Gene Details:
- Gene ID: AT4G21750
- Gene Symbol: ATML1
- Gene Name: MERISTEM LAYER 1
- Description: Homeobox-leucine zipper family protein / lipid-binding START domain-containing protein;(source:Araport11)
- TAIR Accession: locus:2119048
- Genome: Araport11_genome_release
- Species: Arabidopsis thaliana
Transcripts:
Plant Ontology Annotations:
- PO:0005679 — plant epidermis — dermal tissue (exact), epidermal layer (exact), epidermides (exact, plural), epidermis (Spanish, exact), epidermises (exact, plural), portion of epidermal tissue (exact), 表皮 (Japanese, exact), multiseriate epidermis (related)
- PO:0009009 — plant embryo — embrión (Spanish, exact), 植物胚 (Japanese, exact), germ (related), embryo (broad)
- PO:0020148 — shoot apical meristem — SAM (exact), meristema apical del epiblasto (epiblastema) (Spanish, exact), 茎頂分裂組織 (Japanese, exact), primary shoot meristem (related), promeristem (broad)
- PO:0009005 — root — raíz (Spanish, exact), radices (exact, plural), radix (exact), 根 (Japanese, exact), aerial root (narrow), climbing root (narrow)
- PO:0002002 — embryo basal cell — célula basal (Spanish, exact), embryonic basal cell (exact), 胚基底細胞 (Japanese, exact)
- PO:0020108 — suspensor — suspensor (Spanish, exact), 胚柄 (Japanese, exact)
Gene Ontology:
- GO:0005515 — enables — protein binding
- GO:0006355 — acts upstream of or within — regulation of DNA-templated transcription
- GO:2000033 — involved in — regulation of seed dormancy process
- GO:0048825 — acts upstream of or within — cotyledon development
- GO:0009845 — acts upstream of or within — seed germination
- GO:0043565 — enables — sequence-specific DNA binding
- GO:0010029 — involved in — regulation of seed germination
- GO:0090627 — acts upstream of or within — plant epidermal cell differentiation
- GO:0005634 — located in — nucleus
- GO:0000981 — enables — DNA-binding transcription factor activity, RNA polymerase II-specific
- GO:0003700 — enables — DNA-binding transcription factor activity
- GO:0003677 — enables — DNA binding
- GO:0008289 — enables — lipid binding
- GO:0030154 — acts upstream of positive effect — cell differentiation
Function-related keywords:
Literature:
- Identification of a meristem L1 layer-specific gene in Arabidopsis that is expressed during embryonic pattern formation and defines a new class of homeobox genes. DOI: 10.1105/tpc.8.12.2155 ; PMID: 8989876
- Arabidopsis transcription factors: genome-wide comparative analysis among eukaryotes. DOI: 10.1126/science.290.5499.2105 ; PMID: 11118137
- Identification of a cis-regulatory element for L1 layer-specific gene expression, which is targeted by an L1-specific homeodomain protein. DOI: 10.1046/j.1365-313x.2001.01047.x ; PMID: 11439135
- Regulation of shoot epidermal cell differentiation by a pair of homeodomain proteins in Arabidopsis. DOI: 10.1242/dev.00292 ; PMID: 12505995
- AtDEK1 is essential for specification of embryonic epidermal cell fate. DOI: 10.1111/j.1365-313X.2005.02514.x ; PMID: 16167900
- Characterization of the class IV homeodomain-Leucine Zipper gene family in Arabidopsis. DOI: 10.1104/pp.106.077388 ; PMID: 16778018
- Autonomy of cell proliferation and developmental programs during Arabidopsis aboveground organ morphogenesis. DOI: 10.1016/j.ydbio.2006.12.049 ; PMID: 17258192
- Novel receptor-like kinase ALE2 controls shoot development by specifying epidermis in Arabidopsis. DOI: 10.1242/dev.003533 ; PMID: 17376810
- Pattern formation during de novo assembly of the Arabidopsis shoot meristem. DOI: 10.1242/dev.010298 ; PMID: 17827180
- 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
- GLK transcription factors regulate chloroplast development in a cell-autonomous manner. DOI: 10.1111/j.1365-313X.2008.03616.x ; PMID: 18643989
- Cell cycle regulates cell type in the Arabidopsis sepal. DOI: 10.1242/dev.082925 ; PMID: 23095885
- Arabidopsis homeodomain-leucine zipper IV proteins promote stomatal development and ectopically induce stomata beyond the epidermis. DOI: 10.1242/dev.090209 ; PMID: 23515473
- Mutations in epidermis-specific HD-ZIP IV genes affect floral organ identity in Arabidopsis thaliana. DOI: 10.1111/tpj.12211 ; PMID: 23590515
- Arabidopsis DELLA and two HD-ZIP transcription factors regulate GA signaling in the epidermis through the L1 box cis-element. DOI: 10.1105/tpc.114.127647 ; PMID: 24989044
- Calpain-Mediated Positional Information Directs Cell Wall Orientation to Sustain Plant Stem Cell Activity, Growth and Development. DOI: 10.1093/pcp/pcv110 ; PMID: 26220906
- The AP2-type transcription factors DORNRÖSCHEN and DORNRÖSCHEN-LIKE promote G1/S transition. DOI: 10.1007/s00438-016-1224-x ; PMID: 27277595
- Quantitative and dynamic cell polarity tracking in plant cells. DOI: 10.1111/nph.17165 ; PMID: 33378550
- Tuning self-renewal in the Arabidopsis stomatal lineage by hormone and nutrient regulation of asymmetric cell division. DOI: 10.7554/eLife.63335 ; PMID: 33739283
- The Cytokinin Status of the Epidermis Regulates Aspects of Vegetative and Reproductive Development in Arabidopsis thaliana. DOI: 10.3389/fpls.2021.613488 ; PMID: 33732273
- Characterization of promoter elements of isoprene-responsive genes and the ability of isoprene to bind START domain transcription factors. DOI: 10.1002/pld3.483 ; PMID: 36742092
- Identification of a meristem L1 layer-specific gene in Arabidopsis that is expressed during embryonic pattern formation and defines a new class of homeobox genes. DOI: 10.1105/tpc.8.12.2155 ; PMID: 8989876
- Arabidopsis transcription factors: genome-wide comparative analysis among eukaryotes. DOI: 10.1126/science.290.5499.2105 ; PMID: 11118137
- Expression pattern shifts following duplication indicative of subfunctionalization and neofunctionalization in regulatory genes of Arabidopsis. DOI: 10.1093/molbev/msj051 ; PMID: 16280546
- Expression pattern shifts following duplication indicative of subfunctionalization and neofunctionalization in regulatory genes of Arabidopsis. DOI: 10.1093/molbev/msj051 ; PMID: 16280546
Sequences:
cDNA Sequence
- >AT4G21750.4
AGGGTTTCATTGTGTGCACAAAACGTTACAAAGAAGAAGAAAAACCTTTTTGGAGTTAGAAGTGTAAAAGGGGTTTCAGTTTGACGAATTTTCCTTAGTAGTTGTGTAAAAAAAGGCCATTGACTTAATGTCAACTCTATATATCTACACATTTTTTTATTAATTAGTTTTTGTTTTTTTCCCACTTCATTTACCTTTAGTCAATGAATTTTTACTGAAAACGTTTTTTCAAGGTCAATTTCACTGAGTTAAAAAAAAAAGTTTTATTTTTAACCAAAAATTACGTTTTTTCCTAGGCTTCGGTAACCTGTGAATTCCTCTATCTCACTAGCTTTTATGTAGAAGAGAGAGAAGGCAACATTAAATTCGATCTAAAACTTCAAGAAACCAAAACAACACTTCAAAAAAAAAAAGAGATCTGTTCTATAGAGTTTTAATCTTTTCTTTCGACTCGAGTTTGGCTCAACAAAGTTTATATCGATTTGGCACTCTAAAATTGGGATATACAGGCAGAAGAAAATCGAGATAAATCAACTAAATGATTTGGATAATCATCTTGAAGATTTGAAGGAAAATCCAAGAGCTTCAAAAACTCCAAAAATTGATAGGCATCCATCATCATCATGTATCATCCAAACATGTTCGAATCTCATCATCATATGTTCGATATGACGCCGAAAAACTCCGAAAACGATTTGGGTATCACCGGGAGCCACGAAGAGGATTTCGAGACTAAGTCCGGCGCAGAAGTCACCATGGAGAATCCTTTAGAAGAAGAGCTTCAAGATCCTAATCAGCGTCCCAACAAAAAGAAGCGTTACCACCGTCACACACAACGCCAGATTCAAGAGCTAGAGTCGTTCTTCAAGGAATGTCCTCATCCAGACGATAAGCAAAGAAAGGAGCTGAGTCGCGAGCTAAGCTTAGAACCTCTTCAAGTCAAGTTTTGGTTCCAAAACAAACGCACTCAAATGAAGGCACAACATGAGAGGCACGAGAACCAGATACTGAAGTCAGAAAATGACAAGCTCCGAGCAGAGAACAATAGGTACAAGGATGCTCTAAGCAACGCAACATGCCCAAACTGTGGTGGTCCGGCAGCTATAGGAGAAATGTCCTTCGACGAACAGCATTTAAGGATCGAAAATGCTCGTTTACGCGAAGAGATTGACAGAATCTCTGCCATAGCTGCTAAATACGTAGGGAAGCCTTTAATGGCTAATTCCTCTTCTTTCCCTCAGCTCTCTTCTTCACACCACATTCCCTCGCGCTCGCTTGATCTTGAAGTTGGGAACTTTGGGAACAATAACAATAGCCACACTGGTTTCGTTGGGGAAATGTTTGGAAGCAGCGACATTTTGAGGTCGGTTTCGATACCTTCTGAGGCTGATAAGCCTATGATTGTTGAGTTAGCTGTTGCAGCAATGGAAGAGCTTGTGAGAATGGCTCAAACTGGTGATCCCTTATGGGTTTCAAGCGATAATTCTGTTGAGATTCTCAATGAAGAAGAGTATTTTAGGACGTTTCCTAGAGGAATTGGACCGAAACCTATCGGTTTGAGATCAGAAGCTTCAAGAGAGTCTACTGTTGTTATCATGAATCATATCAATCTCATTGAGATTCTAATGGATGTGAATCAATGGTCTAGTGTGTTCTGCGGGATTGTATCAAGAGCATTGACTCTAGAAGTTCTCTCAACTGGCGTAGCAGGGAACTACAATGGGGCATTGCAAGTGATGACAGCAGAGTTCCAAGTCCCATCGCCGCTTGTCCCTACTCGTGAGAACTACTTTGTAAGGTACTGTAAACAGCACAGTGACGGTATTTGGGCGGTTGTGGATGTCTCTTTGGACAGCCTAAGACCAAGTCCGATCACTAGAAGCAGAAGAAGACCCTCTGGTTGTCTGATTCAAGAATTGCAGAATGGTTACTCCAAGGTGACATGGGTAGAGCATATTGAGGTGGATGATAGATCGGTTCACAACATGTATAAACCGTTGGTTAATACCGGTTTAGCTTTCGGTGCAAAACGTTGGGTGGCTACACTTGACCGCCAATGTGAGCGGCTCGCCAGTTCCATGGCCAGCAACATTCCGGCTTGTGATCTTTCCGTGATAACGAGTCCTGAGGGGAGAAAGAGCATGCTGAAACTAGCGGAGAGAATGGTGATGAGCTTCTGTACCGGAGTCGGCGCGTCAACTGCGCATGCCTGGACTACATTGTCGACCACAGGATCCGACGACGTTCGGGTCATGACCCGAAAGAGCATGGATGATCCGGGAAGACCTCCAGGCATCGTTCTCAGCGCCGCTACTTCTTTCTGGATCCCTGTAGCTCCAAAACGAGTGTTCGATTTTCTCAGAGATGAAAACTCAAGAAGCGAGTGGGATATACTTTCCAATGGAGGCTTGGTTCAAGAAATGGCTCATATCGCAAATGGTCGTGATCCTGGGAATAGTGTCTCCTTGCTTCGAGTCAATAGTGGGAACTCAGGGCAGAGCAACATGTTGATCTTACAAGAAAGTTGTACGGACGCATCAGGGTCCTATGTGATATACGCACCAGTTGATATAATAGCTATGAACGTTGTCCTGAGTGGTGGTGATCCGGATTATGTCGCTTTGTTACCATCCGGATTCGCTATTTTGCCGGATGGCTCTGCTAGAGGAGGAGGAGGTAGTGCTAATGCCAGTGCTGGAGCCGGAGTTGAAGGAGGAGGAGAGGGGAATAATCTTGAAGTGGTTACTACTACTGGGAGTTGTGGCGGTTCACTACTCACAGTTGCGTTTCAGATACTTGTTGACTCTGTTCCTACCGCTAAACTCTCTCTCGGTTCAGTTGCTACAGTCAATAGTCTGATCAAATGCACTGTCGAGCGGATTAAAGCCGCTCTGGCCTGCGACGGAGCCTAATCGATGTTTTCGGAAGGTAAGAGTGAAAGGGGAGGTTTAGGGAGTTTATGATAATGTTTGTGGTCTTTTGTTTTTTTAAGTCTTTTGAGATTCTCCAAAGGAAGTCAAGAACGCACCTTTTTGCGTTTAATCTCATTTCCGCGTTTGTTAGCGGCGGGCCGAAAAAAAGAGGCTTGAGAAAGAAAAGGTAAAGAGGTTCGGGTATTGACTTCTGCTGGAACCAAAAAAAAAAGAATCGGGTTTGTTGTGTTTCGGCGGTTTAGCGTTTTGCGTTTTCTTTGTTATTATTTATCATTGACTAGTGAACAGTTTAGCGTTCTGCTTTTCGCGTCTACTGTGAAACTCCTTGTTATTAAGCCACTCTAGTGGTACTGTCATTATATATTATGAATCTATGAAACTGTGTTTATT - >AT4G21750.3
AGGGTTTCATTGTGTGCACAAAACGTTACAAAGAAGAAGAAAAACCTTTTTGGAGTTAGAAGTGTAAAAGGGGTTTCAGTTTGACGAATTTTCCTTAGTAGTTGTGTAAAAAAAGGCCATTGACTTAATGTCAACTCTATATATCTACACATTTTTTTATTAATTAGTTTTTGTTTTTTTCCCACTTCATTTACCTTTAGTCAATGAATTTTTACTGAAAACGTTTTTTCAAGGTCAATTTCACTGAGTTAAAAAAAAAAGTTTTATTTTTAACCAAAAATTACGTTTTTTCCTAGGCTTCGGTAACCTGTGAATTCCTCTATCTCACTAGCTTTTATGTAGAAGAGAGAGAAGGCAACATTAAATTCGATCTAAAACTTCAAGAAACCAAAACAACACTTCAAAAAAAAAAAGAGATCTGTTCTATAGAGTTTTAATCTTTTCTTTCGACTCGAGTTTGGCTCAACAAAGTTTATATCGATTTGGCACTCTAAAATTGGGATATACAGGCAGAAGAAAATCGAGATAAATCAACTAAATGATTTGGATAATCATCTTGAAGATTTGAAGGAAAATCCAAGAGCTTCAAAAACTCCAAAAATTGATAGGCATCCATCATCATCATGTATCATCCAAACATGTTCGAATCTCATCATCATATGTTCGATATGACGCCGAAAAACTCCGAAAACGATTTGGGTATCACCGGGAGCCACGAAGAGGATTTCGAGACTAAGTCCGGCGCAGAAGTCACCATGGAGAATCCTTTAGAAGAAGAGCTTCAAGATCCTAATCAGCGTCCCAACAAAAAGAAGCGTTACCACCGTCACACACAACGCCAGATTCAAGAGCTAGAGTCGTTCTTCAAGGAATGTCCTCATCCAGACGATAAGCAAAGAAAGGAGCTGAGTCGCGAGCTAAGCTTAGAACCTCTTCAAGTCAAGTTTTGGTTCCAAAACAAACGCACTCAAATGAAGGCACAACATGAGAGGCACGAGAACCAGATACTGAAGTCAGAAAATGACAAGCTCCGAGCAGAGAACAATAGGTACAAGGATGCTCTAAGCAACGCAACATGCCCAAACTGTGGTGGTCCGGCAGCTATAGGAGAAATGTCCTTCGACGAACAGCATTTAAGGATCGAAAATGCTCGTTTACGCGAAGAGATTGACAGAATCTCTGCCATAGCTGCTAAATACGTAGGGAAGCCTTTAATGGCTAATTCCTCTTCTTTCCCTCAGCTCTCTTCTTCACACCACATTCCCTCGCGCTCGCTTGATCTTGAAGTTGGGAACTTTGGGAACAATAACAATAGCCACACTGGTTTCGTTGGGGAAATGTTTGGAAGCAGCGACATTTTGAGGTCGGTTTCGATACCTTCTGAGGCTGATAAGCCTATGATTGTTGAGTTAGCTGTTGCAGCAATGGAAGAGCTTGTGAGAATGGCTCAAACTGGTGATCCCTTATGGGTTTCAAGCGATAATTCTGTTGAGATTCTCAATGAAGAAGAGTATTTTAGGACGTTTCCTAGAGGAATTGGACCGAAACCTATCGGTTTGAGATCAGAAGCTTCAAGAGAGTCTACTGTTGTTATCATGAATCATATCAATCTCATTGAGATTCTAATGGATGTGAATCAATGGTCTAGTGTGTTCTGCGGGATTGTATCAAGAGCATTGACTCTAGAAGTTCTCTCAACTGGCGTAGCAGGGAACTACAATGGGGCATTGCAAGTGATGACAGCAGAGTTCCAAGTCCCATCGCCGCTTGTCCCTACTCGTGAGAACTACTTTGTAAGGTACTGTAAACAGCACAGTGACGGTATTTGGGCGGTTGTGGATGTCTCTTTGGACAGCCTAAGACCAAGTCCGATCACTAGAAGCAGAAGAAGACCCTCTGGTTGTCTGATTCAAGAATTGCAGAATGGTTACTCCAAGGTGACATGGGTAGAGCATATTGAGGTGGATGATAGATCGGTTCACAACATGTATAAACCGTTGGTTAATACCGGTTTAGCTTTCGGTGCAAAACGTTGGGTGGCTACACTTGACCGCCAATGTGAGCGGCTCGCCAGTTCCATGGCCAGCAACATTCCGGCTTGTGATCTTTCCGTGATAACGAGTCCTGAGGGGAGAAAGAGCATGCTGAAACTAGCGGAGAGAATGGTGATGAGCTTCTGTACCGGAGTCGGCGCGTCAACTGCGCATGCCTGGACTACATTGTCGACCACAGGATCCGACGACGTTCGGGTCATGACCCGAAAGAGCATGGATGATCCGGGAAGACCTCCAGGCATCGTTCTCAGCGCCGCTACTTCTTTCTGGATCCCTGTAGCTCCAAAACGAGTGTTCGATTTTCTCAGAGATGAAAACTCAAGAAGCGAGTGGGATATACTTTCCAATGGAGGCTTGGTTCAAGAAATGGCTCATATCGCAAATGGTCGTGATCCTGGGAATAGTGTCTCCTTGCTTCGAGTCAATAGTGGGAACTCAGGGCAGAGCAACATGTTGATCTTACAAGAAAGTTGTACGGACGCATCAGGGTCCTATGTGATATACGCACCAGTTGATATAATAGCTATGAACGTTGTCCTGAGTGGTGGTGATCCGGATTATGTCGCTTTGTTACCATCCGGATTCGCTATTTTGCCGGATGGCTCTGCTAGAGGAGGAGGAGGTAGTGCTAATGCCAGTGCTGGAGCCGGAGTTGAAGGAGGAGGAGAGGGGAATAATCTTGAAGTGGTTACTACTACTGGGAGTTGTGGCGGTTCACTACTCACAGTTGCGTTTCAGATACTTGTTGACTCTGTTCCTACCGCTAAACTCTCTCTCGGTTCAGTTGCTACAGTCAATAGTCTGATCAAATGCACTGTCGAGCGGATTAAAGCCGCTCTGGCCTGCGACGGAGCCTAATCGATGTTTTCGGAAGGTAAGAGTGAAAGGGGAGGTTTAGGGAGTTTATGATAATGTTTGTGGTCTTTTGTTTTTTTAAGTCTTTTGAGATTCTCCAAAGGAAGTCAAGAACGCACCTTTTTGCGTTTAATCTCATTTCCGCGTTTGTTAGCGGCGGGCCGAAAAAAAGAGGCTTGAGAAAGAAAAGGTAAAGAGGTTCGGGTATTGACTTCTGCTGGAACCAAAAAAAAAAGAATCGGGTTTGTTGTGTTTCGGCGGTTTAGCGTTTTGCGTTTTCTTTGTTATTATTTATCATTGACTAGTGAACAGTTTAGCGTTCTGCTTTTCGCGTCTACTGTGAAACTCCTTGTTATTAAGCCACTCTAGTGGTACTGTCATTATATATTATGAATCTATGAAACTGTGTTTATT - >AT4G21750.1
AGGGTTTCATTGTGTGCACAAAACGTTACAAAGAAGAAGAAAAACCTTTTTGGAGTTAGAAGTGTAAAAGGGGTTTCAGTTTGACGAATTTTCCTTAGTAGTTGTGTAAAAAAAGGCCATTGACTTAATGTCAACTCTATATATCTACACATTTTTTTATTAATTAGTTTTTGTTTTTTTCCCACTTCATTTACCTTTAGTCAATGAATTTTTACTGAAAACGTTTTTTCAAGGTCAATTTCACTGAGTTAAAAAAAAAAGTTTTATTTTTAACCAAAAATTACGTTTTTTCCTAGGCTTCGGTAACCTGTGAATTCCTCTATCTCACTAGCTTTTATGTAGAAGAGAGAGAAGGCAACATTAAATTCGATCTAAAACTTCAAGAAACCAAAACAACACTTCAAAAAAAAAAAGAGATCTGTTCTATAGAGTTTTAATCTTTTCTTTCGACTCGAGTTTGGCTCAACAAAGTTTATATCGATTTGGCACTCTAAAATTGGGATATACAGGCAGAAGAAAATCGAGATAAATCAACTAAATGATTTGGATAATCATCTTGAAGATTTGAAGGAAAATCCAAGAGCTTCAAAAACTCCAAAAATTGATAGGCATCCATCATCATCATGTATCATCCAAACATGTTCGAATCTCATCATCATATGTTCGATATGACGCCGAAAAACTCCGAAAACGATTTGGGTATCACCGGGAGCCACGAAGAGGATTTCGAGACTAAGTCCGGCGCAGAAGTCACCATGGAGAATCCTTTAGAAGAAGAGCTTCAAGATCCTAATCAGCGTCCCAACAAAAAGAAGCGTTACCACCGTCACACACAACGCCAGATTCAAGAGCTAGAGTCGTTCTTCAAGGAATGTCCTCATCCAGACGATAAGCAAAGAAAGGAGCTGAGTCGCGAGCTAAGCTTAGAACCTCTTCAAGTCAAGTTTTGGTTCCAAAACAAACGCACTCAAATGAAGGCACAACATGAGAGGCACGAGAACCAGATACTGAAGTCAGAAAATGACAAGCTCCGAGCAGAGAACAATAGGTACAAGGATGCTCTAAGCAACGCAACATGCCCAAACTGTGGTGGTCCGGCAGCTATAGGAGAAATGTCCTTCGACGAACAGCATTTAAGGATCGAAAATGCTCGTTTACGCGAAGAGATTGACAGAATCTCTGCCATAGCTGCTAAATACGTAGGGAAGCCTTTAATGGCTAATTCCTCTTCTTTCCCTCAGCTCTCTTCTTCACACCACATTCCCTCGCGCTCGCTTGATCTTGAAGTTGGGAACTTTGGGAACAATAACAATAGCCACACTGGTTTCGTTGGGGAAATGTTTGGAAGCAGCGACATTTTGAGGTCGGTTTCGATACCTTCTGAGGCTGATAAGCCTATGATTGTTGAGTTAGCTGTTGCAGCAATGGAAGAGCTTGTGAGAATGGCTCAAACTGGTGATCCCTTATGGGTTTCAAGCGATAATTCTGTTGAGATTCTCAATGAAGAAGAGTATTTTAGGACGTTTCCTAGAGGAATTGGACCGAAACCTATCGGTTTGAGATCAGAAGCTTCAAGAGAGTCTACTGTTGTTATCATGAATCATATCAATCTCATTGAGATTCTAATGGATGTGAATCAATGGTCTAGTGTGTTCTGCGGGATTGTATCAAGAGCATTGACTCTAGAAGTTCTCTCAACTGGCGTAGCAGGGAACTACAATGGGGCATTGCAAGTGATGACAGCAGAGTTCCAAGTCCCATCGCCGCTTGTCCCTACTCGTGAGAACTACTTTGTAAGGTACTGTAAACAGCACAGTGACGGTATTTGGGCGGTTGTGGATGTCTCTTTGGACAGCCTAAGACCAAGTCCGATCACTAGAAGCAGAAGAAGACCCTCTGGTTGTCTGATTCAAGAATTGCAGAATGGTTACTCCAAGGTGACATGGGTAGAGCATATTGAGGTGGATGATAGATCGGTTCACAACATGTATAAACCGTTGGTTAATACCGGTTTAGCTTTCGGTGCAAAACGTTGGGTGGCTACACTTGACCGCCAATGTGAGCGGCTCGCCAGTTCCATGGCCAGCAACATTCCGGCTTGTGATCTTTCCGTGATAACGAGTCCTGAGGGGAGAAAGAGCATGCTGAAACTAGCGGAGAGAATGGTGATGAGCTTCTGTACCGGAGTCGGCGCGTCAACTGCGCATGCCTGGACTACATTGTCGACCACAGGATCCGACGACGTTCGGGTCATGACCCGAAAGAGCATGGATGATCCGGGAAGACCTCCAGGCATCGTTCTCAGCGCCGCTACTTCTTTCTGGATCCCTGTAGCTCCAAAACGAGTGTTCGATTTTCTCAGAGATGAAAACTCAAGAAGCGAGTGGGATATACTTTCCAATGGAGGCTTGGTTCAAGAAATGGCTCATATCGCAAATGGTCGTGATCCTGGGAATAGTGTCTCCTTGCTTCGAGTCAATAGTGGGAACTCAGGGCAGAGCAACATGTTGATCTTACAAGAAAGTTGTACGGACGCATCAGGGTCCTATGTGATATACGCACCAGTTGATATAATAGCTATGAACGTTGTCCTGAGTGGTGGTGATCCGGATTATGTCGCTTTGTTACCATCCGGATTCGCTATTTTGCCGGATGGCTCTGCTAGAGGAGGAGGAGGTAGTGCTAATGCCAGTGCTGGAGCCGGAGTTGAAGGAGGAGGAGAGGGGAATAATCTTGAAGTGGTTACTACTACTGGGAGTTGTGGCGGTTCACTACTCACAGTTGCGTTTCAGATACTTGTTGACTCTGTTCCTACCGCTAAACTCTCTCTCGGTTCAGTTGCTACAGTCAATAGTCTGATCAAATGCACTGTCGAGCGGATTAAAGCCGCTCTGGCCTGCGACGGAGCCTAATCGATGTTTTCGGAAGGTAAGAGTGAAAGGGGAGGTTTAGGGAGTTTATGATAATGTTTGTGGTCTTTTGTTTTTTTAAGTCTTTTGAGATTCTCCAAAGGAAGTCAAGAACGCACCTTTTTGCGTTTAATCTCATTTCCGCGTTTGTTAGCGGCGGGCCGAAAAAAAGAGGCTTGAGAAAGAAAAGGTAAAGAGGTTCGGGTATTGACTTCTGCTGGAACCAAAAAAAAAAGAATCGGGTTTGTTGTGTTTCGGCGGTTTAGCGTTTTGCGTTTTCTTTGTTATTATTTATCATTGACTAGTGAACAGTTTAGCGTTCTGCTTTTCGCGTCTACTGTGAAACTCCTTGTTATTAAGCCACTCTAGTGGTACTGTCATTATATATTATGAATCTATGAAACTGTGTTTATT - >AT4G21750.2
AGGGTTTCATTGTGTGCACAAAACGTTACAAAGAAGAAGAAAAACCTTTTTGGAGTTAGAAGTGTAAAAGGGGTTTCAGTTTGACGAATTTTCCTTAGTAGTTGTGTAAAAAAAGGCCATTGACTTAATGTCAACTCTATATATCTACACATTTTTTTATTAATTAGTTTTTGTTTTTTTCCCACTTCATTTACCTTTAGTCAATGAATTTTTACTGAAAACGTTTTTTCAAGGTCAATTTCACTGAGTTAAAAAAAAAAGTTTTATTTTTAACCAAAAATTACGTTTTTTCCTAGGCTTCGGTAACCTGTGAATTCCTCTATCTCACTAGCTTTTATGTAGAAGAGAGAGAAGGCAACATTAAATTCGATCTAAAACTTCAAGAAACCAAAACAACACTTCAAAAAAAAAAAGAGATCTGTTCTATAGAGTTTTAATCTTTTCTTTCGACTCGAGTTTGGCTCAACAAAGTTTATATCGATTTGGCACTCTAAAATTGGGATATACAGGCAGAAGAAAATCGAGATAAATCAACTAAATGATTTGGATAATCATCTTGAAGATTTGAAGGAAAATCCAAGAGCTTCAAAAACTCCAAAAATTGATAGGCATCCATCATCATCATGTATCATCCAAACATGTTCGAATCTCATCATCATATGTTCGATATGACGCCGAAAAACTCCGAAAACGATTTGGGTATCACCGGGAGCCACGAAGAGGATTTCGAGACTAAGTCCGGCGCAGAAGTCACCATGGAGAATCCTTTAGAAGAAGAGCTTCAAGATCCTAATCAGCGTCCCAACAAAAAGAAGCGTTACCACCGTCACACACAACGCCAGATTCAAGAGCTAGAGTCGTTCTTCAAGGAATGTCCTCATCCAGACGATAAGCAAAGAAAGGAGCTGAGTCGCGAGCTAAGCTTAGAACCTCTTCAAGTCAAGTTTTGGTTCCAAAACAAACGCACTCAAATGAAGGCACAACATGAGAGGCACGAGAACCAGATACTGAAGTCAGAAAATGACAAGCTCCGAGCAGAGAACAATAGGTACAAGGATGCTCTAAGCAACGCAACATGCCCAAACTGTGGTGGTCCGGCAGCTATAGGAGAAATGTCCTTCGACGAACAGCATTTAAGGATCGAAAATGCTCGTTTACGCGAAGAGATTGACAGAATCTCTGCCATAGCTGCTAAATACGTAGGGAAGCCTTTAATGGCTAATTCCTCTTCTTTCCCTCAGCTCTCTTCTTCACACCACATTCCCTCGCGCTCGCTTGATCTTGAAGTTGGGAACTTTGGGAACAATAACAATAGCCACACTGGTTTCGTTGGGGAAATGTTTGGAAGCAGCGACATTTTGAGGTCGGTTTCGATACCTTCTGAGGCTGATAAGCCTATGATTGTTGAGTTAGCTGTTGCAGCAATGGAAGAGCTTGTGAGAATGGCTCAAACTGGTGATCCCTTATGGGTTTCAAGCGATAATTCTGTTGAGATTCTCAATGAAGAAGAGTATTTTAGGACGTTTCCTAGAGGAATTGGACCGAAACCTATCGGTTTGAGATCAGAAGCTTCAAGAGAGTCTACTGTTGTTATCATGAATCATATCAATCTCATTGAGATTCTAATGGATGTGAATCAATGGTCTAGTGTGTTCTGCGGGATTGTATCAAGAGCATTGACTCTAGAAGTTCTCTCAACTGGCGTAGCAGGGAACTACAATGGGGCATTGCAAGTGATGACAGCAGAGTTCCAAGTCCCATCGCCGCTTGTCCCTACTCGTGAGAACTACTTTGTAAGGTACTGTAAACAGCACAGTGACGGTATTTGGGCGGTTGTGGATGTCTCTTTGGACAGCCTAAGACCAAGTCCGATCACTAGAAGCAGAAGAAGACCCTCTGGTTGTCTGATTCAAGAATTGCAGAATGGTTACTCCAAGGTGACATGGGTAGAGCATATTGAGGTGGATGATAGATCGGTTCACAACATGTATAAACCGTTGGTTAATACCGGTTTAGCTTTCGGTGCAAAACGTTGGGTGGCTACACTTGACCGCCAATGTGAGCGGCTCGCCAGTTCCATGGCCAGCAACATTCCGGCTTGTGATCTTTCCGTGATAACGAGTCCTGAGGGGAGAAAGAGCATGCTGAAACTAGCGGAGAGAATGGTGATGAGCTTCTGTACCGGAGTCGGCGCGTCAACTGCGCATGCCTGGACTACATTGTCGACCACAGGATCCGACGACGTTCGGGTCATGACCCGAAAGAGCATGGATGATCCGGGAAGACCTCCAGGCATCGTTCTCAGCGCCGCTACTTCTTTCTGGATCCCTGTAGCTCCAAAACGAGTGTTCGATTTTCTCAGAGATGAAAACTCAAGAAGCGAGTGGGATATACTTTCCAATGGAGGCTTGGTTCAAGAAATGGCTCATATCGCAAATGGTCGTGATCCTGGGAATAGTGTCTCCTTGCTTCGAGTCAATAGTGGGAACTCAGGGCAGAGCAACATGTTGATCTTACAAGAAAGTTGTACGGACGCATCAGGGTCCTATGTGATATACGCACCAGTTGATATAATAGCTATGAACGTTGTCCTGAGTGGTGGTGATCCGGATTATGTCGCTTTGTTACCATCCGGATTCGCTATTTTGCCGGATGGCTCTGCTAGAGGAGGAGGAGGTAGTGCTAATGCCAGTGCTGGAGCCGGAGTTGAAGGAGGAGGAGAGGGGAATAATCTTGAAGTGGTTACTACTACTGGGAGTTGTGGCGGTTCACTACTCACAGTTGCGTTTCAGATACTTGTTGACTCTGTTCCTACCGCTAAACTCTCTCTCGGTTCAGTTGCTACAGTCAATAGTCTGATCAAATGCACTGTCGAGCGGATTAAAGCCGCTCTGGCCTGCGACGGAGCCTAATCGATGTTTTCGGAAGGTAAGAGTGAAAGGGGAGGTTTAGGGAGTTTATGATAATGTTTGTGGTCTTTTGTTTTTTTAAGTCTTTTGAGATTCTCCAAAGGAAGTCAAGAACGCACCTTTTTGCGTTTAATCTCATTTCCGCGTTTGTTAGCGGCGGGCCGAAAAAAAGAGGCTTGAGAAAGAAAAGGTAAAGAGGTTCGGGTATTGACTTCTGCTGGAACCAAAAAAAAAAGAATCGGGTTTGTTGTGTTTCGGCGGTTTAGCGTTTTGCGTTTTCTTTGTTATTATTTATCATTGACTAGTGAACAGTTTAGCGTTCTGCTTTTCGCGTCTACTGTGAAACTCCTTGTTATTAAGCCACTCTAGTGGTACTGTCATTATATATTATGAATCTATGAAACTGTGTTTATT
CDS Sequence
Protein Sequence