Gene Details:
- Gene ID: AT4G24450
- Gene Symbol: At4g24450, ATGWD2, GWD3, PWD
- Gene Name: phosphoglucan, water dikinase
- Description: phosphoglucan, water dikinase;(source:Araport11)
- TAIR Accession:
- Genome: Araport11_genome_release
- Species: Arabidopsis thaliana
Transcripts:
Plant Ontology Annotations:
- PO:0000037 — shoot axis apex — ápice del epiblasto (epiblastema) (Spanish, exact), シュート頂、茎頂 (Japanese, exact)
- PO:0008019 — leaf lamina base — base de la lámina de la hoja (Spanish, exact), 葉身基部 (Japanese, exact)
- 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)
- PO:0009009 — plant embryo — embrión (Spanish, exact), 植物胚 (Japanese, exact), germ (related), embryo (broad)
- PO:0009025 — vascular leaf — foliage leaf (exact), hoja vascular (Spanish, exact), leaf, vascular (exact), vascular leaves (exact, plural), 維管束のある葉, または維管束植物の葉 (Japanese, exact), crozier (related), macrophyll (related), megaphyll (related), ascidia (narrow), ascidium (narrow), fiddlehead (narrow), frond (narrow), needle-like leaf (narrow), pitcher (narrow), pitcher blade (narrow), pitcher-blade (narrow), scale-like leaf (narrow), sterile frond (narrow), trophophyll (narrow)
- PO:0009029 — stamen — estambre (Spanish, exact), 雄蕊 (Japanese, exact), Poaceae stamen (narrow), Zea stamen (narrow)
- PO:0009031 — sepal — sépalo (Spanish, exact), がく片 (Japanese, exact)
- 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:0009052 — inflorescence flower pedicel — 小花柄 (Japanese, related), pedicelo (Spanish, broad)
- PO:0020030 — cotyledon — cotiledón (Spanish, exact), seed leaf (exact), 子葉 (Japanese, exact)
- PO:0020038 — petiole — pecíolo (Spanish, exact), 葉柄 (Japanese, exact)
- PO:0020100 — hypocotyl — hipocótile (Spanish, exact), 胚軸 (Japanese, exact)
- PO:0020137 — leaf apex — ápice de la hoja (Spanish, exact), 葉先 (Japanese, exact), leaf lamina apex (narrow), phyllid apex (narrow)
- PO:0025022 — collective leaf structure — estructura colectiva de hoja (Spanish, exact), leaf series (exact), 葉が集まった構造 (Japanese, exact), leaf whorl (narrow), rosette (narrow), cycle (broad), verticil (broad)
- PO:0025281 — pollen — polen (Spanish, exact), pollen grain (exact), 花粉 (Japanese, exact)
Function-related keywords:
- shoot axis apex , leaf lamina base , shoot system , plant embryo , vascular leaf , stamen , sepal , flower , inflorescence flower pedicel , cotyledon , petiole , hypocotyl , leaf apex , collective leaf structure , pollen
Literature:
- Diurnal changes in the transcriptome encoding enzymes of starch metabolism provide evidence for both transcriptional and posttranscriptional regulation of starch metabolism in Arabidopsis leaves. DOI: 10.1104/pp.104.044347 ; PMID: 15347792
- A dehydration-induced NAC protein, RD26, is involved in a novel ABA-dependent stress-signaling pathway. DOI: 10.1111/j.1365-313X.2004.02171.x ; PMID: 15341629
- alpha-Amylase is not required for breakdown of transitory starch in Arabidopsis leaves. DOI: 10.1074/jbc.M413638200 ; PMID: 15637061
- Leaf starch degradation comes out of the shadows. DOI: 10.1016/j.tplants.2005.01.001 ; PMID: 15749471
- Starch degradation. DOI: 10.1146/annurev.arplant.56.032604.144257 ; PMID: 15862090
- Starch metabolism in Arabidopsis. DOI: 10.1199/tab.0160 ; PMID: 23393426
- Endogenous Arabidopsis messenger RNAs transported to distant tissues. DOI: 10.1038/nplants.2015.25 ; PMID: 27247031
- The analysis of the different functions of starch-phosphorylating enzymes during the development of Arabidopsis thaliana plants discloses an unexpected role for the cytosolic isoform GWD2. DOI: 10.1111/ppl.12564 ; PMID: 28303594
- Carbon pathways during transitory starch degradation in Arabidopsis differentially affect the starch granule number and morphology in the dpe2/phs1 mutant background. DOI: 10.1016/j.plaphy.2022.03.033 ; PMID: 35378390
- Proteomic study of the Arabidopsis thaliana chloroplastic envelope membrane utilizing alternatives to traditional two-dimensional electrophoresis. DOI: 10.1021/pr034025j ; PMID: 12938931
- Identification of a novel enzyme required for starch metabolism in Arabidopsis leaves. The phosphoglucan, water dikinase. DOI: 10.1104/pp.104.055954 ; PMID: 15618411
- Novel starch-related enzymes and carbohydrates. DOI: NA ; PMID: 17666166
- An extra-plastidial alpha-glucan, water dikinase from Arabidopsis phosphorylates amylopectin in vitro and is not necessary for transient starch degradation. DOI: 10.1093/jxb/erm249 ; PMID: 18024995
Sequences:
cDNA Sequence
- >AT4G24450.3
AACTGATTGGTCTCAAAGCCATTGGTTAATCTTAGACTCTTTCTTTCTCTTGGCTCACTTCACTCTCCTTTTTTTAGGTGAGAGTGAGTTATTATATGTATGTGTCATTTTTGCCTTTTCAGATGCCTTACTTAACCAACGCAGAAGAGAATAGGATTCCTGCAAGATTGTTTCTGTGAGGGTTCTTGTCTGATTCTGGAACTTTGAAGCATAGCGGTTGATGTCCCTTTTTTCTCTCCTCTGTTTCAAAGCCACACGGCACTTTTGGCACCTTTATCCTGTGAGAACCAATTTTTTCTTTGATGCAGGAAACTACTTGTGTGTATTTTGAAGAGCTTCTATAGATTTGATACGTTTAACGCATAAAAACAGCTCAAGTTTGTGAAGTGGAACAAGCTGCCATGGCAACCTCTAAATCCCAACAATTCCAGCTAATTGAAGGGATGGAGCTTCAGATCACCGTCACTGGATTGCCGAATGGGAGCAGTGTAAGAGCTGAGTTTCACCTGAAGAACTGCACTCGCGCATGGATTCTTCATTGGGGTTGTATTTACCAAGGAAATAACCATTGGTATATCCCATCTGAACATTCCTCGAAGCAAGGTGCATTGCAGACTACCTTTGTGAAGAGTGGGGATGCATATGTAGTGATCCTTGAGTTGCGGGATCCAAGGGTACGCGCAATTGAATTTGTTTTGAAAGATGGTAGCCATAACAGATGGTTGAGACAGCATAATGGAAACTTCCGTGTTGAGATTCCCTGGAATGATCTGCATGCTCATCATCGGATACCGAAGACTCTGATAGAAAGAAGAGCACATAAGATATGGGACCGGAAGGGACGACCACAAAGCTCTGCACGTGAACAACAGATAGACTATGACAATGCAGTAAGAGAGCTCCACGCCGAGCTCGCTAGAGGAATATCTTTAGACGAACTTCAGGCTAACTCTACAGTACCAGTGGAGAAAGAAGAAACCAGTGAGCCACATCACACAATGATCCAATCATATCGCCGGAAGCATGATGTTCAGAAATGGTTACAGAAATATACGGAACCAATCAACAGAAGTGGAAGTGTGAAAAGTTCAGCCCTTGCAGAACTCTCCAAGAGATCTGTGGGCCAAGAAAATCTAGTTTCACAGAAAAGCTTTCATGTCAGAAACTACGAGATCACGGTCCTCCAAAGGGATGTTAAGGGAGATTGTCGCTTATGGATTGCCACGAACATGGCAGGTCCAACAGTTCTCCATTGGGGAGTCGCAAAGTCATCTGCAGGAGAGTGGTTGATACCACCACCTGACGTGTTACCTGAGAAATCAAAATTTGTTCACGGAGCATGTCAAACACAATTTACCGATATGTCGAGCAGAGAACACTCTTATCAGTTTATTGATATAAATTTAAAACGAGGTGGTTTTGTTGGTATCCAATTTGTAATATGGTCGGGAGGCTACTGGGTGAACAATAACGGAGCCAACTTCGTTGTAAACCTGAAGTCAGCAGACAGTACCAGTGGTAAGCTTGACGTGGATGAAAAGTATGTTCTCAAATGGTTACTTGATGAAATATCTGAGCGAGAGAAAGAGGCTGAGAGATCATTGATGCACAGGTTCAACATTGCAACAGAGTTGACCGAGCGTTGTAAGGATGAAGGAGAAGGTGGATGTATTGGTATAATGGTGTGGATGAGATTCATGGCCACCAGACATCTCACCTGGAATAAGAACTATAACGTGAAACCTCGGGAAATTAGTGAAGCACTAGAAAGATTCACCAATTTGATGGAGAAAATATATTTGCAGCAACCAAATAAGAGAGAAATTGTGAGACTAACTATGGCACTTGTGGGTCGTGGAGGTCAAGGTGATGTTGGGCAGAGAATCCGTGACGAAATCCTTGTTATTCAGAGAAATAACCACTGCAAATCCGGCATGATGGAAGAGTGGCACCAAAAGTTGCACAACAACAGTAGCGCAGATGATGTGATAATTTGTGAGGCTCTCTTGAACTATGTGAGATCTGACTTCAGGATCGATGCATACTGGCAAACACTACAGACCAATGGTCTCACAAAAGAAAGGCTTGCAAGTTATGACCGCCCCATAGTATCAGAGCCTCGTTTCAGAAGTGATTCTAAAGAAGGACTCATCCGTGACCTTACAATGTACTTGAAAACATTAAAGGCAGTTCATTCAGGTGCAGACCTTGAGTCTGCTATTGATACGTTCCTTTCTCCATCTAAGGGTCATCATGTCTTTGCTGTCAATGGTTTATCACCAAAATTGCAGGATCTACTGAATTTAGTTAAGAGGCTTGTTCGCGAAGAGAACACTGAGCCCCTAATAGAGAAGTTAGTTGATGCTCGCATTCAGTTACACCCTGCACTACGAGCACCTCGCACGAGGGCAAAAGATTTACTATTTTTGGACATTGCGTTGGAGTCATGTTTTAAAACAACAATAGAGAAGAGACTCATCTCTTTAAACTTCAATAACCCACCGGAAATTATATATGTCATCTGCGTGGTGCTTGAGAATCTGTGCTTATCTATAGTTAACAATGAAGAAATCATATTCTGTACAAAGGATTGGTACCGTGTCAGCGAGGCTTACAGACCTCATGATGTTCAGTGGGCATTGCAAACAAAAGCGGTCCTTGACCGTTTACAACTAGTACTTGCTGATAGATGTCAGCATTATTTTACAATAATACAGCCTACTGCAAAATATCTTGGTCAACTGTTACGTGTTGACAAGCATGGGATTGATGTTTTCACTGAAGAGGTTATAAGAGCAGGGCCAGGAGCCGTTTTATCAACTCTTGTAAACAGATTTGATCCTTCTCTAAGGAAAATCGCGAATTTAGGCTGTTGGCAGGTTATCAGCTCGGCTGATGCATATGGGTTTGTGGTTTGTGTGAATGAGTTAATTGTTGTTCAGAACAAATTCTACTCGAAGCCAACTGTAATTATTGCAAGTAAAGTCACAGGAGAAGAGGAGATCCCTGCTGGTGTTGTAGCCGTGCTGACTCCTAGTATGATTGATGTCTTGTCTCATGTATCTATTAGAGCAAGAAACAGCAAGATATGCTTTGCTACATGCTTCGATCAGAATGTTCTCAGCAATCTGAAGTCGAAGGAAGGGAGAGCAATATCTATTCATACAAAGTCTACTGGTTTAGTTATCAGTGATGGCAACAACTCTGATGTCTCTGTTCGTCATATTTTTATTTCCTCTGTTCCACGGGGAGTGATCTCTAAGGGGAAGAAGTTTTGTGGCCACTATGTGATTTCATCTAAGGAATTCACTGATGAAAGGGTTGGCTCAAAATCATACAATATAAAATTTCTACGTGAAAGAGTTCCATCATGGATCAAGATACCTACCTCAGCTGCTCTTCCATTCGGAACATTTGAGAATATACTCTCAGATGATTCCAATAAGGATGTAGCACGCAGGATTTCTGTCCTTAAAGATTCTCTTAACAGAGGAGACCTGACAAAACTTAAGTCCATTCAAGAAGCTATCTTACAAATGAGTGCTCCAATGGCTCTGAGAAATGAACTGATCACAAAATTGAGAAGTGAAAGAATGCCTTATCTTGGTGATGAATCAGGCTGGAACCGCTCCTGGGTGGCAATTAAGAAGGTCTGGGCTTCAAAGTGGAACGAGAGAGCTTATGTCAGTTGCAAAAAAAATAAGCTTGATCATGATGCGGTCTGCATGGCTGTGCTGATTCAAGAAGTCATTTGTGGCGATTATGCTTTCGTCATTCACACAAACAATCCGGTCTCTGGTGACTCTTCAGAAATATACACAGAGATTGTGAAGGGTTTGGGAGAGACCTTGGTTGGAGCATATCCAGGACGAGCAATGAGCTTCATCACCAAGAAAACAAACCTCAAGTCTCCAACCGTGATCAGTTACCCAAGTAAGAGGATAGGTCTGTATTCTAAACCCTCAATCATATTCAGATCAGATTCAAACAACGAGGATCTCGAAGGCAACGCAGGCGCTGGACTTTACGACAGTGTGATAATGGATGAAGCAGAGGAAGTAGTGGTGGATTACTCAAGGGAGCCACTAATAATGGACAAATCCTTTCGAGTGCGTCTATTCTCAGCGATTGCAGAAGCTGGAAATGTGATAGAGTCAATCTATGGTTGTCCTCAAGACATTGAAGGTGTTGTCAAAGGTGGACATATCTACATCGTCCAAGCTAGACCCCAAGTTTAAGCTCTCTTTTTCTACTTGTACCATTCCCTAAGTTTTCAATCAAATCTTATAATTACAAGCTAATCTTTTATATGTTTGCTATTACACATGTAATATTTCTACATCATGGCACACTCCTGATACAAACAAACATGATTCAAAGTTTCATAATAAATGATTGTGTGATAAAAATCCAAA - >AT4G24450.1
AACTGATTGGTCTCAAAGCCATTGGTTAATCTTAGACTCTTTCTTTCTCTTGGCTCACTTCACTCTCCTTTTTTTAGGTGAGAGTGAGTTATTATATGTATGTGTCATTTTTGCCTTTTCAGATGCCTTACTTAACCAACGCAGAAGAGAATAGGATTCCTGCAAGATTGTTTCTGTGAGGGTTCTTGTCTGATTCTGGAACTTTGAAGCATAGCGGTTGATGTCCCTTTTTTCTCTCCTCTGTTTCAAAGCCACACGGCACTTTTGGCACCTTTATCCTGTGAGAACCAATTTTTTCTTTGATGCAGGAAACTACTTGTGTGTATTTTGAAGAGCTTCTATAGATTTGATACGTTTAACGCATAAAAACAGCTCAAGTTTGTGAAGTGGAACAAGCTGCCATGGCAACCTCTAAATCCCAACAATTCCAGCTAATTGAAGGGATGGAGCTTCAGATCACCGTCACTGGATTGCCGAATGGGAGCAGTGTAAGAGCTGAGTTTCACCTGAAGAACTGCACTCGCGCATGGATTCTTCATTGGGGTTGTATTTACCAAGGAAATAACCATTGGTATATCCCATCTGAACATTCCTCGAAGCAAGGTGCATTGCAGACTACCTTTGTGAAGAGTGGGGATGCATATGTAGTGATCCTTGAGTTGCGGGATCCAAGGGTACGCGCAATTGAATTTGTTTTGAAAGATGGTAGCCATAACAGATGGTTGAGACAGCATAATGGAAACTTCCGTGTTGAGATTCCCTGGAATGATCTGCATGCTCATCATCGGATACCGAAGACTCTGATAGAAAGAAGAGCACATAAGATATGGGACCGGAAGGGACGACCACAAAGCTCTGCACGTGAACAACAGATAGACTATGACAATGCAGTAAGAGAGCTCCACGCCGAGCTCGCTAGAGGAATATCTTTAGACGAACTTCAGGCTAACTCTACAGTACCAGTGGAGAAAGAAGAAACCAGTGAGCCACATCACACAATGATCCAATCATATCGCCGGAAGCATGATGTTCAGAAATGGTTACAGAAATATACGGAACCAATCAACAGAAGTGGAAGTGTGAAAAGTTCAGCCCTTGCAGAACTCTCCAAGAGATCTGTGGGCCAAGAAAATCTAGTTTCACAGAAAAGCTTTCATGTCAGAAACTACGAGATCACGGTCCTCCAAAGGGATGTTAAGGGAGATTGTCGCTTATGGATTGCCACGAACATGGCAGGTCCAACAGTTCTCCATTGGGGAGTCGCAAAGTCATCTGCAGGAGAGTGGTTGATACCACCACCTGACGTGTTACCTGAGAAATCAAAATTTGTTCACGGAGCATGTCAAACACAATTTACCGATATGTCGAGCAGAGAACACTCTTATCAGTTTATTGATATAAATTTAAAACGAGGTGGTTTTGTTGGTATCCAATTTGTAATATGGTCGGGAGGCTACTGGGTGAACAATAACGGAGCCAACTTCGTTGTAAACCTGAAGTCAGCAGACAGTACCAGTGGTAAGCTTGACGTGGATGAAAAGTATGTTCTCAAATGGTTACTTGATGAAATATCTGAGCGAGAGAAAGAGGCTGAGAGATCATTGATGCACAGGTTCAACATTGCAACAGAGTTGACCGAGCGTTGTAAGGATGAAGGAGAAGGTGGATGTATTGGTATAATGGTGTGGATGAGATTCATGGCCACCAGACATCTCACCTGGAATAAGAACTATAACGTGAAACCTCGGGAAATTAGTGAAGCACTAGAAAGATTCACCAATTTGATGGAGAAAATATATTTGCAGCAACCAAATAAGAGAGAAATTGTGAGACTAACTATGGCACTTGTGGGTCGTGGAGGTCAAGGTGATGTTGGGCAGAGAATCCGTGACGAAATCCTTGTTATTCAGAGAAATAACCACTGCAAATCCGGCATGATGGAAGAGTGGCACCAAAAGTTGCACAACAACAGTAGCGCAGATGATGTGATAATTTGTGAGGCTCTCTTGAACTATGTGAGATCTGACTTCAGGATCGATGCATACTGGCAAACACTACAGACCAATGGTCTCACAAAAGAAAGGCTTGCAAGTTATGACCGCCCCATAGTATCAGAGCCTCGTTTCAGAAGTGATTCTAAAGAAGGACTCATCCGTGACCTTACAATGTACTTGAAAACATTAAAGGCAGTTCATTCAGGTGCAGACCTTGAGTCTGCTATTGATACGTTCCTTTCTCCATCTAAGGGTCATCATGTCTTTGCTGTCAATGGTTTATCACCAAAATTGCAGGATCTACTGAATTTAGTTAAGAGGCTTGTTCGCGAAGAGAACACTGAGCCCCTAATAGAGAAGTTAGTTGATGCTCGCATTCAGTTACACCCTGCACTACGAGCACCTCGCACGAGGGCAAAAGATTTACTATTTTTGGACATTGCGTTGGAGTCATGTTTTAAAACAACAATAGAGAAGAGACTCATCTCTTTAAACTTCAATAACCCACCGGAAATTATATATGTCATCTGCGTGGTGCTTGAGAATCTGTGCTTATCTATAGTTAACAATGAAGAAATCATATTCTGTACAAAGGATTGGTACCGTGTCAGCGAGGCTTACAGACCTCATGATGTTCAGTGGGCATTGCAAACAAAAGCGGTCCTTGACCGTTTACAACTAGTACTTGCTGATAGATGTCAGCATTATTTTACAATAATACAGCCTACTGCAAAATATCTTGGTCAACTGTTACGTGTTGACAAGCATGGGATTGATGTTTTCACTGAAGAGGTTATAAGAGCAGGGCCAGGAGCCGTTTTATCAACTCTTGTAAACAGATTTGATCCTTCTCTAAGGAAAATCGCGAATTTAGGCTGTTGGCAGGTTATCAGCTCGGCTGATGCATATGGGTTTGTGGTTTGTGTGAATGAGTTAATTGTTGTTCAGAACAAATTCTACTCGAAGCCAACTGTAATTATTGCAAGTAAAGTCACAGGAGAAGAGGAGATCCCTGCTGGTGTTGTAGCCGTGCTGACTCCTAGTATGATTGATGTCTTGTCTCATGTATCTATTAGAGCAAGAAACAGCAAGATATGCTTTGCTACATGCTTCGATCAGAATGTTCTCAGCAATCTGAAGTCGAAGGAAGGGAGAGCAATATCTATTCATACAAAGTCTACTGGTTTAGTTATCAGTGATGGCAACAACTCTGATGTCTCTGTTCGTCATATTTTTATTTCCTCTGTTCCACGGGGAGTGATCTCTAAGGGGAAGAAGTTTTGTGGCCACTATGTGATTTCATCTAAGGAATTCACTGATGAAAGGGTTGGCTCAAAATCATACAATATAAAATTTCTACGTGAAAGAGTTCCATCATGGATCAAGATACCTACCTCAGCTGCTCTTCCATTCGGAACATTTGAGAATATACTCTCAGATGATTCCAATAAGGATGTAGCACGCAGGATTTCTGTCCTTAAAGATTCTCTTAACAGAGGAGACCTGACAAAACTTAAGTCCATTCAAGAAGCTATCTTACAAATGAGTGCTCCAATGGCTCTGAGAAATGAACTGATCACAAAATTGAGAAGTGAAAGAATGCCTTATCTTGGTGATGAATCAGGCTGGAACCGCTCCTGGGTGGCAATTAAGAAGGTCTGGGCTTCAAAGTGGAACGAGAGAGCTTATGTCAGTTGCAAAAAAAATAAGCTTGATCATGATGCGGTCTGCATGGCTGTGCTGATTCAAGAAGTCATTTGTGGCGATTATGCTTTCGTCATTCACACAAACAATCCGGTCTCTGGTGACTCTTCAGAAATATACACAGAGATTGTGAAGGGTTTGGGAGAGACCTTGGTTGGAGCATATCCAGGACGAGCAATGAGCTTCATCACCAAGAAAACAAACCTCAAGTCTCCAACCGTGATCAGTTACCCAAGTAAGAGGATAGGTCTGTATTCTAAACCCTCAATCATATTCAGATCAGATTCAAACAACGAGGATCTCGAAGGCAACGCAGGCGCTGGACTTTACGACAGTGTGATAATGGATGAAGCAGAGGAAGTAGTGGTGGATTACTCAAGGGAGCCACTAATAATGGACAAATCCTTTCGAGTGCGTCTATTCTCAGCGATTGCAGAAGCTGGAAATGTGATAGAGTCAATCTATGGTTGTCCTCAAGACATTGAAGGTGTTGTCAAAGGTGGACATATCTACATCGTCCAAGCTAGACCCCAAGTTTAAGCTCTCTTTTTCTACTTGTACCATTCCCTAAGTTTTCAATCAAATCTTATAATTACAAGCTAATCTTTTATATGTTTGCTATTACACATGTAATATTTCTACATCATGGCACACTCCTGATACAAACAAACATGATTCAAAGTTTCATAATAAATGATTGTGTGATAAAAATCCAAA - >AT4G24450.2
AACTGATTGGTCTCAAAGCCATTGGTTAATCTTAGACTCTTTCTTTCTCTTGGCTCACTTCACTCTCCTTTTTTTAGGTGAGAGTGAGTTATTATATGTATGTGTCATTTTTGCCTTTTCAGATGCCTTACTTAACCAACGCAGAAGAGAATAGGATTCCTGCAAGATTGTTTCTGTGAGGGTTCTTGTCTGATTCTGGAACTTTGAAGCATAGCGGTTGATGTCCCTTTTTTCTCTCCTCTGTTTCAAAGCCACACGGCACTTTTGGCACCTTTATCCTGTGAGAACCAATTTTTTCTTTGATGCAGGAAACTACTTGTGTGTATTTTGAAGAGCTTCTATAGATTTGATACGTTTAACGCATAAAAACAGCTCAAGTTTGTGAAGTGGAACAAGCTGCCATGGCAACCTCTAAATCCCAACAATTCCAGCTAATTGAAGGGATGGAGCTTCAGATCACCGTCACTGGATTGCCGAATGGGAGCAGTGTAAGAGCTGAGTTTCACCTGAAGAACTGCACTCGCGCATGGATTCTTCATTGGGGTTGTATTTACCAAGGAAATAACCATTGGTATATCCCATCTGAACATTCCTCGAAGCAAGGTGCATTGCAGACTACCTTTGTGAAGAGTGGGGATGCATATGTAGTGATCCTTGAGTTGCGGGATCCAAGGGTACGCGCAATTGAATTTGTTTTGAAAGATGGTAGCCATAACAGATGGTTGAGACAGCATAATGGAAACTTCCGTGTTGAGATTCCCTGGAATGATCTGCATGCTCATCATCGGATACCGAAGACTCTGATAGAAAGAAGAGCACATAAGATATGGGACCGGAAGGGACGACCACAAAGCTCTGCACGTGAACAACAGATAGACTATGACAATGCAGTAAGAGAGCTCCACGCCGAGCTCGCTAGAGGAATATCTTTAGACGAACTTCAGGCTAACTCTACAGTACCAGTGGAGAAAGAAGAAACCAGTGAGCCACATCACACAATGATCCAATCATATCGCCGGAAGCATGATGTTCAGAAATGGTTACAGAAATATACGGAACCAATCAACAGAAGTGGAAGTGTGAAAAGTTCAGCCCTTGCAGAACTCTCCAAGAGATCTGTGGGCCAAGAAAATCTAGTTTCACAGAAAAGCTTTCATGTCAGAAACTACGAGATCACGGTCCTCCAAAGGGATGTTAAGGGAGATTGTCGCTTATGGATTGCCACGAACATGGCAGGTCCAACAGTTCTCCATTGGGGAGTCGCAAAGTCATCTGCAGGAGAGTGGTTGATACCACCACCTGACGTGTTACCTGAGAAATCAAAATTTGTTCACGGAGCATGTCAAACACAATTTACCGATATGTCGAGCAGAGAACACTCTTATCAGTTTATTGATATAAATTTAAAACGAGGTGGTTTTGTTGGTATCCAATTTGTAATATGGTCGGGAGGCTACTGGGTGAACAATAACGGAGCCAACTTCGTTGTAAACCTGAAGTCAGCAGACAGTACCAGTGGTAAGCTTGACGTGGATGAAAAGTATGTTCTCAAATGGTTACTTGATGAAATATCTGAGCGAGAGAAAGAGGCTGAGAGATCATTGATGCACAGGTTCAACATTGCAACAGAGTTGACCGAGCGTTGTAAGGATGAAGGAGAAGGTGGATGTATTGGTATAATGGTGTGGATGAGATTCATGGCCACCAGACATCTCACCTGGAATAAGAACTATAACGTGAAACCTCGGGAAATTAGTGAAGCACTAGAAAGATTCACCAATTTGATGGAGAAAATATATTTGCAGCAACCAAATAAGAGAGAAATTGTGAGACTAACTATGGCACTTGTGGGTCGTGGAGGTCAAGGTGATGTTGGGCAGAGAATCCGTGACGAAATCCTTGTTATTCAGAGAAATAACCACTGCAAATCCGGCATGATGGAAGAGTGGCACCAAAAGTTGCACAACAACAGTAGCGCAGATGATGTGATAATTTGTGAGGCTCTCTTGAACTATGTGAGATCTGACTTCAGGATCGATGCATACTGGCAAACACTACAGACCAATGGTCTCACAAAAGAAAGGCTTGCAAGTTATGACCGCCCCATAGTATCAGAGCCTCGTTTCAGAAGTGATTCTAAAGAAGGACTCATCCGTGACCTTACAATGTACTTGAAAACATTAAAGGCAGTTCATTCAGGTGCAGACCTTGAGTCTGCTATTGATACGTTCCTTTCTCCATCTAAGGGTCATCATGTCTTTGCTGTCAATGGTTTATCACCAAAATTGCAGGATCTACTGAATTTAGTTAAGAGGCTTGTTCGCGAAGAGAACACTGAGCCCCTAATAGAGAAGTTAGTTGATGCTCGCATTCAGTTACACCCTGCACTACGAGCACCTCGCACGAGGGCAAAAGATTTACTATTTTTGGACATTGCGTTGGAGTCATGTTTTAAAACAACAATAGAGAAGAGACTCATCTCTTTAAACTTCAATAACCCACCGGAAATTATATATGTCATCTGCGTGGTGCTTGAGAATCTGTGCTTATCTATAGTTAACAATGAAGAAATCATATTCTGTACAAAGGATTGGTACCGTGTCAGCGAGGCTTACAGACCTCATGATGTTCAGTGGGCATTGCAAACAAAAGCGGTCCTTGACCGTTTACAACTAGTACTTGCTGATAGATGTCAGCATTATTTTACAATAATACAGCCTACTGCAAAATATCTTGGTCAACTGTTACGTGTTGACAAGCATGGGATTGATGTTTTCACTGAAGAGGTTATAAGAGCAGGGCCAGGAGCCGTTTTATCAACTCTTGTAAACAGATTTGATCCTTCTCTAAGGAAAATCGCGAATTTAGGCTGTTGGCAGGTTATCAGCTCGGCTGATGCATATGGGTTTGTGGTTTGTGTGAATGAGTTAATTGTTGTTCAGAACAAATTCTACTCGAAGCCAACTGTAATTATTGCAAGTAAAGTCACAGGAGAAGAGGAGATCCCTGCTGGTGTTGTAGCCGTGCTGACTCCTAGTATGATTGATGTCTTGTCTCATGTATCTATTAGAGCAAGAAACAGCAAGATATGCTTTGCTACATGCTTCGATCAGAATGTTCTCAGCAATCTGAAGTCGAAGGAAGGGAGAGCAATATCTATTCATACAAAGTCTACTGGTTTAGTTATCAGTGATGGCAACAACTCTGATGTCTCTGTTCGTCATATTTTTATTTCCTCTGTTCCACGGGGAGTGATCTCTAAGGGGAAGAAGTTTTGTGGCCACTATGTGATTTCATCTAAGGAATTCACTGATGAAAGGGTTGGCTCAAAATCATACAATATAAAATTTCTACGTGAAAGAGTTCCATCATGGATCAAGATACCTACCTCAGCTGCTCTTCCATTCGGAACATTTGAGAATATACTCTCAGATGATTCCAATAAGGATGTAGCACGCAGGATTTCTGTCCTTAAAGATTCTCTTAACAGAGGAGACCTGACAAAACTTAAGTCCATTCAAGAAGCTATCTTACAAATGAGTGCTCCAATGGCTCTGAGAAATGAACTGATCACAAAATTGAGAAGTGAAAGAATGCCTTATCTTGGTGATGAATCAGGCTGGAACCGCTCCTGGGTGGCAATTAAGAAGGTCTGGGCTTCAAAGTGGAACGAGAGAGCTTATGTCAGTTGCAAAAAAAATAAGCTTGATCATGATGCGGTCTGCATGGCTGTGCTGATTCAAGAAGTCATTTGTGGCGATTATGCTTTCGTCATTCACACAAACAATCCGGTCTCTGGTGACTCTTCAGAAATATACACAGAGATTGTGAAGGGTTTGGGAGAGACCTTGGTTGGAGCATATCCAGGACGAGCAATGAGCTTCATCACCAAGAAAACAAACCTCAAGTCTCCAACCGTGATCAGTTACCCAAGTAAGAGGATAGGTCTGTATTCTAAACCCTCAATCATATTCAGATCAGATTCAAACAACGAGGATCTCGAAGGCAACGCAGGCGCTGGACTTTACGACAGTGTGATAATGGATGAAGCAGAGGAAGTAGTGGTGGATTACTCAAGGGAGCCACTAATAATGGACAAATCCTTTCGAGTGCGTCTATTCTCAGCGATTGCAGAAGCTGGAAATGTGATAGAGTCAATCTATGGTTGTCCTCAAGACATTGAAGGTGTTGTCAAAGGTGGACATATCTACATCGTCCAAGCTAGACCCCAAGTTTAAGCTCTCTTTTTCTACTTGTACCATTCCCTAAGTTTTCAATCAAATCTTATAATTACAAGCTAATCTTTTATATGTTTGCTATTACACATGTAATATTTCTACATCATGGCACACTCCTGATACAAACAAACATGATTCAAAGTTTCATAATAAATGATTGTGTGATAAAAATCCAAA
CDS Sequence
Protein Sequence