Gene Details:
- Gene ID: AT5G44030
- Gene Symbol: CESA4, IRX5, NWS2
- Gene Name: cellulose synthase A4, IRREGULAR XYLEM 5
- Description: cellulose synthase A4;(source:Araport11)
- TAIR Accession:
- Genome: Araport11_genome_release
- Species: Arabidopsis thaliana
Transcripts:
Plant Ontology Annotations:
- PO:0009005 — root — raíz (Spanish, exact), radices (exact, plural), radix (exact), 根 (Japanese, exact), aerial root (narrow), climbing root (narrow)
- PO:0009006 — shoot system — sistema de epiblasto (epiblastema) (Spanish, exact), シュート系、苗条系 (Japanese, exact), Poaceae crown (related), shoot (related), thalli (related), thallus (related), tree crown (narrow)
Function-related keywords:
Literature:
- Phosphoproteomics of the Arabidopsis plasma membrane and a new phosphorylation site database. DOI: 10.1105/tpc.104.023150 ; PMID: 15308754
- Identification of novel genes in Arabidopsis involved in secondary cell wall formation using expression profiling and reverse genetics. DOI: 10.1105/tpc.105.031542 ; PMID: 15980264
- The xylem and phloem transcriptomes from secondary tissues of the Arabidopsis root-hypocotyl. DOI: 10.1104/pp.105.060202 ; PMID: 15923329
- CINNAMYL ALCOHOL DEHYDROGENASE-C and -D are the primary genes involved in lignin biosynthesis in the floral stem of Arabidopsis. DOI: 10.1105/tpc.105.030767 ; PMID: 15937231
- The small GTPase AtRAC2/ROP7 is specifically expressed during late stages of xylem differentiation in Arabidopsis. DOI: 10.1093/jxb/eri239 ; PMID: 16061508
- Class III homeodomain leucine-zipper proteins regulate xylem cell differentiation. DOI: 10.1093/pcp/pci180 ; PMID: 16081527
- The NAC transcription factors NST1 and NST2 of Arabidopsis regulate secondary wall thickenings and are required for anther dehiscence. DOI: 10.1105/tpc.105.036004 ; PMID: 16214898
- Biosynthesis of cellulose-enriched tension wood in Populus: global analysis of transcripts and metabolites identifies biochemical and developmental regulators in secondary wall biosynthesis. DOI: 10.1111/j.1365-313X.2005.02584.x ; PMID: 16367961
- Cellulose synthesis in higher plants. DOI: 10.1146/annurev.cellbio.22.022206.160206 ; PMID: 16824006
- Gibberellin mobilizes distinct DELLA-dependent transcriptomes to regulate seed germination and floral development in Arabidopsis. DOI: 10.1104/pp.106.082289 ; PMID: 16920880
- The cellulose synthase (CESA) gene superfamily of the moss Physcomitrella patens. DOI: 10.1007/s11103-006-9083-1 ; PMID: 17006591
- Global comparative transcriptome analysis identifies gene network regulating secondary xylem development in Arabidopsis thaliana. DOI: 10.1007/s00438-006-0157-1 ; PMID: 16969662
- Interactions between MUR10/CesA7-dependent secondary cellulose biosynthesis and primary cell wall structure. DOI: 10.1104/pp.106.087700 ; PMID: 17041031
- Arabidopsis MYB26/MALE STERILE35 regulates secondary thickening in the endothecium and is essential for anther dehiscence. DOI: 10.1105/tpc.106.046391 ; PMID: 17329564
- ANAC012, a member of the plant-specific NAC transcription factor family, negatively regulates xylary fiber development in Arabidopsis thaliana. DOI: 10.1111/j.1365-313X.2007.03109.x ; PMID: 17565617
- GeneCAT–novel webtools that combine BLAST and co-expression analyses. DOI: 10.1093/nar/gkn292 ; PMID: 18480120
- CressExpress: a tool for large-scale mining of expression data from Arabidopsis. DOI: 10.1104/pp.107.115535 ; PMID: 18467456
- AtERF38 (At2g35700), an AP2/ERF family transcription factor gene from Arabidopsis thaliana, is expressed in specific cell types of roots, stems and seeds that undergo suberization. DOI: 10.1016/j.plaphy.2008.07.003 ; PMID: 18723362
- Transcriptomic analysis of Arabidopsis developing stems: a close-up on cell wall genes. DOI: 10.1186/1471-2229-9-6 ; PMID: 19149885
- Gibberellin acts through jasmonate to control the expression of MYB21, MYB24, and MYB57 to promote stamen filament growth in Arabidopsis. DOI: 10.1371/journal.pgen.1000440 ; PMID: 19325888
- Mechanical load induces upregulation of transcripts for a set of genes implicated in secondary wall formation in the supporting tissue of Arabidopsis thaliana. DOI: 10.1007/s10265-009-0251-7 ; PMID: 19582540
- Phylogenetically distinct cellulose synthase genes support secondary wall thickening in arabidopsis shoot trichomes and cotton fiber. DOI: 10.1111/j.1744-7909.2010.00934.x ; PMID: 20377682
- Systematic identification of functional plant modules through the integration of complementary data sources. DOI: 10.1104/pp.112.196725 ; PMID: 22589469
- Functional analysis of complexes with mixed primary and secondary cellulose synthases. DOI: 10.4161/psb.23179 ; PMID: 23299322
- A R2R3-MYB transcription factor that is specifically expressed in cotton (Gossypium hirsutum) fibers affects secondary cell wall biosynthesis and deposition in transgenic Arabidopsis. DOI: 10.1111/ppl.12317 ; PMID: 25534543
- An Arabidopsis gene regulatory network for secondary cell wall synthesis. DOI: 10.1038/nature14099 ; PMID: 25533953
- Endogenous Arabidopsis messenger RNAs transported to distant tissues. DOI: 10.1038/nplants.2015.25 ; PMID: 27247031
- The Receptor-Like Kinase AtVRLK1 Regulates Secondary Cell Wall Thickening. DOI: 10.1104/pp.17.01279 ; PMID: 29678858
- Secondary Wall Regulating NACs Differentially Bind at the Promoter at a CELLULOSE SYNTHASE A4 Cis-eQTL. DOI: 10.3389/fpls.2018.01895 ; PMID: 30627134
- MYC2-Activated TRICHOME BIREFRINGENCE-LIKE37 Acetylates Cell Walls and Enhances Herbivore Resistance. DOI: 10.1104/pp.20.00683 ; PMID: 32732351
- Identification of novel genes in Arabidopsis involved in secondary cell wall formation using expression profiling and reverse genetics. DOI: 10.1105/tpc.105.031542 ; PMID: 15980264
- Impairment of cellulose synthases required for Arabidopsis secondary cell wall formation enhances disease resistance. DOI: 10.1105/tpc.106.048058 ; PMID: 17351116
Sequences:
cDNA Sequence
- >AT5G44030.1
ATACAAATTCTAAAGAACTCAAAAGAATAACAAACAGTAGAAGTTGGAAGCTCAAGCAATTAAATTATATAAAAACACTAACTACACTGAGCTGTCTCCTTCTTCCACCAAATCTTGTTGCTGTCTCTTGAAGCTTTCTTATGACACAAACCTTAGACCCAATTTCACTCACAGTTTGGTACAACCTCAGTTTTCTTCACAACAAATTCAAACATCTTACCCTTATATTACCTCTTTATCTCTTCAATCATCAAAACACATAGTCACATACATTTCTCTACCCCACCTTCTGCTCTGCTTCCGAGAGCTCAGTGTACCTCGCCATGGAACCAAACACCATGGCCAGCTTCGACGATGAGCATCGTCATTCCTCATTCTCGGCTAAGATTTGCAAAGTCTGTGGCGATGAGGTCAAAGACGATGACAATGGTCAGACTTTTGTGGCGTGTCACGTGTGCGTTTACCCGGTTTGCAAACCTTGCTATGAATATGAGCGTAGCAACGGTAACAAATGTTGCCCTCAATGCAACACTCTTTACAAACGCCACAAAGGCTCTCCAAAAATCGCCGGAGATGAAGAAAACAATGGTCCTGATGATTCAGATGATGAGTTGAATATCAAATATCGCCAGGATGGTTCCTCCATTCACCAGAATTTTGCCTATGGATCGGAAAATGGAGACTACAACAGTAAGCAGCAATGGCGTCCAAATGGTCGAGCCTTTTCTTCCACCGGAAGTGTGTTGGGGAAAGACTTTGAAGCTGAGAGAGATGGCTACACAGATGCGGAGTGGAAAGAACGTGTAGATAAATGGAAAGCGAGGCAAGAGAAGAGAGGTTTAGTGACTAAAGGAGAACAAACAAACGAAGACAAAGAAGATGATGAAGAAGAATACCTAGATGCTGAAGCAAGACAACCTCTCTGGAGAAAAGTCCCAATCTCTTCGAGCAAAATCAGTCCTTACCGCATCGTGATCGTTCTTCGCCTTGTGATCTTAGTTTTCTTCTTCCGTTTCCGTATCTTGACACCAGCCAAAGACGCATACCCTCTCTGGCTTATCTCAGTCATCTGCGAGATCTGGTTCGCTCTCTCTTGGATCCTTGATCAGTTCCCGAAATGGTTTCCGATTAACCGAGAAACCTACCTTGACCGTCTCTCTATGAGATTTGAACGGGATGGGGAAAAGAACAAGCTTGCACCGGTTGATGTGTTTGTCAGTACAGTGGATCCGCTCAAGGAACCTCCCATAATCACAGCCAACACAATTCTTTCGATCTTAGCCGTTGATTACCCAGTGAATAAGGTGAGCTGCTATGTGTCTGATGACGGTGCATCAATGCTCCTGTTCGATACATTGTCCGAAACTTCCGAGTTTGCAAGGAGATGGGTTCCGTTTTGCAAGAAGTACAATGTTGAGCCAAGAGCTCCAGAGTTTTACTTCTCAGAGAAGATTGATTACCTAAAGGATAAAGTCCAAACTACATTCGTCAAAGATCGCAGAGCAATGAAGAGAGAATATGAAGAATTCAAAGTGAGGATCAATGCTTTAGTAGCTAAAGCTCAAAAGAAGCCTGAAGAAGGTTGGGTTATGCAAGATGGTACACCATGGCCTGGGAATAACACTCGTGATCATCCCGGGATGATTCAGGTGTATCTCGGCAAAGAAGGAGCATTCGACATTGATGGTAACGAATTGCCACGTCTCGTGTATGTATCAAGAGAGAAGCGTCCTGGTTACGCACACCACAAGAAAGCTGGAGCCATGAATGCAATGGTTCGAGTCTCTGCAGTACTCACTAATGCTCCATTCATGCTTAATCTCGACTGTGACCATTACATCAACAACAGTAAAGCCATAAGAGAATCAATGTGCTTTCTAATGGATCCACAGCTTGGTAAAAAGCTCTGTTATGTCCAATTCCCACAAAGATTCGACGGAATCGATCTTAACGATCGATACGCCAACAGAAACATCGTCTTCTTCGATATAAACATGAGAGGCTTAGATGGAATCCAAGGACCAGTCTATGTAGGAACAGGATGTGTATTCAATAGACCAGCATTATACGGATACGAACCTCCGGTATCGGAAAAACGAAAGAAAATGACATGTGATTGTTGGCCGTCGTGGATCTGCTGTTGTTGCGGCGGAGGTAACCGTAATCACAAATCAGATTCGTCAAAGAAGAAATCAGGAATCAAGAGCTTGTTCTCGAAACTAAAGAAGAAGACTAAGAAGAAGAGTGATGATAAAACGATGAGCAGCTATAGTAGAAAACGATCATCGACGGAGGCGATTTTTGATTTGGAAGATATTGAGGAAGGGCTTGAAGGATATGATGAGCTTGAGAAATCTTCGTTAATGTCGCAGAAGAATTTTGAGAAGAGATTTGGAATGTCTCCTGTGTTTATTGCGTCGACGTTGATGGAGAACGGAGGATTGCCGGAGGCGACGAACACGAGCTCGTTGATCAAAGAAGCTATTCATGTTATTAGCTGTGGTTATGAAGAGAAGACTGAATGGGGCAAAGAGATTGGATGGATTTATGGATCAGTAACAGAAGATATCCTCACTGGATTTAGAATGCATTGTAGAGGTTGGAAATCAGTTTACTGTATGCCTAAAAGACCAGCTTTCAAAGGATCAGCTCCGATCAATTTATCTGATCGGTTGCACCAAGTTCTTAGATGGGCTCTTGGTTCCGTCGAAATCTTCTTTAGTCGTCATTGTCCTTTGTGGTATGCTTGGGGAGGCAAGCTTAAGATTCTAGAACGTCTTGCTTACATCAACACAATTGTTTATCCTTTCACTTCTATTCCTCTACTTGCCTATTGTACTATTCCGGCCGTTTGTCTTCTCACCGGCAAGTTCATCATTCCTACGATCAACAATTTCGCAAGCATATGGTTCTTAGCTCTGTTCCTATCAATCATTGCAACGGCTATCTTAGAACTCCGGTGGAGTGGTGTAAGCATCAATGACCTCTGGCGTAACGAGCAATTCTGGGTGATTGGCGGTGTCTCAGCTCATCTCTTCGCTGTCTTTCAAGGTCTTCTTAAAGTTCTCTTTGGTGTTGACACTAACTTCACCGTCACGTCAAAAGGAGCCAGTGACGAAGCCGATGAGTTTGGAGATCTTTACCTCTTTAAATGGACAACCCTTCTCATCCCTCCGACAACTCTCATTATTCTCAACATGGTCGGTGTTGTTGCCGGAGTTTCTGACGCTATTAACAATGGATATGGTTCTTGGGGACCGCTTTTTGGGAAACTGTTTTTCGCGTTTTGGGTCATTGTTCATCTTTATCCTTTCCTCAAAGGTTTGATGGGTAGACAAAACCGAACACCGACGATTGTTGTTCTTTGGTCTATCCTTCTCGCTTCGATCTTCTCTTTGGTTTGGGTTCGGATTGATCCGTTCTTGCCGAAACAGACTGGTCCGTTACTGAAGCAATGTGGCGTCGACTGTTAAATGAGGAACCGCATTTTCGTTTTGGACCGCTATTTTGAGCCATTTTGCTTGGCCTATTTTTCCGATTTGGGTGTTCTTTGTTGGATTATATGGATTTGTAAGGAGGAAAAAAAATACAAAACTTTGATTCACTTGTGAAATAAAGTAGACAAATTTCTG - >AT5G44030.2
ATACAAATTCTAAAGAACTCAAAAGAATAACAAACAGTAGAAGTTGGAAGCTCAAGCAATTAAATTATATAAAAACACTAACTACACTGAGCTGTCTCCTTCTTCCACCAAATCTTGTTGCTGTCTCTTGAAGCTTTCTTATGACACAAACCTTAGACCCAATTTCACTCACAGTTTGGTACAACCTCAGTTTTCTTCACAACAAATTCAAACATCTTACCCTTATATTACCTCTTTATCTCTTCAATCATCAAAACACATAGTCACATACATTTCTCTACCCCACCTTCTGCTCTGCTTCCGAGAGCTCAGTGTACCTCGCCATGGAACCAAACACCATGGCCAGCTTCGACGATGAGCATCGTCATTCCTCATTCTCGGCTAAGATTTGCAAAGTCTGTGGCGATGAGGTCAAAGACGATGACAATGGTCAGACTTTTGTGGCGTGTCACGTGTGCGTTTACCCGGTTTGCAAACCTTGCTATGAATATGAGCGTAGCAACGGTAACAAATGTTGCCCTCAATGCAACACTCTTTACAAACGCCACAAAGGCTCTCCAAAAATCGCCGGAGATGAAGAAAACAATGGTCCTGATGATTCAGATGATGAGTTGAATATCAAATATCGCCAGGATGGTTCCTCCATTCACCAGAATTTTGCCTATGGATCGGAAAATGGAGACTACAACAGTAAGCAGCAATGGCGTCCAAATGGTCGAGCCTTTTCTTCCACCGGAAGTGTGTTGGGGAAAGACTTTGAAGCTGAGAGAGATGGCTACACAGATGCGGAGTGGAAAGAACGTGTAGATAAATGGAAAGCGAGGCAAGAGAAGAGAGGTTTAGTGACTAAAGGAGAACAAACAAACGAAGACAAAGAAGATGATGAAGAAGAATACCTAGATGCTGAAGCAAGACAACCTCTCTGGAGAAAAGTCCCAATCTCTTCGAGCAAAATCAGTCCTTACCGCATCGTGATCGTTCTTCGCCTTGTGATCTTAGTTTTCTTCTTCCGTTTCCGTATCTTGACACCAGCCAAAGACGCATACCCTCTCTGGCTTATCTCAGTCATCTGCGAGATCTGGTTCGCTCTCTCTTGGATCCTTGATCAGTTCCCGAAATGGTTTCCGATTAACCGAGAAACCTACCTTGACCGTCTCTCTATGAGATTTGAACGGGATGGGGAAAAGAACAAGCTTGCACCGGTTGATGTGTTTGTCAGTACAGTGGATCCGCTCAAGGAACCTCCCATAATCACAGCCAACACAATTCTTTCGATCTTAGCCGTTGATTACCCAGTGAATAAGGTGAGCTGCTATGTGTCTGATGACGGTGCATCAATGCTCCTGTTCGATACATTGTCCGAAACTTCCGAGTTTGCAAGGAGATGGGTTCCGTTTTGCAAGAAGTACAATGTTGAGCCAAGAGCTCCAGAGTTTTACTTCTCAGAGAAGATTGATTACCTAAAGGATAAAGTCCAAACTACATTCGTCAAAGATCGCAGAGCAATGAAGAGAGAATATGAAGAATTCAAAGTGAGGATCAATGCTTTAGTAGCTAAAGCTCAAAAGAAGCCTGAAGAAGGTTGGGTTATGCAAGATGGTACACCATGGCCTGGGAATAACACTCGTGATCATCCCGGGATGATTCAGGTGTATCTCGGCAAAGAAGGAGCATTCGACATTGATGGTAACGAATTGCCACGTCTCGTGTATGTATCAAGAGAGAAGCGTCCTGGTTACGCACACCACAAGAAAGCTGGAGCCATGAATGCAATGGTTCGAGTCTCTGCAGTACTCACTAATGCTCCATTCATGCTTAATCTCGACTGTGACCATTACATCAACAACAGTAAAGCCATAAGAGAATCAATGTGCTTTCTAATGGATCCACAGCTTGGTAAAAAGCTCTGTTATGTCCAATTCCCACAAAGATTCGACGGAATCGATCTTAACGATCGATACGCCAACAGAAACATCGTCTTCTTCGATATAAACATGAGAGGCTTAGATGGAATCCAAGGACCAGTCTATGTAGGAACAGGATGTGTATTCAATAGACCAGCATTATACGGATACGAACCTCCGGTATCGGAAAAACGAAAGAAAATGACATGTGATTGTTGGCCGTCGTGGATCTGCTGTTGTTGCGGCGGAGGTAACCGTAATCACAAATCAGATTCGTCAAAGAAGAAATCAGGAATCAAGAGCTTGTTCTCGAAACTAAAGAAGAAGACTAAGAAGAAGAGTGATGATAAAACGATGAGCAGCTATAGTAGAAAACGATCATCGACGGAGGCGATTTTTGATTTGGAAGATATTGAGGAAGGGCTTGAAGGATATGATGAGCTTGAGAAATCTTCGTTAATGTCGCAGAAGAATTTTGAGAAGAGATTTGGAATGTCTCCTGTGTTTATTGCGTCGACGTTGATGGAGAACGGAGGATTGCCGGAGGCGACGAACACGAGCTCGTTGATCAAAGAAGCTATTCATGTTATTAGCTGTGGTTATGAAGAGAAGACTGAATGGGGCAAAGAGATTGGATGGATTTATGGATCAGTAACAGAAGATATCCTCACTGGATTTAGAATGCATTGTAGAGGTTGGAAATCAGTTTACTGTATGCCTAAAAGACCAGCTTTCAAAGGATCAGCTCCGATCAATTTATCTGATCGGTTGCACCAAGTTCTTAGATGGGCTCTTGGTTCCGTCGAAATCTTCTTTAGTCGTCATTGTCCTTTGTGGTATGCTTGGGGAGGCAAGCTTAAGATTCTAGAACGTCTTGCTTACATCAACACAATTGTTTATCCTTTCACTTCTATTCCTCTACTTGCCTATTGTACTATTCCGGCCGTTTGTCTTCTCACCGGCAAGTTCATCATTCCTACGATCAACAATTTCGCAAGCATATGGTTCTTAGCTCTGTTCCTATCAATCATTGCAACGGCTATCTTAGAACTCCGGTGGAGTGGTGTAAGCATCAATGACCTCTGGCGTAACGAGCAATTCTGGGTGATTGGCGGTGTCTCAGCTCATCTCTTCGCTGTCTTTCAAGGTCTTCTTAAAGTTCTCTTTGGTGTTGACACTAACTTCACCGTCACGTCAAAAGGAGCCAGTGACGAAGCCGATGAGTTTGGAGATCTTTACCTCTTTAAATGGACAACCCTTCTCATCCCTCCGACAACTCTCATTATTCTCAACATGGTCGGTGTTGTTGCCGGAGTTTCTGACGCTATTAACAATGGATATGGTTCTTGGGGACCGCTTTTTGGGAAACTGTTTTTCGCGTTTTGGGTCATTGTTCATCTTTATCCTTTCCTCAAAGGTTTGATGGGTAGACAAAACCGAACACCGACGATTGTTGTTCTTTGGTCTATCCTTCTCGCTTCGATCTTCTCTTTGGTTTGGGTTCGGATTGATCCGTTCTTGCCGAAACAGACTGGTCCGTTACTGAAGCAATGTGGCGTCGACTGTTAAATGAGGAACCGCATTTTCGTTTTGGACCGCTATTTTGAGCCATTTTGCTTGGCCTATTTTTCCGATTTGGGTGTTCTTTGTTGGATTATATGGATTTGTAAGGAGGAAAAAAAATACAAAACTTTGATTCACTTGTGAAATAAAGTAGACAAATTTCTG - >AT5G44030.3
ATACAAATTCTAAAGAACTCAAAAGAATAACAAACAGTAGAAGTTGGAAGCTCAAGCAATTAAATTATATAAAAACACTAACTACACTGAGCTGTCTCCTTCTTCCACCAAATCTTGTTGCTGTCTCTTGAAGCTTTCTTATGACACAAACCTTAGACCCAATTTCACTCACAGTTTGGTACAACCTCAGTTTTCTTCACAACAAATTCAAACATCTTACCCTTATATTACCTCTTTATCTCTTCAATCATCAAAACACATAGTCACATACATTTCTCTACCCCACCTTCTGCTCTGCTTCCGAGAGCTCAGTGTACCTCGCCATGGAACCAAACACCATGGCCAGCTTCGACGATGAGCATCGTCATTCCTCATTCTCGGCTAAGATTTGCAAAGTCTGTGGCGATGAGGTCAAAGACGATGACAATGGTCAGACTTTTGTGGCGTGTCACGTGTGCGTTTACCCGGTTTGCAAACCTTGCTATGAATATGAGCGTAGCAACGGTAACAAATGTTGCCCTCAATGCAACACTCTTTACAAACGCCACAAAGGCTCTCCAAAAATCGCCGGAGATGAAGAAAACAATGGTCCTGATGATTCAGATGATGAGTTGAATATCAAATATCGCCAGGATGGTTCCTCCATTCACCAGAATTTTGCCTATGGATCGGAAAATGGAGACTACAACAGTAAGCAGCAATGGCGTCCAAATGGTCGAGCCTTTTCTTCCACCGGAAGTGTGTTGGGGAAAGACTTTGAAGCTGAGAGAGATGGCTACACAGATGCGGAGTGGAAAGAACGTGTAGATAAATGGAAAGCGAGGCAAGAGAAGAGAGGTTTAGTGACTAAAGGAGAACAAACAAACGAAGACAAAGAAGATGATGAAGAAGAATACCTAGATGCTGAAGCAAGACAACCTCTCTGGAGAAAAGTCCCAATCTCTTCGAGCAAAATCAGTCCTTACCGCATCGTGATCGTTCTTCGCCTTGTGATCTTAGTTTTCTTCTTCCGTTTCCGTATCTTGACACCAGCCAAAGACGCATACCCTCTCTGGCTTATCTCAGTCATCTGCGAGATCTGGTTCGCTCTCTCTTGGATCCTTGATCAGTTCCCGAAATGGTTTCCGATTAACCGAGAAACCTACCTTGACCGTCTCTCTATGAGATTTGAACGGGATGGGGAAAAGAACAAGCTTGCACCGGTTGATGTGTTTGTCAGTACAGTGGATCCGCTCAAGGAACCTCCCATAATCACAGCCAACACAATTCTTTCGATCTTAGCCGTTGATTACCCAGTGAATAAGGTGAGCTGCTATGTGTCTGATGACGGTGCATCAATGCTCCTGTTCGATACATTGTCCGAAACTTCCGAGTTTGCAAGGAGATGGGTTCCGTTTTGCAAGAAGTACAATGTTGAGCCAAGAGCTCCAGAGTTTTACTTCTCAGAGAAGATTGATTACCTAAAGGATAAAGTCCAAACTACATTCGTCAAAGATCGCAGAGCAATGAAGAGAGAATATGAAGAATTCAAAGTGAGGATCAATGCTTTAGTAGCTAAAGCTCAAAAGAAGCCTGAAGAAGGTTGGGTTATGCAAGATGGTACACCATGGCCTGGGAATAACACTCGTGATCATCCCGGGATGATTCAGGTGTATCTCGGCAAAGAAGGAGCATTCGACATTGATGGTAACGAATTGCCACGTCTCGTGTATGTATCAAGAGAGAAGCGTCCTGGTTACGCACACCACAAGAAAGCTGGAGCCATGAATGCAATGGTTCGAGTCTCTGCAGTACTCACTAATGCTCCATTCATGCTTAATCTCGACTGTGACCATTACATCAACAACAGTAAAGCCATAAGAGAATCAATGTGCTTTCTAATGGATCCACAGCTTGGTAAAAAGCTCTGTTATGTCCAATTCCCACAAAGATTCGACGGAATCGATCTTAACGATCGATACGCCAACAGAAACATCGTCTTCTTCGATATAAACATGAGAGGCTTAGATGGAATCCAAGGACCAGTCTATGTAGGAACAGGATGTGTATTCAATAGACCAGCATTATACGGATACGAACCTCCGGTATCGGAAAAACGAAAGAAAATGACATGTGATTGTTGGCCGTCGTGGATCTGCTGTTGTTGCGGCGGAGGTAACCGTAATCACAAATCAGATTCGTCAAAGAAGAAATCAGGAATCAAGAGCTTGTTCTCGAAACTAAAGAAGAAGACTAAGAAGAAGAGTGATGATAAAACGATGAGCAGCTATAGTAGAAAACGATCATCGACGGAGGCGATTTTTGATTTGGAAGATATTGAGGAAGGGCTTGAAGGATATGATGAGCTTGAGAAATCTTCGTTAATGTCGCAGAAGAATTTTGAGAAGAGATTTGGAATGTCTCCTGTGTTTATTGCGTCGACGTTGATGGAGAACGGAGGATTGCCGGAGGCGACGAACACGAGCTCGTTGATCAAAGAAGCTATTCATGTTATTAGCTGTGGTTATGAAGAGAAGACTGAATGGGGCAAAGAGATTGGATGGATTTATGGATCAGTAACAGAAGATATCCTCACTGGATTTAGAATGCATTGTAGAGGTTGGAAATCAGTTTACTGTATGCCTAAAAGACCAGCTTTCAAAGGATCAGCTCCGATCAATTTATCTGATCGGTTGCACCAAGTTCTTAGATGGGCTCTTGGTTCCGTCGAAATCTTCTTTAGTCGTCATTGTCCTTTGTGGTATGCTTGGGGAGGCAAGCTTAAGATTCTAGAACGTCTTGCTTACATCAACACAATTGTTTATCCTTTCACTTCTATTCCTCTACTTGCCTATTGTACTATTCCGGCCGTTTGTCTTCTCACCGGCAAGTTCATCATTCCTACGATCAACAATTTCGCAAGCATATGGTTCTTAGCTCTGTTCCTATCAATCATTGCAACGGCTATCTTAGAACTCCGGTGGAGTGGTGTAAGCATCAATGACCTCTGGCGTAACGAGCAATTCTGGGTGATTGGCGGTGTCTCAGCTCATCTCTTCGCTGTCTTTCAAGGTCTTCTTAAAGTTCTCTTTGGTGTTGACACTAACTTCACCGTCACGTCAAAAGGAGCCAGTGACGAAGCCGATGAGTTTGGAGATCTTTACCTCTTTAAATGGACAACCCTTCTCATCCCTCCGACAACTCTCATTATTCTCAACATGGTCGGTGTTGTTGCCGGAGTTTCTGACGCTATTAACAATGGATATGGTTCTTGGGGACCGCTTTTTGGGAAACTGTTTTTCGCGTTTTGGGTCATTGTTCATCTTTATCCTTTCCTCAAAGGTTTGATGGGTAGACAAAACCGAACACCGACGATTGTTGTTCTTTGGTCTATCCTTCTCGCTTCGATCTTCTCTTTGGTTTGGGTTCGGATTGATCCGTTCTTGCCGAAACAGACTGGTCCGTTACTGAAGCAATGTGGCGTCGACTGTTAAATGAGGAACCGCATTTTCGTTTTGGACCGCTATTTTGAGCCATTTTGCTTGGCCTATTTTTCCGATTTGGGTGTTCTTTGTTGGATTATATGGATTTGTAAGGAGGAAAAAAAATACAAAACTTTGATTCACTTGTGAAATAAAGTAGACAAATTTCTG
CDS Sequence
Protein Sequence