thaliana and Glycine max resistance to Fusarium virguliforme. DOI: 10.1186/1471-2164-9-S2-S6 ; PMID: 18831797
- Delivery of endocytosed proteins to the cell-division plane requires change of pathway from recycling to secretion. DOI: 10.7554/eLife.02131 ; PMID: 24714496
- Nonselective Chemical Inhibition of Sec7 Domain-Containing ARF GTPase Exchange Factors. DOI: 10.1105/tpc.18.00145 ; PMID: 30018157
- The Inhibitor Endosidin 4 Targets SEC7 Domain-Type ARF GTPase Exchange Factors and Interferes with Subcellular Trafficking in Eukaryotes. DOI: 10.1105/tpc.18.00127 ; PMID: 30018156
- A single class of ARF GTPase activated by several pathway-specific ARF-GEFs regulates essential membrane traffic in Arabidopsis. DOI: 10.1371/journal.pgen.1007795 ; PMID: 30439956
- Involvement of BIG5 and BIG3 in BRI1 Trafficking Reveals Diverse Functions of BIG-subfamily ARF-GEFs in Plant Growth and Gravitropism. DOI: 10.3390/ijms20092339 ; PMID: 31083521
- Arabidopsis Flippases Cooperate with ARF GTPase Exchange Factors to Regulate the Trafficking and Polarity of PIN Auxin Transporters. DOI: 10.1105/tpc.19.00869 ; PMID: 32193204
- BIG3 and BIG5 Redundantly Mediate Vesicle Trafficking in Arabidopsis. DOI: 10.3390/biom11050732 ; PMID: 34069034
- DELAYED GREENING 409 encodes a dual-localized pentatricopeptide repeat protein required for chloroplast and mitochondrial development. DOI: 10.1093/plphys/kiad258 ; PMID: 37096684
- The Arabidopsis genome. An abundance of soluble N-ethylmaleimide-sensitive factor adaptor protein receptors. DOI: 10.1104/pp.124.4.1558 ; PMID: 11115874
- A new picture of cell wall protein dynamics in elongating cells of Arabidopsis thaliana: confirmed actors and newcomers. DOI: 10.1186/1471-2229-8-94 ; PMID: 18796151
- Structure of a Berberine Bridge Enzyme-Like Enzyme with an Active Site Specific to the Plant Family Brassicaceae. DOI: 10.1371/journal.pone.0156892 ; PMID: 27276217
- Four Arabidopsis berberine bridge enzyme-like proteins are specific oxidases that inactivate the elicitor-active oligogalacturonides. DOI: 10.1111/tpj.13852 ; PMID: 29396998
- An Arabidopsis berberine bridge enzyme-like protein specifically oxidizes cellulose oligomers and plays a role in immunity. DOI: 10.1111/tpj.14237 ; PMID: 30664296
- The biosynthesis of D-Galacturonate in plants. functional cloning and characterization of a membrane-anchored UDP-D-Glucuronate 4-epimerase from Arabidopsis. DOI: 10.1104/pp.104.043745 ; PMID: 15247385
- Integrative gene-metabolite network with implemented causality deciphers informational fluxes of sulphur stress response. DOI: 10.1093/jxb/eri179 ; PMID: 15911562
- SEC1A and SEC6 synergistically regulate pollen tube polar growth. DOI: 10.1111/jipb.13486 ; PMID: 36951316
- Conservation, diversification and expansion of C2H2 zinc finger proteins in the Arabidopsis thaliana genome. DOI: 10.1186/1471-2164-5-39 ; PMID: 15236668
- Analysis of a sugar response mutant of Arabidopsis identified a novel B3 domain protein that functions as an active transcriptional repressor. DOI: 10.1104/pp.104.057752 ; PMID: 15894743
- The zinc finger network of plants. DOI: 10.1007/s00018-007-7473-4 ; PMID: 18193167
- Integrated RNA-seq and sRNA-seq analysis identifies novel nitrate-responsive genes in Arabidopsis thaliana roots. DOI: 10.1186/1471-2164-14-701 ; PMID: 24119003
- AtMYB103 is a crucial regulator of several pathways affecting Arabidopsis anther development. DOI: 10.1007/s11427-010-4060-y ; PMID: 21104372
- Comparative transcriptome analysis reveals significant differences in gene expression and signalling pathways between developmental and dark/starvation-induced senescence in Arabidopsis. DOI: 10.1111/j.1365-313X.2005.02399.x ; PMID: 15860015
- Structure function analysis of novel type III polyketide synthases from Arabidopsis thaliana. DOI: 10.1248/bpb.31.2205 ; PMID: 19043200
- LAP5 and LAP6 encode anther-specific proteins with similarity to chalcone synthase essential for pollen exine development in Arabidopsis. DOI: 10.1104/pp.110.157446 ; PMID: 20442277
- LAP6/POLYKETIDE SYNTHASE A and LAP5/POLYKETIDE SYNTHASE B encode hydroxyalkyl α-pyrone synthases required for pollen development and sporopollenin biosynthesis in Arabidopsis thaliana. DOI: 10.1105/tpc.110.080028 ; PMID: 21193570
- Sporopollenin biosynthetic enzymes interact and constitute a metabolon localized to the endoplasmic reticulum of tapetum cells. DOI: 10.1104/pp.112.213124 ; PMID: 23632852
- Building Triketide α-Pyrone-Producing Yeast Platform Using Heterologous Expression of Sporopollenin Biosynthetic Genes. DOI: 10.4014/jmb.1506.06016 ; PMID: 26215269
- OsLAP6/OsPKS1, an orthologue of Arabidopsis PKSA/LAP6, is critical for proper pollen exine formation. DOI: 10.1186/s12284-017-0191-0 ; PMID: 29282604
- Kingdom-wide analysis of the evolution of the plant type III polyketide synthase superfamily. DOI: 10.1093/plphys/kiaa086 ; PMID: 33793871
- Evolution of microRNA genes by inverted duplication of target gene sequences in Arabidopsis thaliana. DOI: 10.1038/ng1478 ; PMID: 15565108
- SPL8, an SBP-box gene that affects pollen sac development in Arabidopsis. DOI: 10.1105/tpc.010678 ; PMID: 12671094
- Genomic and physiological studies of early cryptochrome 1 action demonstrate roles for auxin and gibberellin in the control of hypocotyl growth by blue light. DOI: 10.1046/j.1365-313x.2003.01870.x ; PMID: 14535885
- Floral gene resources from basal angiosperms for comparative genomics research. DOI: 10.1186/1471-2229-5-5 ; PMID: 15799777
- Functional dissection of the plant-specific SBP-domain: overlap of the DNA-binding and nuclear localization domains. DOI: 10.1016/j.jmb.2005.07.013 ; PMID: 16095614
- SPL8, a local regulator in a subset of gibberellin-mediated developmental processes in Arabidopsis. DOI: 10.1007/s11103-006-9099-6 ; PMID: 17093870
- miR156-targeted and nontargeted SBP-box transcription factors act in concert to secure male fertility in Arabidopsis. DOI: 10.1105/tpc.110.079343 ; PMID: 21177480
- SPL8 and miR156-targeted SPL genes redundantly regulate Arabidopsis gynoecium differential patterning. DOI: 10.1111/tpj.12221 ; PMID: 23621152
- Differential SPL gene expression patterns reveal candidate genes underlying flowering time and architectural differences in Mimulus and Arabidopsis. DOI: 10.1016/j.ympev.2014.01.029 ; PMID: 24508602
- SPL8 Acts Together with the Brassinosteroid-Signaling Component BIM1 in Controlling Arabidopsis thaliana Male Fertility. DOI: 10.3390/plants2030416 ; PMID: 27137384
- AtNAC2, a transcription factor downstream of ethylene and auxin signaling pathways, is involved in salt stress response and lateral root development. DOI: 10.1111/j.1365-313X.2005.02575.x ; PMID: 16359384
- Protein and metabolite composition of Arabidopsis stress granules. DOI: 10.1111/nph.15690 ; PMID: 30664249
- Identification of Arabidopsis CCR4-NOT Complexes with Pumilio RNA-Binding Proteins, APUM5 and APUM2. DOI: 10.1093/pcp/pcz089 ; PMID: 31093672
- AtNOT1 Is a Novel Regulator of Gene Expression during Pollen Development. DOI: 10.1093/pcp/pcz235 ; PMID: 31879778
- AtNOT1 is required for gametophyte development in Arabidopsis. DOI: 10.1111/tpj.14801 ; PMID: 32369648
- The CCR4-NOT complex component NOT1 regulates RNA-directed DNA methylation and transcriptional silencing by facilitating Pol IV-dependent siRNA production. DOI: 10.1111/tpj.14818 ; PMID: 32412137
Gene Resources
- UniProt: A0A654E5X2
- EMBL: CACRSJ010000104
- AlphaFoldDB: A0A654E5X2
- EnsemblPlants: AT1G01580.2
- Gramene: AT1G01580.2
- ExpressionAtlas: AT1G01580
- InterPro: IPR013112, IPR013121, IPR013130
- PANTHER: PTHR11972, PTHR11972:SF41
- SUPFAM: SSF52343, SSF63380
- PROSITE: PS51384
- Gene3D: 2.40.30.10, 3.40.50.80
- SWISS-MODEL: A0A654E5X2
- Conserved Domain Database: cd06186
Homologs
- Oryza sativa OsFRO1, OsrbohD;Osrboh5, OsrbohA;Osrboh2, OsrbohB;Osrboh7, OsRbohI, OsrbohE;Osrboh6, Osrboh9;OsRBOHH
- Triticum aestivum TaNOX10
Sequences
cDNA Sequence
- >AT1G01580.2
AAATATTGTTACCATAAATTCATAAACTTTCGTTAAACTTAAAGTGATTTATACACATAGTATATTCAAATATCGATAAATGTATTTTGCTAATCAAATCGTATATTCTTTTATACCAGTTTTTTAACGTCATCTCGCCAAAACAACAACAAATAGATGTAAAATAATGAAAGAAAACAAAAAACAAGATCCATGGGGAAGAGTCACATGCATGGAGCATGCAACTAGCTTACTTCATCCAATTCCCACTCAAAATTCTCTCTTTATATATACACTTTCTCTACCACTACTTCCCTCAAAACAAGCTAACTCGATCCTTCTCACTAAAGCGATCGTACCGATCTTAATATCTTTAGCGAGCGAGAGAGAGAGAGATAGAAATCCTGAGAGGAAAGAGAGGATGGAGATCGAAAAAAGCAATAACGGTGGTTCGAACCCATCTGCAGGAGAAGAATTTAAGGATATGATTAAGGGAGTGACTAAGTTCTTGATGATGGTGATTTTCCTTGGAACCATCATGCTTTGGATCATGATGCCAACACTAACCTATCGAACCAAGTGGTTGCCACATCTGCGTATCAAGTTTGGAACATCCACTTATTTTGGTGCCACAGGGACGACGCTTTTCATGTATATGTTCCCAATGATGGTCGTAGCTTGTTTGGGATGTGTCTATCTTCACTTCAAGAATCGAAAGTCGCCACACCATATCGATAGGGAGACGAAGGGAGGAGTGTGGAGTAAACTAAGAAAGCCAATGTTAGTGAAGGGGCCATTAGGAATAGTCTCAGTGACTGAGATCACCTTCTTGGCGATGTTTGTGGCTCTTCTTCTCTGGTGCTTTATCACTTATTTGCGCAATAGCTTCGCCACTATCACTCCTAAATCAGCTGCCGCACATGACGAATCTTTGTGGCAAGCGAAGCTGGAATCAGCGGCGCTAAGGTTAGGACTGATCGGAAACATATGTTTGGCGTTCTTGTTCTTACCGGTGGCTCGTGGGTCATCGTTGCTACCGGCAATGGGATTAACCTCGGAGTCAAGCATCAAATACCATATATGGCTCGGCCACATGGTCATGGCCCTTTTCACCGTTCATGGTCTTTGTTACATAATTTACTGGGCCTCAATGCATGAAATCTCCCAGATGATCATGTGGGATACGAAAGGTGTCTCAAATTTGGCCGGAGAGATAGCTCTGGCGGCCGGACTTGTGATGTGGGCCACCACATATCCGAAGATAAGGAGAAGATTCTTCGAAGTCTTCTTCTACACTCACTATCTCTACATCGTCTTCATGCTCTTCTTTGTCCTCCACGTCGGCATAAGTTTCTCCTTCATCGCTCTCCCTGGTTTCTACATCTTCTTAGTCGATCGTTTCCTTCGGTTTCTTCAGTCACGTGAAAATGTTCGCTTGCTCGCTGCTCGGATTCTTCCTTCCGACACTATGGAGCTCACTTTCTCCAAAAACTCTAAGTTGGTTTATAGCCCGACGAGCATAATGTTTGTGAACATACCGAGCATTTCAAAGCTGCAATGGCATCCGTTTACGATAACTTCCAGTAGCAAACTCGAACCAGAGAAGCTAAGTATTGTTATCAAGAAAGAAGGCAAATGGTCAACTAAGCTTCACCAGAGGCTTTCTTCTTCTGATCAGATCGACCGACTTGCTGTTTCTGTAGAAGGTCCTTACGGCCCTGCTTCCGCCGATTTCTTAAGGCATGAAGCTTTGGTTATGGTGTGCGGAGGAAGCGGGATAACTCCGTTTATCTCTGTTATTCGTGATTTGATCGCCACAAGCCAAAAGGAAACATGCAAAATCCCAAAAATAACTCTCATTTGTGCGTTTAAGAAGTCTTCAGAGATCTCCATGCTCGATCTTGTCTTGCCATTATCCGGTCTTGAGACTGAACTATCCTCCGACATTAACATCAAAATCGAAGCCTTCATAACCCGAGATAATGATGCAGGAGATGAAGCAAAAGCTGGGAAAATCAAAACTCTCTGGTTCAAACCAAGTCTTTCAGACCAATCCATCTCATCAATCCTCGGACCAAACTCATGGCTTTGGCTCGGTGCAATTCTCGCATCTTCGTTCTTGATCTTCATGATAATTATTGGTATCATCACTAGGTATTACATTTACCCGATCGACCACAACACCAACAAGATCTATTCTTTGACTTCAAAAACCATCATATATATCTTGGTCATCTCCGTGAGCATAATGGCGACTTGTAGTGCGGCTATGTTGTGGAACAAGAAGAAGTATGGTAAAGTTGAAAGTAAACAGGTCCAAAACGTCGACCGTCCATCTCCAACATCTTCTCCTACCTCATCATGGGGTTACAATTCCTTGAGAGAAATCGAAAGTACGCCACAAGAATCGCTCGTGCAACGCACCAATCTGCATTTTGGAGAAAGACCTAATCTCAAGAAACTTCTACTTGATGTGGAAGGTTCGAGTGTGGGAGTTCTTGTTTGTGGTCCTAAGAAGATGAGACAAAAGGTTGCGGAAATATGTTCCTCTGGTTTGGCTGAGAATCTTCATTTTGAATCTATCAGTTTCAGCTGGTGATTGCGTATATAACTCTGTTTTCACTATGTGTTGTGCAATTTGCTTGAGTTGCAAGTTAATAAGGTGGCCCTGTGATTTGACCTATCTTTGTGTGCTTTACATTGACTTTTCCTGTTTTTTGTTTTTCTTTATCCTCTTCTAGGAATATTCAGTGTTAAAAAAAAAACTTCCTTTCAAAAGTTCCGGAATATCCTTTTTTTGTTTGTAACACAAGGCATACAGCTTTTGTAAATTGTAAATGTTGAAATATAATACTCATGTTGGGTCATATA - >AT1G01580.1
AAATATTGTTACCATAAATTCATAAACTTTCGTTAAACTTAAAGTGATTTATACACATAGTATATTCAAATATCGATAAATGTATTTTGCTAATCAAATCGTATATTCTTTTATACCAGTTTTTTAACGTCATCTCGCCAAAACAACAACAAATAGATGTAAAATAATGAAAGAAAACAAAAAACAAGATCCATGGGGAAGAGTCACATGCATGGAGCATGCAACTAGCTTACTTCATCCAATTCCCACTCAAAATTCTCTCTTTATATATACACTTTCTCTACCACTACTTCCCTCAAAACAAGCTAACTCGATCCTTCTCACTAAAGCGATCGTACCGATCTTAATATCTTTAGCGAGCGAGAGAGAGAGAGATAGAAATCCTGAGAGGAAAGAGAGGATGGAGATCGAAAAAAGCAATAACGGTGGTTCGAACCCATCTGCAGGAGAAGAATTTAAGGATATGATTAAGGGAGTGACTAAGTTCTTGATGATGGTGATTTTCCTTGGAACCATCATGCTTTGGATCATGATGCCAACACTAACCTATCGAACCAAGTGGTTGCCACATCTGCGTATCAAGTTTGGAACATCCACTTATTTTGGTGCCACAGGGACGACGCTTTTCATGTATATGTTCCCAATGATGGTCGTAGCTTGTTTGGGATGTGTCTATCTTCACTTCAAGAATCGAAAGTCGCCACACCATATCGATAGGGAGACGAAGGGAGGAGTGTGGAGTAAACTAAGAAAGCCAATGTTAGTGAAGGGGCCATTAGGAATAGTCTCAGTGACTGAGATCACCTTCTTGGCGATGTTTGTGGCTCTTCTTCTCTGGTGCTTTATCACTTATTTGCGCAATAGCTTCGCCACTATCACTCCTAAATCAGCTGCCGCACATGACGAATCTTTGTGGCAAGCGAAGCTGGAATCAGCGGCGCTAAGGTTAGGACTGATCGGAAACATATGTTTGGCGTTCTTGTTCTTACCGGTGGCTCGTGGGTCATCGTTGCTACCGGCAATGGGATTAACCTCGGAGTCAAGCATCAAATACCATATATGGCTCGGCCACATGGTCATGGCCCTTTTCACCGTTCATGGTCTTTGTTACATAATTTACTGGGCCTCAATGCATGAAATCTCCCAGATGATCATGTGGGATACGAAAGGTGTCTCAAATTTGGCCGGAGAGATAGCTCTGGCGGCCGGACTTGTGATGTGGGCCACCACATATCCGAAGATAAGGAGAAGATTCTTCGAAGTCTTCTTCTACACTCACTATCTCTACATCGTCTTCATGCTCTTCTTTGTCCTCCACGTCGGCATAAGTTTCTCCTTCATCGCTCTCCCTGGTTTCTACATCTTCTTAGTCGATCGTTTCCTTCGGTTTCTTCAGTCACGTGAAAATGTTCGCTTGCTCGCTGCTCGGATTCTTCCTTCCGACACTATGGAGCTCACTTTCTCCAAAAACTCTAAGTTGGTTTATAGCCCGACGAGCATAATGTTTGTGAACATACCGAGCATTTCAAAGCTGCAATGGCATCCGTTTACGATAACTTCCAGTAGCAAACTCGAACCAGAGAAGCTAAGTATTGTTATCAAGAAAGAAGGCAAATGGTCAACTAAGCTTCACCAGAGGCTTTCTTCTTCTGATCAGATCGACCGACTTGCTGTTTCTGTAGAAGGTCCTTACGGCCCTGCTTCCGCCGATTTCTTAAGGCATGAAGCTTTGGTTATGGTGTGCGGAGGAAGCGGGATAACTCCGTTTATCTCTGTTATTCGTGATTTGATCGCCACAAGCCAAAAGGAAACATGCAAAATCCCAAAAATAACTCTCATTTGTGCGTTTAAGAAGTCTTCAGAGATCTCCATGCTCGATCTTGTCTTGCCATTATCCGGTCTTGAGACTGAACTATCCTCCGACATTAACATCAAAATCGAAGCCTTCATAACCCGAGATAATGATGCAGGAGATGAAGCAAAAGCTGGGAAAATCAAAACTCTCTGGTTCAAACCAAGTCTTTCAGACCAATCCATCTCATCAATCCTCGGACCAAACTCATGGCTTTGGCTCGGTGCAATTCTCGCATCTTCGTTCTTGATCTTCATGATAATTATTGGTATCATCACTAGGTATTACATTTACCCGATCGACCACAACACCAACAAGATCTATTCTTTGACTTCAAAAACCATCATATATATCTTGGTCATCTCCGTGAGCATAATGGCGACTTGTAGTGCGGCTATGTTGTGGAACAAGAAGAAGTATGGTAAAGTTGAAAGTAAACAGGTCCAAAACGTCGACCGTCCATCTCCAACATCTTCTCCTACCTCATCATGGGGTTACAATTCCTTGAGAGAAATCGAAAGTACGCCACAAGAATCGCTCGTGCAACGCACCAATCTGCATTTTGGAGAAAGACCTAATCTCAAGAAACTTCTACTTGATGTGGAAGGTTCGAGTGTGGGAGTTCTTGTTTGTGGTCCTAAGAAGATGAGACAAAAGGTTGCGGAAATATGTTCCTCTGGTTTGGCTGAGAATCTTCATTTTGAATCTATCAGTTTCAGCTGGTGATTGCGTATATAACTCTGTTTTCACTATGTGTTGTGCAATTTGCTTGAGTTGCAAGTTAATAAGGTGGCCCTGTGATTTGACCTATCTTTGTGTGCTTTACATTGACTTTTCCTGTTTTTTGTTTTTCTTTATCCTCTTCTAGGAATATTCAGTGTTAAAAAAAAAACTTCCTTTCAAAAGTTCCGGAATATCCTTTTTTTGTTTGTAACACAAGGCATACAGCTTTTGTAAATTGTAAATGTTGAAATATAATACTCATGTTGGGTCATATA
CDS Sequence
- >AT1G01580.2
ATGAAAGAAAACAAAAAACAAGATCCATGGGGAAGAGTCACATGCATGGAGCATGCAACTAGCTTACTTCATCCAATTCCCACTCAAAATTCTCTCTTTATATATACACTTTCTCTACCACTACTTCCCTCAAAACAAGCTAACTCGATCCTTCTCACTAAAGCGATCGTACCGATCTTAATATCTTTAGCGAGCGAGAGAGAGAGAGATAGAAATCCTGAGAGGAAAGAGAGGATGGAGATCGAAAAAAGCAATAACGGTGGTTCGAACCCATCTGCAGGAGAAGAATTTAAGGATATGATTAAGGGAGTGACTAAGTTCTTGATGATGGTGATTTTCCTTGGAACCATCATGCTTTGGATCATGATGCCAACACTAACCTATCGAACCAAGTGGTTGCCACATCTGCGTATCAAGTTTGGAACATCCACTTATTTTGGTGCCACAGGGACGACGCTTTTCATGTATATGTTCCCAATGATGGTCGTAGCTTGTTTGGGATGTGTCTATCTTCACTTCAAGAATCGAAAGTCGCCACACCATATCGATAGGGAGACGAAGGGAGGAGTGTGGAGTAAACTAAGAAAGCCAATGTTAGTGAAGGGGCCATTAGGAATAGTCTCAGTGACTGAGATCACCTTCTTGGCGATGTTTGTGGCTCTTCTTCTCTGGTGCTTTATCACTTATTTGCGCAATAGCTTCGCCACTATCACTCCTAAATCAGCTGCCGCACATGACGAATCTTTGTGGCAAGCGAAGCTGGAATCAGCGGCGCTAAGGTTAGGACTGATCGGAAACATATGTTTGGCGTTCTTGTTCTTACCGGTGGCTCGTGGGTCATCGTTGCTACCGGCAATGGGATTAACCTCGGAGTCAAGCATCAAATACCATATATGGCTCGGCCACATGGTCATGGCCCTTTTCACCGTTCATGGTCTTTGTTACATAATTTACTGGGCCTCAATGCATGAAATCTCCCAGATGATCATGTGGGATACGAAAGGTGTCTCAAATTTGGCCGGAGAGATAGCTCTGGCGGCCGGACTTGTGATGTGGGCCACCACATATCCGAAGATAAGGAGAAGATTCTTCGAAGTCTTCTTCTACACTCACTATCTCTACATCGTCTTCATGCTCTTCTTTGTCCTCCACGTCGGCATAAGTTTCTCCTTCATCGCTCTCCCTGGTTTCTACATCTTCTTAGTCGATCGTTTCCTTCGGTTTCTTCAGTCACGTGAAAATGTTCGCTTGCTCGCTGCTCGGATTCTTCCTTCCGACACTATGGAGCTCACTTTCTCCAAAAACTCTAAGTTGGTTTATAGCCCGACGAGCATAATGTTTGTGAACATACCGAGCATTTCAAAGCTGCAATGGCATCCGTTTACGATAACTTCCAGTAGCAAACTCGAACCAGAGAAGCTAAGTATTGTTATCAAGAAAGAAGGCAAATGGTCAACTAAGCTTCACCAGAGGCTTTCTTCTTCTGATCAGATCGACCGACTTGCTGTTTCTGTAGAAGGTCCTTACGGCCCTGCTTCCGCCGATTTCTTAAGGCATGAAGCTTTGGTTATGGTGTGCGGAGGAAGCGGGATAACTCCGTTTATCTCTGTTATTCGTGATTTGATCGCCACAAGCCAAAAGGAAACATGCAAAATCCCAAAAATAACTCTCATTTGTGCGTTTAAGAAGTCTTCAGAGATCTCCATGCTCGATCTTGTCTTGCCATTATCCGGTCTTGAGACTGAACTATCCTCCGACATTAACATCAAAATCGAAGCCTTCATAACCCGAGATAATGATGCAGGAGATGAAGCAAAAGCTGGGAAAATCAAAACTCTCTGGTTCAAACCAAGTCTTTCAGACCAATCCATCTCATCAATCCTCGGACCAAACTCATGGCTTTGGCTCGGTGCAATTCTCGCATCTTCGTTCTTGATCTTCATGATAATTATTGGTATCATCACTAGGTATTACATTTACCCGATCGACCACAACACCAACAAGATCTATTCTTTGACTTCAAAAACCATCATATATATCTTGGTCATCTCCGTGAGCATAATGGCGACTTGTAGTGCGGCTATGTTGTGGAACAAGAAGAAGTATGGTAAAGTTGAAAGTAAACAGGTCCAAAACGTCGACCGTCCATCTCCAACATCTTCTCCTACCTCATCATGGGGTTACAATTCCTTGAGAGAAATCGAAAGTACGCCACAAGAATCGCTCGTGCAACGCACCAATCTGCATTTTGGAGAAAGACCTAATCTCAAGAAACTTCTACTTGATGTGGAAGGTTCGAGTGTGGGAGTTCTTGTTTGTGGTCCTAAGAAGATGAGACAAAAGGTTGCGGAAATATGTTCCTCTGGTTTGGCTGAGAATCTTCATTTTGAATCTATCAGTTTCAGCTGGTGA - >AT1G01580.1
ATGAAAGAAAACAAAAAACAAGATCCATGGGGAAGAGTCACATGCATGGAGCATGCAACTAGCTTACTTCATCCAATTCCCACTCAAAATTCTCTCTTTATATATACACTTTCTCTACCACTACTTCCCTCAAAACAAGCTAACTCGATCCTTCTCACTAAAGCGATCGTACCGATCTTAATATCTTTAGCGAGCGAGAGAGAGAGAGATAGAAATCCTGAGAGGAAAGAGAGGATGGAGATCGAAAAAAGCAATAACGGTGGTTCGAACCCATCTGCAGGAGAAGAATTTAAGGATATGATTAAGGGAGTGACTAAGTTCTTGATGATGGTGATTTTCCTTGGAACCATCATGCTTTGGATCATGATGCCAACACTAACCTATCGAACCAAGTGGTTGCCACATCTGCGTATCAAGTTTGGAACATCCACTTATTTTGGTGCCACAGGGACGACGCTTTTCATGTATATGTTCCCAATGATGGTCGTAGCTTGTTTGGGATGTGTCTATCTTCACTTCAAGAATCGAAAGTCGCCACACCATATCGATAGGGAGACGAAGGGAGGAGTGTGGAGTAAACTAAGAAAGCCAATGTTAGTGAAGGGGCCATTAGGAATAGTCTCAGTGACTGAGATCACCTTCTTGGCGATGTTTGTGGCTCTTCTTCTCTGGTGCTTTATCACTTATTTGCGCAATAGCTTCGCCACTATCACTCCTAAATCAGCTGCCGCACATGACGAATCTTTGTGGCAAGCGAAGCTGGAATCAGCGGCGCTAAGGTTAGGACTGATCGGAAACATATGTTTGGCGTTCTTGTTCTTACCGGTGGCTCGTGGGTCATCGTTGCTACCGGCAATGGGATTAACCTCGGAGTCAAGCATCAAATACCATATATGGCTCGGCCACATGGTCATGGCCCTTTTCACCGTTCATGGTCTTTGTTACATAATTTACTGGGCCTCAATGCATGAAATCTCCCAGATGATCATGTGGGATACGAAAGGTGTCTCAAATTTGGCCGGAGAGATAGCTCTGGCGGCCGGACTTGTGATGTGGGCCACCACATATCCGAAGATAAGGAGAAGATTCTTCGAAGTCTTCTTCTACACTCACTATCTCTACATCGTCTTCATGCTCTTCTTTGTCCTCCACGTCGGCATAAGTTTCTCCTTCATCGCTCTCCCTGGTTTCTACATCTTCTTAGTCGATCGTTTCCTTCGGTTTCTTCAGTCACGTGAAAATGTTCGCTTGCTCGCTGCTCGGATTCTTCCTTCCGACACTATGGAGCTCACTTTCTCCAAAAACTCTAAGTTGGTTTATAGCCCGACGAGCATAATGTTTGTGAACATACCGAGCATTTCAAAGCTGCAATGGCATCCGTTTACGATAACTTCCAGTAGCAAACTCGAACCAGAGAAGCTAAGTATTGTTATCAAGAAAGAAGGCAAATGGTCAACTAAGCTTCACCAGAGGCTTTCTTCTTCTGATCAGATCGACCGACTTGCTGTTTCTGTAGAAGGTCCTTACGGCCCTGCTTCCGCCGATTTCTTAAGGCATGAAGCTTTGGTTATGGTGTGCGGAGGAAGCGGGATAACTCCGTTTATCTCTGTTATTCGTGATTTGATCGCCACAAGCCAAAAGGAAACATGCAAAATCCCAAAAATAACTCTCATTTGTGCGTTTAAGAAGTCTTCAGAGATCTCCATGCTCGATCTTGTCTTGCCATTATCCGGTCTTGAGACTGAACTATCCTCCGACATTAACATCAAAATCGAAGCCTTCATAACCCGAGATAATGATGCAGGAGATGAAGCAAAAGCTGGGAAAATCAAAACTCTCTGGTTCAAACCAAGTCTTTCAGACCAATCCATCTCATCAATCCTCGGACCAAACTCATGGCTTTGGCTCGGTGCAATTCTCGCATCTTCGTTCTTGATCTTCATGATAATTATTGGTATCATCACTAGGTATTACATTTACCCGATCGACCACAACACCAACAAGATCTATTCTTTGACTTCAAAAACCATCATATATATCTTGGTCATCTCCGTGAGCATAATGGCGACTTGTAGTGCGGCTATGTTGTGGAACAAGAAGAAGTATGGTAAAGTTGAAAGTAAACAGGTCCAAAACGTCGACCGTCCATCTCCAACATCTTCTCCTACCTCATCATGGGGTTACAATTCCTTGAGAGAAATCGAAAGTACGCCACAAGAATCGCTCGTGCAACGCACCAATCTGCATTTTGGAGAAAGACCTAATCTCAAGAAACTTCTACTTGATGTGGAAGGTTCGAGTGTGGGAGTTCTTGTTTGTGGTCCTAAGAAGATGAGACAAAAGGTTGCGGAAATATGTTCCTCTGGTTTGGCTGAGAATCTTCATTTTGAATCTATCAGTTTCAGCTGGTGA
Protein Sequence
- >AT1G01580.2
MKENKKQDPWGRVTCMEHATSLLHPIPTQNSLFIYTLSLPLLPSKQANSILLTKAIVPILISLASERERDRNPERKERMEIEKSNNGGSNPSAGEEFKDMIKGVTKFLMMVIFLGTIMLWIMMPTLTYRTKWLPHLRIKFGTSTYFGATGTTLFMYMFPMMVVACLGCVYLHFKNRKSPHHIDRETKGGVWSKLRKPMLVKGPLGIVSVTEITFLAMFVALLLWCFITYLRNSFATITPKSAAAHDESLWQAKLESAALRLGLIGNICLAFLFLPVARGSSLLPAMGLTSESSIKYHIWLGHMVMALFTVHGLCYIIYWASMHEISQMIMWDTKGVSNLAGEIALAAGLVMWATTYPKIRRRFFEVFFYTHYLYIVFMLFFVLHVGISFSFIALPGFYIFLVDRFLRFLQSRENVRLLAARILPSDTMELTFSKNSKLVYSPTSIMFVNIPSISKLQWHPFTITSSSKLEPEKLSIVIKKEGKWSTKLHQRLSSSDQIDRLAVSVEGPYGPASADFLRHEALVMVCGGSGITPFISVIRDLIATSQKETCKIPKITLICAFKKSSEISMLDLVLPLSGLETELSSDINIKIEAFITRDNDAGDEAKAGKIKTLWFKPSLSDQSISSILGPNSWLWLGAILASSFLIFMIIIGIITRYYIYPIDHNTNKIYSLTSKTIIYILVISVSIMATCSAAMLWNKKKYGKVESKQVQNVDRPSPTSSPTSSWGYNSLREIESTPQESLVQRTNLHFGERPNLKKLLLDVEGSSVGVLVCGPKKMRQKVAEICSSGLAENLHFESISFSW - >AT1G01580.1
MKENKKQDPWGRVTCMEHATSLLHPIPTQNSLFIYTLSLPLLPSKQANSILLTKAIVPILISLASERERDRNPERKERMEIEKSNNGGSNPSAGEEFKDMIKGVTKFLMMVIFLGTIMLWIMMPTLTYRTKWLPHLRIKFGTSTYFGATGTTLFMYMFPMMVVACLGCVYLHFKNRKSPHHIDRETKGGVWSKLRKPMLVKGPLGIVSVTEITFLAMFVALLLWCFITYLRNSFATITPKSAAAHDESLWQAKLESAALRLGLIGNICLAFLFLPVARGSSLLPAMGLTSESSIKYHIWLGHMVMALFTVHGLCYIIYWASMHEISQMIMWDTKGVSNLAGEIALAAGLVMWATTYPKIRRRFFEVFFYTHYLYIVFMLFFVLHVGISFSFIALPGFYIFLVDRFLRFLQSRENVRLLAARILPSDTMELTFSKNSKLVYSPTSIMFVNIPSISKLQWHPFTITSSSKLEPEKLSIVIKKEGKWSTKLHQRLSSSDQIDRLAVSVEGPYGPASADFLRHEALVMVCGGSGITPFISVIRDLIATSQKETCKIPKITLICAFKKSSEISMLDLVLPLSGLETELSSDINIKIEAFITRDNDAGDEAKAGKIKTLWFKPSLSDQSISSILGPNSWLWLGAILASSFLIFMIIIGIITRYYIYPIDHNTNKIYSLTSKTIIYILVISVSIMATCSAAMLWNKKKYGKVESKQVQNVDRPSPTSSPTSSWGYNSLREIESTPQESLVQRTNLHFGERPNLKKLLLDVEGSSVGVLVCGPKKMRQKVAEICSSGLAENLHFESISFSW