Information report for AT5G09410
Gene Details
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Functional Descriptions
- PO:0009001 — fruit — frucht (exact, German), fruto (exact, Spanish), 果実 (exact, Japanese), coenocarp (narrow), syncarp (narrow), aggregate fruit (broad), compound fruit (broad), dehiscent fruit (broad), diaspore (broad), indehiscent fruit (broad), multiple fruit (broad), propagule (broad)
- PO:0009010 — seed — semilla (Spanish, exact), 種子 (Japanese, exact), pyrene (narrow), diaspore (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:0009005 — root — raíz (Spanish, exact), radices (exact, plural), radix (exact), 根 (Japanese, exact), aerial root (narrow), climbing root (narrow)
- GO:0045893 — involved in — positive regulation of DNA-templated transcription
- GO:0005516 — enables — calmodulin binding
- GO:0006357 — involved in — regulation of transcription by RNA polymerase II
- GO:0009733 — involved in — response to auxin
- GO:0006355 — acts upstream of or within — regulation of DNA-templated transcription
- GO:0050826 — acts upstream of or within — response to freezing
- GO:0050826 — involved in — response to freezing
- GO:0009409 — acts upstream of or within — response to cold
- GO:0009414 — involved in — response to water deprivation
- GO:0045893 — acts upstream of or within — positive regulation of DNA-templated transcription
- GO:0005737 — located in — cytoplasm
- GO:0003677 — enables — DNA binding
- GO:0005634 — is active in — nucleus
- GO:0003690 — enables — double-stranded DNA binding
- GO:0003712 — enables — transcription coregulator activity
- GO:0005634 — located in — nucleus
- CS71603 — Elevated salicylic acid glucoside (SAG) levels and transcript levels of salicylic acid (SA) pathway genes when grown at 22C. Impaired cold induction of CBF genes and freezing tolerance.
- CS71605 — Small plants. Elevated salicylic acid (SA) and salicylic acid glucoside (SAG) levels as well as transcript levels of SA pathway genes when grown at 22C. Impaired cold induction of CBF genes and freezing tolerance.
- CS71606 — Tiny plants. Elevated salicylic acid (SA) and salicylic acid glucoside (SAG) levels as well as transcript levels of SA pathway genes when grown at 22C.
- camta1/2/3 — higher levels of SA and SAG as compared to wt when grown in warm temperature (22C)
- camta1/3 — higher levels of SA and SAG as compared to wt when grown in warm temperature (22C)
Functional Keywords
- fruit , seed , vascular leaf , root
Literature and News
- Genes encoding calmodulin-binding proteins in the Arabidopsis genome. DOI: 10.1074/jbc.M111626200 ; PMID: 11782485
- A novel family of calmodulin-binding transcription activators in multicellular organisms. DOI: 10.1074/jbc.M200268200 ; PMID: 11925432
- A calmodulin-binding/CGCG box DNA-binding protein family involved in multiple signaling pathways in plants. DOI: 10.1074/jbc.M207941200 ; PMID: 12218065
- Gene expression in response to endoplasmic reticulum stress in Arabidopsis thaliana. DOI: 10.1111/j.1742-4658.2005.04770.x ; PMID: 15978049
- Isolation of a calmodulin-binding transcription factor from rice (Oryza sativa L.). DOI: 10.1074/jbc.M504616200 ; PMID: 16192280
- Expression profiling of auxin-treated Arabidopsis roots: toward a molecular analysis of lateral root emergence. DOI: 10.1093/pcp/pcj043 ; PMID: 16621846
- Transcriptome analyses show changes in gene expression to accompany pollen germination and tube growth in Arabidopsis. DOI: 10.1104/pp.108.126375 ; PMID: 18775970
- Roles for Arabidopsis CAMTA transcription factors in cold-regulated gene expression and freezing tolerance. DOI: 10.1105/tpc.108.063958 ; PMID: 19270186
- Calcium-dependent protein kinases from Arabidopsis show substrate specificity differences in an analysis of 103 substrates. DOI: 10.3389/fpls.2011.00036 ; PMID: 22645532
- Roles of CAMTA transcription factors and salicylic acid in configuring the low-temperature transcriptome and freezing tolerance of Arabidopsis. DOI: 10.1111/tpj.12205 ; PMID: 23581962
- The cysteine2/histidine2-type transcription factor ZINC FINGER OF ARABIDOPSIS THALIANA 6-activated C-REPEAT-BINDING FACTOR pathway is essential for melatonin-mediated freezing stress resistance in Arabidopsis. DOI: 10.1111/jpi.12155 ; PMID: 24962049
- Different Cold-Signaling Pathways Function in the Responses to Rapid and Gradual Decreases in Temperature. DOI: 10.1105/tpc.16.00669 ; PMID: 28351986
- The Mediator kinase module serves as a positive regulator of salicylic acid accumulation and systemic acquired resistance. DOI: 10.1111/tpj.14278 ; PMID: 30739357
- Arabidopsis CAMTA Transcription Factors Regulate Pipecolic Acid Biosynthesis and Priming of Immunity Genes. DOI: 10.1016/j.molp.2019.11.001 ; PMID: 31733370
- A calmodulin-binding/CGCG box DNA-binding protein family involved in multiple signaling pathways in plants. DOI: 10.1074/jbc.M207941200 ; PMID: 12218065
Gene Resources
Sequences
cDNA Sequence
- >AT5G09410.2
TACGTGTCGGAGGTTTATTGGTGGTTACGTGGTCCAAATCAGTGTTTAAAAACAAAGCGATTTACTTCGGTTCTCTTCCTCGGTCTCGCTTCAATAAAAAAAGGAAAAAAAAAATCGGTATCGTTTTCACACCTGGATATAGCCCGAAACGAAGGAAACAAGATTATAAGCTTCTCAGTTCATGCATACTCAGATCGGTTAGGGTTCGTTGATTCTCTTTTTGATTACGAAAGCTTAAGATCTCTTTTGGTGGATTTTTGGGTTTATCCATCTATGGTGGATCGCAGATCTTTTGGCTCTATAACTCCTCCTCTCCAATTAGATATGGAACAGTTGCTGTCAGAAGCCCAACACAGGTGGCTTAGGCCTACTGAGATTTGTGAAATTCTTCAGAACTATCACAAGTTTCATATAGCATCAGAGTCTCCCACCCGACCCGCCAGTGGTTCACTTTTTCTTTTTGATAGGAAGGTACTGAGATATTTTAGGAAAGACGGACATAACTGGAGGAAGAAGAAAGATGGTAAAACCATAAGAGAAGCTCATGAGAAGCTCAAGGTAGGAAGCATAGATGTGCTACATTGTTACTATGCACATGGGGAAGCCAACGAGAATTTCCAGAGACGTTGCTACTGGATGCTTGAACAACATTTGATGCATATCGTTTTTGTGCACTACTTGGAGGTTAAGGGTAACCGGACCAGTATAGGAATGAAAGAAAACAATTCAAATTCTGTAAATGGCACAGCTTCAGTGAATATTGATTCAACAGCAAGCCCAACTAGCACATTGTCATCATTATGTGAAGATGCTGATACCGGGGATAGTCAACAAGCAAGTTCCGTCTTACGACCATCTCCTGAACCTCAAACTGGAAATCGCTATGGTTGGACACCTGCTCCTGGCATGCGTAATGTTTCACAGGTTCATGGGAACAGAGTCAGAGAAAGTGATTCCCAGAGATTAGTTGATGTCAGAGCTTTGGATACCGTTGGGAATTCGCTGACAAGATTTCATGATCAGCCTTATTGTAATAATTTGTTGACTCAGATGCAGCCTTCTAATACTGACTCAATGCTGGTGGAAGAAAATTCAGAAAAAGGTGGGCGGTTAAAGGCAGAGCATATCAGAAATCCTCTTCAAACTCAATTTAATTGGCAGGATGACACTGATCTGGCGTTATTTGAGCAAAGTGCACAAGATAATTTTGAGACATTTTCCAGTCTCCTTGGCAGTGAAAATCTGCAACCTTTTGGAATTAGTTATCAAGCTCCTCCTTCAAATATGGACTCTGAATATATGCCTGTAATGAAAATATTGCGAAGAAGCGAAGATAGTTTGAAAAAAGTCGATAGTTTTTCTAAGTGGGCTATTAAAGAACTTGGGGAGATGGAGGATTTGCAGATGCAGTCTTCACGTGGAGATATTGCATGGACCACTGTTGAATGTGAAACTGCAGCAGCTGGGATCTCCTTGAGCCCTTCTCTCTCTGAGGATCAGCGTTTCACCATAGTTGATTTTTGGCCAAAAAGTGCAAAGACAGACGCAGAAGTTGAGGTCATGGTTATTGGGACATTTCTACTTAGTCCGCAAGAAGTAACTAAATATAATTGGTCATGCATGTTTGGTGAAGTGGAAGTTCCTGCTGAGATTTTAGTAGATGGTGTTCTTTGCTGTCATGCTCCACCGCATACAGCTGGTCACGTCCCCTTTTATGTTACATGTTCCAACAGATTTGCTTGCAGTGAAGTACGAGAATTTGATTTCCTTTCTGGTTCTACCCAAAAAATCAATGCTACAGATGTTTATGGTACCTATACAAATGAAGCATCACTTCAGTTGCGGTTTGAGAAGATGCTTGCTCACAGGGATTTTGTTCACGAACACCATATATTCGAAGATGTTGGGGACAAACGAAGACAAATCAGTAAAATTATGTTGCTAAAGGAGGAGAAAGAGTATCTCCTTCCAGGGACATATCAGAGAGACTCAACCAAACAAGAACCAAAAGGACAGCTTTTTAGGGAACTGTTTGAAGAAGAACTATATATATGGCTCATACATAAAGTGACTGAAGAGGGTAAAGGTCCAAACATATTGGATGAAGATGGACAGGGTATTTTACACTTTGTTGCAGCGCTTGGGTATGACTGGGCCATTAAACCGGTGTTAGCAGCAGGAGTTAACATTAACTTCCGTGATGCCAATGGCTGGTCTGCCCTTCATTGGGCTGCGTTTAGTGGCAGGGAGGAAACTGTCGCTGTGCTTGTCTCTCTAGGTGCTGATGCTGGGGCATTAACGGATCCATCTCCAGAGCTTCCATTGGGTAAAACAGCAGCTGATTTGGCTTACGCAAATGGACACAGGGGAATTTCGGGATTTCTTGCAGAGTCTTCCTTAACTAGTTATCTTGAAAAGCTAACAGTGGACTCAAAGGAAAATAGCCCTGCCAACTCTTGTGGAGAAAAAGCTGTTCAAACAGTCTCTGAGCGAACCGCTGCTCCTATGACCTATGGCGATGTACCAGAGAAACTTTCCTTGAAGGATTCACTTACTGCTGTCCGTAATGCTACGCAAGCGGCTGATCGTCTCCATCAAGTATTCAGGATGCAATCATTCCAACGGAAACAGCTGTGTGATATTGGCGATGATGAAAAGATTGATATCTCCGACCAGTTAGCTGTTTCTTTTGCAGCTTCTAAAACTAAGAATCCAGGACAGGGTGATGTCTCTCTTAGTTGTGCTGCTACCCATATCCAGAAGAAATATCGTGGTTGGAAGAAGAGAAAAGAGTTTCTTTTAATCCGACAAAGAATCGTTAAAATTCAGGCTCATGTGAGAGGACATCAGGTCCGGAAACAATACCGAACAGTCATCTGGTCTGTGGGATTACTCGAGAAAATCATTTTGCGTTGGAGACGCAAAGGTAATGGTTTGAGAGGGTTTAAACGCAATGCAGTCGCCAAAACCGTGGAACCGGAACCGCCTGTATCAGCTATATGTCCTAGGATCCCACAGGAAGATGAGTATGATTATCTTAAAGAGGGAAGAAAACAAACAGAGGAAAGGCTACAGAAGGCTCTGACTCGTGTTAAGTCGATGGTTCAATACCCAGAAGCACGGGATCAATACCGTAGACTCCTAACGGTTGTTGAGGGCTTCCGTGAAAATGAGGCTTCATCAAGTGCATCTATAAACAATAAAGAAGAAGAAGCAGTCAACTGTGAAGAAGACGATTTTATTGACATTGAGTCTCTTTTGAACGATGACACATTGATGATGTCTATTTCTCCTTGATTTTACTTTCTGACTCGTATTCATTTTTCCTTCTTTTACTTTCTAACTTTATTTCTTCTCTGTAAATACCATAGTTGATATTTACCGCTTAATTTATTACTTGGATTGAAATAGAATTATTCACTATTTTCTTTCGTCTTAACAATATATAACTTTTTTATTTGTTCATTTGGCT - >AT5G09410.4
TACGTGTCGGAGGTTTATTGGTGGTTACGTGGTCCAAATCAGTGTTTAAAAACAAAGCGATTTACTTCGGTTCTCTTCCTCGGTCTCGCTTCAATAAAAAAAGGAAAAAAAAAATCGGTATCGTTTTCACACCTGGATATAGCCCGAAACGAAGGAAACAAGATTATAAGCTTCTCAGTTCATGCATACTCAGATCGGTTAGGGTTCGTTGATTCTCTTTTTGATTACGAAAGCTTAAGATCTCTTTTGGTGGATTTTTGGGTTTATCCATCTATGGTGGATCGCAGATCTTTTGGCTCTATAACTCCTCCTCTCCAATTAGATATGGAACAGTTGCTGTCAGAAGCCCAACACAGGTGGCTTAGGCCTACTGAGATTTGTGAAATTCTTCAGAACTATCACAAGTTTCATATAGCATCAGAGTCTCCCACCCGACCCGCCAGTGGTTCACTTTTTCTTTTTGATAGGAAGGTACTGAGATATTTTAGGAAAGACGGACATAACTGGAGGAAGAAGAAAGATGGTAAAACCATAAGAGAAGCTCATGAGAAGCTCAAGGTAGGAAGCATAGATGTGCTACATTGTTACTATGCACATGGGGAAGCCAACGAGAATTTCCAGAGACGTTGCTACTGGATGCTTGAACAACATTTGATGCATATCGTTTTTGTGCACTACTTGGAGGTTAAGGGTAACCGGACCAGTATAGGAATGAAAGAAAACAATTCAAATTCTGTAAATGGCACAGCTTCAGTGAATATTGATTCAACAGCAAGCCCAACTAGCACATTGTCATCATTATGTGAAGATGCTGATACCGGGGATAGTCAACAAGCAAGTTCCGTCTTACGACCATCTCCTGAACCTCAAACTGGAAATCGCTATGGTTGGACACCTGCTCCTGGCATGCGTAATGTTTCACAGGTTCATGGGAACAGAGTCAGAGAAAGTGATTCCCAGAGATTAGTTGATGTCAGAGCTTTGGATACCGTTGGGAATTCGCTGACAAGATTTCATGATCAGCCTTATTGTAATAATTTGTTGACTCAGATGCAGCCTTCTAATACTGACTCAATGCTGGTGGAAGAAAATTCAGAAAAAGGTGGGCGGTTAAAGGCAGAGCATATCAGAAATCCTCTTCAAACTCAATTTAATTGGCAGGATGACACTGATCTGGCGTTATTTGAGCAAAGTGCACAAGATAATTTTGAGACATTTTCCAGTCTCCTTGGCAGTGAAAATCTGCAACCTTTTGGAATTAGTTATCAAGCTCCTCCTTCAAATATGGACTCTGAATATATGCCTGTAATGAAAATATTGCGAAGAAGCGAAGATAGTTTGAAAAAAGTCGATAGTTTTTCTAAGTGGGCTATTAAAGAACTTGGGGAGATGGAGGATTTGCAGATGCAGTCTTCACGTGGAGATATTGCATGGACCACTGTTGAATGTGAAACTGCAGCAGCTGGGATCTCCTTGAGCCCTTCTCTCTCTGAGGATCAGCGTTTCACCATAGTTGATTTTTGGCCAAAAAGTGCAAAGACAGACGCAGAAGTTGAGGTCATGGTTATTGGGACATTTCTACTTAGTCCGCAAGAAGTAACTAAATATAATTGGTCATGCATGTTTGGTGAAGTGGAAGTTCCTGCTGAGATTTTAGTAGATGGTGTTCTTTGCTGTCATGCTCCACCGCATACAGCTGGTCACGTCCCCTTTTATGTTACATGTTCCAACAGATTTGCTTGCAGTGAAGTACGAGAATTTGATTTCCTTTCTGGTTCTACCCAAAAAATCAATGCTACAGATGTTTATGGTACCTATACAAATGAAGCATCACTTCAGTTGCGGTTTGAGAAGATGCTTGCTCACAGGGATTTTGTTCACGAACACCATATATTCGAAGATGTTGGGGACAAACGAAGACAAATCAGTAAAATTATGTTGCTAAAGGAGGAGAAAGAGTATCTCCTTCCAGGGACATATCAGAGAGACTCAACCAAACAAGAACCAAAAGGACAGCTTTTTAGGGAACTGTTTGAAGAAGAACTATATATATGGCTCATACATAAAGTGACTGAAGAGGGTAAAGGTCCAAACATATTGGATGAAGATGGACAGGGTATTTTACACTTTGTTGCAGCGCTTGGGTATGACTGGGCCATTAAACCGGTGTTAGCAGCAGGAGTTAACATTAACTTCCGTGATGCCAATGGCTGGTCTGCCCTTCATTGGGCTGCGTTTAGTGGCAGGGAGGAAACTGTCGCTGTGCTTGTCTCTCTAGGTGCTGATGCTGGGGCATTAACGGATCCATCTCCAGAGCTTCCATTGGGTAAAACAGCAGCTGATTTGGCTTACGCAAATGGACACAGGGGAATTTCGGGATTTCTTGCAGAGTCTTCCTTAACTAGTTATCTTGAAAAGCTAACAGTGGACTCAAAGGAAAATAGCCCTGCCAACTCTTGTGGAGAAAAAGCTGTTCAAACAGTCTCTGAGCGAACCGCTGCTCCTATGACCTATGGCGATGTACCAGAGAAACTTTCCTTGAAGGATTCACTTACTGCTGTCCGTAATGCTACGCAAGCGGCTGATCGTCTCCATCAAGTATTCAGGATGCAATCATTCCAACGGAAACAGCTGTGTGATATTGGCGATGATGAAAAGATTGATATCTCCGACCAGTTAGCTGTTTCTTTTGCAGCTTCTAAAACTAAGAATCCAGGACAGGGTGATGTCTCTCTTAGTTGTGCTGCTACCCATATCCAGAAGAAATATCGTGGTTGGAAGAAGAGAAAAGAGTTTCTTTTAATCCGACAAAGAATCGTTAAAATTCAGGCTCATGTGAGAGGACATCAGGTCCGGAAACAATACCGAACAGTCATCTGGTCTGTGGGATTACTCGAGAAAATCATTTTGCGTTGGAGACGCAAAGGTAATGGTTTGAGAGGGTTTAAACGCAATGCAGTCGCCAAAACCGTGGAACCGGAACCGCCTGTATCAGCTATATGTCCTAGGATCCCACAGGAAGATGAGTATGATTATCTTAAAGAGGGAAGAAAACAAACAGAGGAAAGGCTACAGAAGGCTCTGACTCGTGTTAAGTCGATGGTTCAATACCCAGAAGCACGGGATCAATACCGTAGACTCCTAACGGTTGTTGAGGGCTTCCGTGAAAATGAGGCTTCATCAAGTGCATCTATAAACAATAAAGAAGAAGAAGCAGTCAACTGTGAAGAAGACGATTTTATTGACATTGAGTCTCTTTTGAACGATGACACATTGATGATGTCTATTTCTCCTTGATTTTACTTTCTGACTCGTATTCATTTTTCCTTCTTTTACTTTCTAACTTTATTTCTTCTCTGTAAATACCATAGTTGATATTTACCGCTTAATTTATTACTTGGATTGAAATAGAATTATTCACTATTTTCTTTCGTCTTAACAATATATAACTTTTTTATTTGTTCATTTGGCT - >AT5G09410.3
TACGTGTCGGAGGTTTATTGGTGGTTACGTGGTCCAAATCAGTGTTTAAAAACAAAGCGATTTACTTCGGTTCTCTTCCTCGGTCTCGCTTCAATAAAAAAAGGAAAAAAAAAATCGGTATCGTTTTCACACCTGGATATAGCCCGAAACGAAGGAAACAAGATTATAAGCTTCTCAGTTCATGCATACTCAGATCGGTTAGGGTTCGTTGATTCTCTTTTTGATTACGAAAGCTTAAGATCTCTTTTGGTGGATTTTTGGGTTTATCCATCTATGGTGGATCGCAGATCTTTTGGCTCTATAACTCCTCCTCTCCAATTAGATATGGAACAGTTGCTGTCAGAAGCCCAACACAGGTGGCTTAGGCCTACTGAGATTTGTGAAATTCTTCAGAACTATCACAAGTTTCATATAGCATCAGAGTCTCCCACCCGACCCGCCAGTGGTTCACTTTTTCTTTTTGATAGGAAGGTACTGAGATATTTTAGGAAAGACGGACATAACTGGAGGAAGAAGAAAGATGGTAAAACCATAAGAGAAGCTCATGAGAAGCTCAAGGTAGGAAGCATAGATGTGCTACATTGTTACTATGCACATGGGGAAGCCAACGAGAATTTCCAGAGACGTTGCTACTGGATGCTTGAACAACATTTGATGCATATCGTTTTTGTGCACTACTTGGAGGTTAAGGGTAACCGGACCAGTATAGGAATGAAAGAAAACAATTCAAATTCTGTAAATGGCACAGCTTCAGTGAATATTGATTCAACAGCAAGCCCAACTAGCACATTGTCATCATTATGTGAAGATGCTGATACCGGGGATAGTCAACAAGCAAGTTCCGTCTTACGACCATCTCCTGAACCTCAAACTGGAAATCGCTATGGTTGGACACCTGCTCCTGGCATGCGTAATGTTTCACAGGTTCATGGGAACAGAGTCAGAGAAAGTGATTCCCAGAGATTAGTTGATGTCAGAGCTTTGGATACCGTTGGGAATTCGCTGACAAGATTTCATGATCAGCCTTATTGTAATAATTTGTTGACTCAGATGCAGCCTTCTAATACTGACTCAATGCTGGTGGAAGAAAATTCAGAAAAAGGTGGGCGGTTAAAGGCAGAGCATATCAGAAATCCTCTTCAAACTCAATTTAATTGGCAGGATGACACTGATCTGGCGTTATTTGAGCAAAGTGCACAAGATAATTTTGAGACATTTTCCAGTCTCCTTGGCAGTGAAAATCTGCAACCTTTTGGAATTAGTTATCAAGCTCCTCCTTCAAATATGGACTCTGAATATATGCCTGTAATGAAAATATTGCGAAGAAGCGAAGATAGTTTGAAAAAAGTCGATAGTTTTTCTAAGTGGGCTATTAAAGAACTTGGGGAGATGGAGGATTTGCAGATGCAGTCTTCACGTGGAGATATTGCATGGACCACTGTTGAATGTGAAACTGCAGCAGCTGGGATCTCCTTGAGCCCTTCTCTCTCTGAGGATCAGCGTTTCACCATAGTTGATTTTTGGCCAAAAAGTGCAAAGACAGACGCAGAAGTTGAGGTCATGGTTATTGGGACATTTCTACTTAGTCCGCAAGAAGTAACTAAATATAATTGGTCATGCATGTTTGGTGAAGTGGAAGTTCCTGCTGAGATTTTAGTAGATGGTGTTCTTTGCTGTCATGCTCCACCGCATACAGCTGGTCACGTCCCCTTTTATGTTACATGTTCCAACAGATTTGCTTGCAGTGAAGTACGAGAATTTGATTTCCTTTCTGGTTCTACCCAAAAAATCAATGCTACAGATGTTTATGGTACCTATACAAATGAAGCATCACTTCAGTTGCGGTTTGAGAAGATGCTTGCTCACAGGGATTTTGTTCACGAACACCATATATTCGAAGATGTTGGGGACAAACGAAGACAAATCAGTAAAATTATGTTGCTAAAGGAGGAGAAAGAGTATCTCCTTCCAGGGACATATCAGAGAGACTCAACCAAACAAGAACCAAAAGGACAGCTTTTTAGGGAACTGTTTGAAGAAGAACTATATATATGGCTCATACATAAAGTGACTGAAGAGGGTAAAGGTCCAAACATATTGGATGAAGATGGACAGGGTATTTTACACTTTGTTGCAGCGCTTGGGTATGACTGGGCCATTAAACCGGTGTTAGCAGCAGGAGTTAACATTAACTTCCGTGATGCCAATGGCTGGTCTGCCCTTCATTGGGCTGCGTTTAGTGGCAGGGAGGAAACTGTCGCTGTGCTTGTCTCTCTAGGTGCTGATGCTGGGGCATTAACGGATCCATCTCCAGAGCTTCCATTGGGTAAAACAGCAGCTGATTTGGCTTACGCAAATGGACACAGGGGAATTTCGGGATTTCTTGCAGAGTCTTCCTTAACTAGTTATCTTGAAAAGCTAACAGTGGACTCAAAGGAAAATAGCCCTGCCAACTCTTGTGGAGAAAAAGCTGTTCAAACAGTCTCTGAGCGAACCGCTGCTCCTATGACCTATGGCGATGTACCAGAGAAACTTTCCTTGAAGGATTCACTTACTGCTGTCCGTAATGCTACGCAAGCGGCTGATCGTCTCCATCAAGTATTCAGGATGCAATCATTCCAACGGAAACAGCTGTGTGATATTGGCGATGATGAAAAGATTGATATCTCCGACCAGTTAGCTGTTTCTTTTGCAGCTTCTAAAACTAAGAATCCAGGACAGGGTGATGTCTCTCTTAGTTGTGCTGCTACCCATATCCAGAAGAAATATCGTGGTTGGAAGAAGAGAAAAGAGTTTCTTTTAATCCGACAAAGAATCGTTAAAATTCAGGCTCATGTGAGAGGACATCAGGTCCGGAAACAATACCGAACAGTCATCTGGTCTGTGGGATTACTCGAGAAAATCATTTTGCGTTGGAGACGCAAAGGTAATGGTTTGAGAGGGTTTAAACGCAATGCAGTCGCCAAAACCGTGGAACCGGAACCGCCTGTATCAGCTATATGTCCTAGGATCCCACAGGAAGATGAGTATGATTATCTTAAAGAGGGAAGAAAACAAACAGAGGAAAGGCTACAGAAGGCTCTGACTCGTGTTAAGTCGATGGTTCAATACCCAGAAGCACGGGATCAATACCGTAGACTCCTAACGGTTGTTGAGGGCTTCCGTGAAAATGAGGCTTCATCAAGTGCATCTATAAACAATAAAGAAGAAGAAGCAGTCAACTGTGAAGAAGACGATTTTATTGACATTGAGTCTCTTTTGAACGATGACACATTGATGATGTCTATTTCTCCTTGATTTTACTTTCTGACTCGTATTCATTTTTCCTTCTTTTACTTTCTAACTTTATTTCTTCTCTGTAAATACCATAGTTGATATTTACCGCTTAATTTATTACTTGGATTGAAATAGAATTATTCACTATTTTCTTTCGTCTTAACAATATATAACTTTTTTATTTGTTCATTTGGCT - >AT5G09410.1
TACGTGTCGGAGGTTTATTGGTGGTTACGTGGTCCAAATCAGTGTTTAAAAACAAAGCGATTTACTTCGGTTCTCTTCCTCGGTCTCGCTTCAATAAAAAAAGGAAAAAAAAAATCGGTATCGTTTTCACACCTGGATATAGCCCGAAACGAAGGAAACAAGATTATAAGCTTCTCAGTTCATGCATACTCAGATCGGTTAGGGTTCGTTGATTCTCTTTTTGATTACGAAAGCTTAAGATCTCTTTTGGTGGATTTTTGGGTTTATCCATCTATGGTGGATCGCAGATCTTTTGGCTCTATAACTCCTCCTCTCCAATTAGATATGGAACAGTTGCTGTCAGAAGCCCAACACAGGTGGCTTAGGCCTACTGAGATTTGTGAAATTCTTCAGAACTATCACAAGTTTCATATAGCATCAGAGTCTCCCACCCGACCCGCCAGTGGTTCACTTTTTCTTTTTGATAGGAAGGTACTGAGATATTTTAGGAAAGACGGACATAACTGGAGGAAGAAGAAAGATGGTAAAACCATAAGAGAAGCTCATGAGAAGCTCAAGGTAGGAAGCATAGATGTGCTACATTGTTACTATGCACATGGGGAAGCCAACGAGAATTTCCAGAGACGTTGCTACTGGATGCTTGAACAACATTTGATGCATATCGTTTTTGTGCACTACTTGGAGGTTAAGGGTAACCGGACCAGTATAGGAATGAAAGAAAACAATTCAAATTCTGTAAATGGCACAGCTTCAGTGAATATTGATTCAACAGCAAGCCCAACTAGCACATTGTCATCATTATGTGAAGATGCTGATACCGGGGATAGTCAACAAGCAAGTTCCGTCTTACGACCATCTCCTGAACCTCAAACTGGAAATCGCTATGGTTGGACACCTGCTCCTGGCATGCGTAATGTTTCACAGGTTCATGGGAACAGAGTCAGAGAAAGTGATTCCCAGAGATTAGTTGATGTCAGAGCTTTGGATACCGTTGGGAATTCGCTGACAAGATTTCATGATCAGCCTTATTGTAATAATTTGTTGACTCAGATGCAGCCTTCTAATACTGACTCAATGCTGGTGGAAGAAAATTCAGAAAAAGGTGGGCGGTTAAAGGCAGAGCATATCAGAAATCCTCTTCAAACTCAATTTAATTGGCAGGATGACACTGATCTGGCGTTATTTGAGCAAAGTGCACAAGATAATTTTGAGACATTTTCCAGTCTCCTTGGCAGTGAAAATCTGCAACCTTTTGGAATTAGTTATCAAGCTCCTCCTTCAAATATGGACTCTGAATATATGCCTGTAATGAAAATATTGCGAAGAAGCGAAGATAGTTTGAAAAAAGTCGATAGTTTTTCTAAGTGGGCTATTAAAGAACTTGGGGAGATGGAGGATTTGCAGATGCAGTCTTCACGTGGAGATATTGCATGGACCACTGTTGAATGTGAAACTGCAGCAGCTGGGATCTCCTTGAGCCCTTCTCTCTCTGAGGATCAGCGTTTCACCATAGTTGATTTTTGGCCAAAAAGTGCAAAGACAGACGCAGAAGTTGAGGTCATGGTTATTGGGACATTTCTACTTAGTCCGCAAGAAGTAACTAAATATAATTGGTCATGCATGTTTGGTGAAGTGGAAGTTCCTGCTGAGATTTTAGTAGATGGTGTTCTTTGCTGTCATGCTCCACCGCATACAGCTGGTCACGTCCCCTTTTATGTTACATGTTCCAACAGATTTGCTTGCAGTGAAGTACGAGAATTTGATTTCCTTTCTGGTTCTACCCAAAAAATCAATGCTACAGATGTTTATGGTACCTATACAAATGAAGCATCACTTCAGTTGCGGTTTGAGAAGATGCTTGCTCACAGGGATTTTGTTCACGAACACCATATATTCGAAGATGTTGGGGACAAACGAAGACAAATCAGTAAAATTATGTTGCTAAAGGAGGAGAAAGAGTATCTCCTTCCAGGGACATATCAGAGAGACTCAACCAAACAAGAACCAAAAGGACAGCTTTTTAGGGAACTGTTTGAAGAAGAACTATATATATGGCTCATACATAAAGTGACTGAAGAGGGTAAAGGTCCAAACATATTGGATGAAGATGGACAGGGTATTTTACACTTTGTTGCAGCGCTTGGGTATGACTGGGCCATTAAACCGGTGTTAGCAGCAGGAGTTAACATTAACTTCCGTGATGCCAATGGCTGGTCTGCCCTTCATTGGGCTGCGTTTAGTGGCAGGGAGGAAACTGTCGCTGTGCTTGTCTCTCTAGGTGCTGATGCTGGGGCATTAACGGATCCATCTCCAGAGCTTCCATTGGGTAAAACAGCAGCTGATTTGGCTTACGCAAATGGACACAGGGGAATTTCGGGATTTCTTGCAGAGTCTTCCTTAACTAGTTATCTTGAAAAGCTAACAGTGGACTCAAAGGAAAATAGCCCTGCCAACTCTTGTGGAGAAAAAGCTGTTCAAACAGTCTCTGAGCGAACCGCTGCTCCTATGACCTATGGCGATGTACCAGAGAAACTTTCCTTGAAGGATTCACTTACTGCTGTCCGTAATGCTACGCAAGCGGCTGATCGTCTCCATCAAGTATTCAGGATGCAATCATTCCAACGGAAACAGCTGTGTGATATTGGCGATGATGAAAAGATTGATATCTCCGACCAGTTAGCTGTTTCTTTTGCAGCTTCTAAAACTAAGAATCCAGGACAGGGTGATGTCTCTCTTAGTTGTGCTGCTACCCATATCCAGAAGAAATATCGTGGTTGGAAGAAGAGAAAAGAGTTTCTTTTAATCCGACAAAGAATCGTTAAAATTCAGGCTCATGTGAGAGGACATCAGGTCCGGAAACAATACCGAACAGTCATCTGGTCTGTGGGATTACTCGAGAAAATCATTTTGCGTTGGAGACGCAAAGGTAATGGTTTGAGAGGGTTTAAACGCAATGCAGTCGCCAAAACCGTGGAACCGGAACCGCCTGTATCAGCTATATGTCCTAGGATCCCACAGGAAGATGAGTATGATTATCTTAAAGAGGGAAGAAAACAAACAGAGGAAAGGCTACAGAAGGCTCTGACTCGTGTTAAGTCGATGGTTCAATACCCAGAAGCACGGGATCAATACCGTAGACTCCTAACGGTTGTTGAGGGCTTCCGTGAAAATGAGGCTTCATCAAGTGCATCTATAAACAATAAAGAAGAAGAAGCAGTCAACTGTGAAGAAGACGATTTTATTGACATTGAGTCTCTTTTGAACGATGACACATTGATGATGTCTATTTCTCCTTGATTTTACTTTCTGACTCGTATTCATTTTTCCTTCTTTTACTTTCTAACTTTATTTCTTCTCTGTAAATACCATAGTTGATATTTACCGCTTAATTTATTACTTGGATTGAAATAGAATTATTCACTATTTTCTTTCGTCTTAACAATATATAACTTTTTTATTTGTTCATTTGGCT
CDS Sequence
Protein Sequence