Information report for AT3G19820
Gene Details
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Functional Descriptions
- GO:0016628 — enables — oxidoreductase activity, acting on the CH-CH group of donors, NAD or NADP as acceptor
- GO:0009808 — acts upstream of or within — lignin metabolic process
- GO:0005737 — is active in — cytoplasm
- GO:0016132 — acts upstream of or within — brassinosteroid biosynthetic process
- GO:0009826 — acts upstream of or within — unidimensional cell growth
- GO:0000325 — located in — plant-type vacuole
- GO:0006694 — acts upstream of or within — steroid biosynthetic process
- GO:0005634 — located in — nucleus
- GO:0005773 — located in — vacuole
- GO:0008202 — involved in — steroid metabolic process
- GO:0009834 — acts upstream of or within — plant-type secondary cell wall biogenesis
- GO:0071949 — enables — FAD binding
- GO:0003824 — enables — catalytic activity
- GO:0005515 — enables — protein binding
- GO:0005516 — enables — calmodulin binding
- GO:0009416 — acts upstream of or within — response to light stimulus
- GO:0005829 — located in — cytosol
- GO:0050614 — enables — delta24-sterol reductase activity
- CS291 — dwarf due to reduced cell expansion; reduced leaf expansion and stunted inflorescence; reduced hypocotyl elongation; opened coyledons after germination in darkness.
- CS8100 — reduced plant height; short roots, hypocotyls, petioles and stems; reduced cell length along longitudinal axes of these organs; round, curly, dark-green leaves; similar to de-etiolated mutants (det); increased effect of light on hypocotyl length; when grown in the dark, dim seedlings have short hypocotyls, no apical hooks, open cotyledons, primary leaf buds, and normal etioplasts; affects expression of a beta-tubulin gene (TUB1); slightly delayed flowering; reduced fertility
Functional Keywords
Literature and News
- The Arabidopsis dwarf1 mutant is defective in the conversion of 24-methylenecholesterol to campesterol in brassinosteroid biosynthesis. DOI: 10.1104/pp.119.3.897 ; PMID: 10069828
- The DIMINUTO gene of Arabidopsis is involved in regulating cell elongation. DOI: 10.1101/gad.9.1.97 ; PMID: 7828854
- Brassinosteroid mutants uncover fine tuning of phytochrome signaling. DOI: 7029 ; PMID: 11788763
- Brassinosteroids control the proliferation of leaf cells of Arabidopsis thaliana. DOI: 10.1093/pcp/pcf024 ; PMID: 11867704
- Brassinosteroid-regulated gene expression. DOI: 10.1104/pp.011003 ; PMID: 12114578
- Interactions between sterol biosynthesis genes in embryonic development of Arabidopsis. DOI: 10.1046/j.1365-313x.2002.01333.x ; PMID: 12100483
- Brassinosteroids promote root growth in Arabidopsis. DOI: 10.1104/pp.103.028662 ; PMID: 14526105
- 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
- Transcript profiling of cytokinin action in Arabidopsis roots and shoots discovers largely similar but also organ-specific responses. DOI: 10.1186/1471-2229-12-112 ; PMID: 22824128
- Phototropin 1 and cryptochrome action in response to green light in combination with other wavelengths. DOI: 10.1007/s00425-012-1767-y ; PMID: 23007554
- Function and molecular regulation of DWARF1 as a C-24 reductase in brassinosteroid biosynthesis in Arabidopsis. DOI: 10.1093/jxb/ery038 ; PMID: 29432595
- The DIMINUTO gene of Arabidopsis is involved in regulating cell elongation. DOI: 10.1101/gad.9.1.97 ; PMID: 7828854
- Isolation of intact vacuoles and proteomic analysis of tonoplast from suspension-cultured cells of Arabidopsis thaliana. DOI: 10.1093/pcp/pch099 ; PMID: 15215502
- The vegetative vacuole proteome of Arabidopsis thaliana reveals predicted and unexpected proteins. DOI: 10.1105/tpc.104.027078 ; PMID: 15539469
- A proteomics dissection of Arabidopsis thaliana vacuoles isolated from cell culture. DOI: 10.1074/mcp.M600250-MCP200 ; PMID: 17151019
- Quantitative phosphoproteomics of early elicitor signaling in Arabidopsis. DOI: 10.1074/mcp.M600429-MCP200 ; PMID: 17317660
- Membrane proteomic analysis of Arabidopsis thaliana using alternative solubilization techniques. DOI: 10.1021/pr060525b ; PMID: 17432890
- Isolation of intact vacuoles and proteomic analysis of tonoplast from suspension-cultured cells of Arabidopsis thaliana. DOI: 10.1093/pcp/pch099 ; PMID: 15215502
- The vegetative vacuole proteome of Arabidopsis thaliana reveals predicted and unexpected proteins. DOI: 10.1105/tpc.104.027078 ; PMID: 15539469
- A proteomics dissection of Arabidopsis thaliana vacuoles isolated from cell culture. DOI: 10.1074/mcp.M600250-MCP200 ; PMID: 17151019
- Quantitative phosphoproteomics of early elicitor signaling in Arabidopsis. DOI: 10.1074/mcp.M600429-MCP200 ; PMID: 17317660
- Membrane proteomic analysis of Arabidopsis thaliana using alternative solubilization techniques. DOI: 10.1021/pr060525b ; PMID: 17432890
Gene Resources
- UniProt: A0A178V7D0
- EMBL: CACRSJ010000106, CACSHJ010000089, LR881468
- AlphaFoldDB: A0A178V7D0
- EnsemblPlants: AT3G19820.1, AT3G19820.2, AT3G19820.3
- Gramene: AT3G19820.1, AT3G19820.2, AT3G19820.3
- KEGG: ath:AT3G19820
- Orthologous matrix: WVGRSAF
- ExpressionAtlas: AT3G19820
- InterPro: IPR006094, IPR016166, IPR016169
- PANTHER: PTHR10801, PTHR10801:SF0
- SUPFAM: SSF56176
- PROSITE: PS51387
- Gene3D: 3.30.465.10
- OrthoDB: A0A178V7D0
- SWISS-MODEL: A0A178V7D0
Homologs
- Oryza sativa BRD2;DIM
Sequences
cDNA Sequence
- >AT3G19820.3
CTCTCTCTCCTTTGGATTCTTCAGGTACTCTCTCTACCTCTCTTTCTCTCTCTGTCTCAGTCGCTGACTTATCATTTCCTGTCGTTAGATCTCTCAGTACTTGGTTCATAGTTGTTTCATAGCACGCACTAGTGAACTATGTGGGTTTTTTAATTTTAATCATCTCAGTCTTGGAGAATTTCAAACAAAGTTTCAAACTTTGCTCACCAACTTTTATTTATTTATTTTGGTGGTAGAAAACAGACTTTGATGGCTTTGTAGGAATACTAGATGTGTAGATCTAAAGATTATAACCATTTTCTGTGTTCTTGTTCTTTCAGAACATAACTTCATGTCTTTTTGTCTCTCTGTTCACTAGCTCTCTGTTTCCATGGACTCCACACTATCTTCTTCTTACAGATTTATTTCATACACATACACTGATACACATGTGTGTATACGTATGTGTTTATGTGTGCTTATTATACTCTTTTTGGATTCAAGAAACTAATCTTTAGTATTTTTGACATTCTGTGAGGAGAGGAAATGTCGGATCTTCAGACACCGCTTGTGAGGCCCAAGAGGAAGAAGACTTGGGTTGATTACTTTGTCAAGTTCAGATGGATCATTGTCATCTTCATCGTCCTTCCATTCTCAGCCACATTCTACTTCCTCATCTACCTCGGGGACATGTGGTCAGAGTCCAAGTCCTTTGAGAAACGTCAGAAGGAACACGACGAGAATGTCAAGAAAGTCATCAAAAGGCTTAAGGGTAGGGATGCTTCCAAGGACGGGCTTGTCTGCACTGCTCGTAAGCCCTGGATCGCTGTTGGAATGAGGAACGTTGACTACAAGAGAGCCCGGCATTTCGAGGTTGACTTGGGGGAGTTCCGTAACATCCTTGAGATCAACAAGGAGAAGATGACTGCTAGAGTGGAGCCTCTTGTTAACATGGGACAGATTTCCCGTGCTACCGTCCCAATGAACCTGTCTCTCGCTGTTGTTGCTGAGCTTGATGACCTTACCGTTGGTGGACTTATCAATGGATATGGTATTGAAGGAAGCTCTCACATCTACGGTTTGTTTGCTGATACCGTTGAGGCTTACGAGATTGTTCTTGCGGGTGGAGAGCTTGTCCGCGCCACAAGGGATAATGAGTATTCTGATCTTTACTACGCAATCCCGTGGTCGCAAGGAACTCTTGGACTCCTTGTAGCTGCTGAGATCAGGCTTATTAAAGTCAAGGAGTACATGAGACTCACTTACATACCAGTCAAGGGTGATCTTCAAGCCTTAGCTCAAGGTTACATTGATTCTTTTGCTCCCAAAGACGGTGACAAGTCGAAAATCCCGGATTTCGTCGAAGGCATGGTTTACAATCCAACGGAAGGAGTGATGATGGTTGGAACATATGCATCTAAAGAAGAGGCAAAGAAGAAAGGGAACAAAATCAACAATGTGGGATGGTGGTTCAAGCCGTGGTTCTACCAGCACGCGCAGACCGCCCTGAAAAAGGGACAGTTTGTTGAGTACATCCCAACTCGTGAATACTACCACAGGCACACAAGGTGCTTGTACTGGGAAGGGAAGCTTATTCTTCCATTTGGTGATCAGTTCTGGTTTAGGTACCTCTTAGGTTGGTTGATGCCTCCAAAGGTCTCTCTTCTTAAGGCCACTCAAGGTGAAGCTATCAGGAACTATTACCATGATATGCATGTTATTCAGGATATGCTTGTTCCTCTTTACAAGGTTGGCGATGCACTCGAATGGGTCCACCGCGAAATGGAGGTGTATCCAATTTGGCTTTGCCCACACAAACTCTTCAAGCAGCCAATCAAAGGCCAAATCTACCCAGAGCCAGGCTTCGAGTACGAAAACAGACAAGGAGACACAGAAGATGCACAGATGTACACTGATGTTGGAGTCTACTACGCACCTGGCTGTGTCCTAAGAGGTGAAGAGTTTGATGGATCAGAAGCAGTGCGTAGGATGGAGAAATGGCTGATAGAGAACCATGGATTCCAGCCTCAGTACGCGGTGTCTGAGCTCGACGAGAAGAGCTTCTGGAGAATGTTTAATGGTGAATTGTATGAGGAGTGCCGCAAGAAGTATAGAGCTATTGGAACGTTCATGAGTGTTTACTACAAGTCCAAGAAAGGAAGGAAGACTGAGAAAGAAGTTAGAGAAGCCGAACAAGCTCATCTCGAAACTGCTTATGCCGAGGCAGATTAAGTAATAATAAGCCTTGGTTTGATGTAATGGCTCGGGATGATTATTGTTATTCCTAGTAGTGTCTGTTATGTTGTTGTTTCCTAATTTCAGTTTTAGTGTCTTGAAGACTCTTGTTGTTGTTGTTTGCTTCTTGTTGTTGTTTGACTCATTCTGGTTTGAGTGGATTTTAGAGTTTAAAACTTTTGGATTTGCCTATGAAATTGAAGGTTTCCGGTTTT - >AT3G19820.1
CTCTCTCTCCTTTGGATTCTTCAGGTACTCTCTCTACCTCTCTTTCTCTCTCTGTCTCAGTCGCTGACTTATCATTTCCTGTCGTTAGATCTCTCAGTACTTGGTTCATAGTTGTTTCATAGCACGCACTAGTGAACTATGTGGGTTTTTTAATTTTAATCATCTCAGTCTTGGAGAATTTCAAACAAAGTTTCAAACTTTGCTCACCAACTTTTATTTATTTATTTTGGTGGTAGAAAACAGACTTTGATGGCTTTGTAGGAATACTAGATGTGTAGATCTAAAGATTATAACCATTTTCTGTGTTCTTGTTCTTTCAGAACATAACTTCATGTCTTTTTGTCTCTCTGTTCACTAGCTCTCTGTTTCCATGGACTCCACACTATCTTCTTCTTACAGATTTATTTCATACACATACACTGATACACATGTGTGTATACGTATGTGTTTATGTGTGCTTATTATACTCTTTTTGGATTCAAGAAACTAATCTTTAGTATTTTTGACATTCTGTGAGGAGAGGAAATGTCGGATCTTCAGACACCGCTTGTGAGGCCCAAGAGGAAGAAGACTTGGGTTGATTACTTTGTCAAGTTCAGATGGATCATTGTCATCTTCATCGTCCTTCCATTCTCAGCCACATTCTACTTCCTCATCTACCTCGGGGACATGTGGTCAGAGTCCAAGTCCTTTGAGAAACGTCAGAAGGAACACGACGAGAATGTCAAGAAAGTCATCAAAAGGCTTAAGGGTAGGGATGCTTCCAAGGACGGGCTTGTCTGCACTGCTCGTAAGCCCTGGATCGCTGTTGGAATGAGGAACGTTGACTACAAGAGAGCCCGGCATTTCGAGGTTGACTTGGGGGAGTTCCGTAACATCCTTGAGATCAACAAGGAGAAGATGACTGCTAGAGTGGAGCCTCTTGTTAACATGGGACAGATTTCCCGTGCTACCGTCCCAATGAACCTGTCTCTCGCTGTTGTTGCTGAGCTTGATGACCTTACCGTTGGTGGACTTATCAATGGATATGGTATTGAAGGAAGCTCTCACATCTACGGTTTGTTTGCTGATACCGTTGAGGCTTACGAGATTGTTCTTGCGGGTGGAGAGCTTGTCCGCGCCACAAGGGATAATGAGTATTCTGATCTTTACTACGCAATCCCGTGGTCGCAAGGAACTCTTGGACTCCTTGTAGCTGCTGAGATCAGGCTTATTAAAGTCAAGGAGTACATGAGACTCACTTACATACCAGTCAAGGGTGATCTTCAAGCCTTAGCTCAAGGTTACATTGATTCTTTTGCTCCCAAAGACGGTGACAAGTCGAAAATCCCGGATTTCGTCGAAGGCATGGTTTACAATCCAACGGAAGGAGTGATGATGGTTGGAACATATGCATCTAAAGAAGAGGCAAAGAAGAAAGGGAACAAAATCAACAATGTGGGATGGTGGTTCAAGCCGTGGTTCTACCAGCACGCGCAGACCGCCCTGAAAAAGGGACAGTTTGTTGAGTACATCCCAACTCGTGAATACTACCACAGGCACACAAGGTGCTTGTACTGGGAAGGGAAGCTTATTCTTCCATTTGGTGATCAGTTCTGGTTTAGGTACCTCTTAGGTTGGTTGATGCCTCCAAAGGTCTCTCTTCTTAAGGCCACTCAAGGTGAAGCTATCAGGAACTATTACCATGATATGCATGTTATTCAGGATATGCTTGTTCCTCTTTACAAGGTTGGCGATGCACTCGAATGGGTCCACCGCGAAATGGAGGTGTATCCAATTTGGCTTTGCCCACACAAACTCTTCAAGCAGCCAATCAAAGGCCAAATCTACCCAGAGCCAGGCTTCGAGTACGAAAACAGACAAGGAGACACAGAAGATGCACAGATGTACACTGATGTTGGAGTCTACTACGCACCTGGCTGTGTCCTAAGAGGTGAAGAGTTTGATGGATCAGAAGCAGTGCGTAGGATGGAGAAATGGCTGATAGAGAACCATGGATTCCAGCCTCAGTACGCGGTGTCTGAGCTCGACGAGAAGAGCTTCTGGAGAATGTTTAATGGTGAATTGTATGAGGAGTGCCGCAAGAAGTATAGAGCTATTGGAACGTTCATGAGTGTTTACTACAAGTCCAAGAAAGGAAGGAAGACTGAGAAAGAAGTTAGAGAAGCCGAACAAGCTCATCTCGAAACTGCTTATGCCGAGGCAGATTAAGTAATAATAAGCCTTGGTTTGATGTAATGGCTCGGGATGATTATTGTTATTCCTAGTAGTGTCTGTTATGTTGTTGTTTCCTAATTTCAGTTTTAGTGTCTTGAAGACTCTTGTTGTTGTTGTTTGCTTCTTGTTGTTGTTTGACTCATTCTGGTTTGAGTGGATTTTAGAGTTTAAAACTTTTGGATTTGCCTATGAAATTGAAGGTTTCCGGTTTT - >AT3G19820.2
CTCTCTCTCCTTTGGATTCTTCAGGTACTCTCTCTACCTCTCTTTCTCTCTCTGTCTCAGTCGCTGACTTATCATTTCCTGTCGTTAGATCTCTCAGTACTTGGTTCATAGTTGTTTCATAGCACGCACTAGTGAACTATGTGGGTTTTTTAATTTTAATCATCTCAGTCTTGGAGAATTTCAAACAAAGTTTCAAACTTTGCTCACCAACTTTTATTTATTTATTTTGGTGGTAGAAAACAGACTTTGATGGCTTTGTAGGAATACTAGATGTGTAGATCTAAAGATTATAACCATTTTCTGTGTTCTTGTTCTTTCAGAACATAACTTCATGTCTTTTTGTCTCTCTGTTCACTAGCTCTCTGTTTCCATGGACTCCACACTATCTTCTTCTTACAGATTTATTTCATACACATACACTGATACACATGTGTGTATACGTATGTGTTTATGTGTGCTTATTATACTCTTTTTGGATTCAAGAAACTAATCTTTAGTATTTTTGACATTCTGTGAGGAGAGGAAATGTCGGATCTTCAGACACCGCTTGTGAGGCCCAAGAGGAAGAAGACTTGGGTTGATTACTTTGTCAAGTTCAGATGGATCATTGTCATCTTCATCGTCCTTCCATTCTCAGCCACATTCTACTTCCTCATCTACCTCGGGGACATGTGGTCAGAGTCCAAGTCCTTTGAGAAACGTCAGAAGGAACACGACGAGAATGTCAAGAAAGTCATCAAAAGGCTTAAGGGTAGGGATGCTTCCAAGGACGGGCTTGTCTGCACTGCTCGTAAGCCCTGGATCGCTGTTGGAATGAGGAACGTTGACTACAAGAGAGCCCGGCATTTCGAGGTTGACTTGGGGGAGTTCCGTAACATCCTTGAGATCAACAAGGAGAAGATGACTGCTAGAGTGGAGCCTCTTGTTAACATGGGACAGATTTCCCGTGCTACCGTCCCAATGAACCTGTCTCTCGCTGTTGTTGCTGAGCTTGATGACCTTACCGTTGGTGGACTTATCAATGGATATGGTATTGAAGGAAGCTCTCACATCTACGGTTTGTTTGCTGATACCGTTGAGGCTTACGAGATTGTTCTTGCGGGTGGAGAGCTTGTCCGCGCCACAAGGGATAATGAGTATTCTGATCTTTACTACGCAATCCCGTGGTCGCAAGGAACTCTTGGACTCCTTGTAGCTGCTGAGATCAGGCTTATTAAAGTCAAGGAGTACATGAGACTCACTTACATACCAGTCAAGGGTGATCTTCAAGCCTTAGCTCAAGGTTACATTGATTCTTTTGCTCCCAAAGACGGTGACAAGTCGAAAATCCCGGATTTCGTCGAAGGCATGGTTTACAATCCAACGGAAGGAGTGATGATGGTTGGAACATATGCATCTAAAGAAGAGGCAAAGAAGAAAGGGAACAAAATCAACAATGTGGGATGGTGGTTCAAGCCGTGGTTCTACCAGCACGCGCAGACCGCCCTGAAAAAGGGACAGTTTGTTGAGTACATCCCAACTCGTGAATACTACCACAGGCACACAAGGTGCTTGTACTGGGAAGGGAAGCTTATTCTTCCATTTGGTGATCAGTTCTGGTTTAGGTACCTCTTAGGTTGGTTGATGCCTCCAAAGGTCTCTCTTCTTAAGGCCACTCAAGGTGAAGCTATCAGGAACTATTACCATGATATGCATGTTATTCAGGATATGCTTGTTCCTCTTTACAAGGTTGGCGATGCACTCGAATGGGTCCACCGCGAAATGGAGGTGTATCCAATTTGGCTTTGCCCACACAAACTCTTCAAGCAGCCAATCAAAGGCCAAATCTACCCAGAGCCAGGCTTCGAGTACGAAAACAGACAAGGAGACACAGAAGATGCACAGATGTACACTGATGTTGGAGTCTACTACGCACCTGGCTGTGTCCTAAGAGGTGAAGAGTTTGATGGATCAGAAGCAGTGCGTAGGATGGAGAAATGGCTGATAGAGAACCATGGATTCCAGCCTCAGTACGCGGTGTCTGAGCTCGACGAGAAGAGCTTCTGGAGAATGTTTAATGGTGAATTGTATGAGGAGTGCCGCAAGAAGTATAGAGCTATTGGAACGTTCATGAGTGTTTACTACAAGTCCAAGAAAGGAAGGAAGACTGAGAAAGAAGTTAGAGAAGCCGAACAAGCTCATCTCGAAACTGCTTATGCCGAGGCAGATTAAGTAATAATAAGCCTTGGTTTGATGTAATGGCTCGGGATGATTATTGTTATTCCTAGTAGTGTCTGTTATGTTGTTGTTTCCTAATTTCAGTTTTAGTGTCTTGAAGACTCTTGTTGTTGTTGTTTGCTTCTTGTTGTTGTTTGACTCATTCTGGTTTGAGTGGATTTTAGAGTTTAAAACTTTTGGATTTGCCTATGAAATTGAAGGTTTCCGGTTTT
CDS Sequence
- >AT3G19820.3
ATGTCGGATCTTCAGACACCGCTTGTGAGGCCCAAGAGGAAGAAGACTTGGGTTGATTACTTTGTCAAGTTCAGATGGATCATTGTCATCTTCATCGTCCTTCCATTCTCAGCCACATTCTACTTCCTCATCTACCTCGGGGACATGTGGTCAGAGTCCAAGTCCTTTGAGAAACGTCAGAAGGAACACGACGAGAATGTCAAGAAAGTCATCAAAAGGCTTAAGGGTAGGGATGCTTCCAAGGACGGGCTTGTCTGCACTGCTCGTAAGCCCTGGATCGCTGTTGGAATGAGGAACGTTGACTACAAGAGAGCCCGGCATTTCGAGGTTGACTTGGGGGAGTTCCGTAACATCCTTGAGATCAACAAGGAGAAGATGACTGCTAGAGTGGAGCCTCTTGTTAACATGGGACAGATTTCCCGTGCTACCGTCCCAATGAACCTGTCTCTCGCTGTTGTTGCTGAGCTTGATGACCTTACCGTTGGTGGACTTATCAATGGATATGGTATTGAAGGAAGCTCTCACATCTACGGTTTGTTTGCTGATACCGTTGAGGCTTACGAGATTGTTCTTGCGGGTGGAGAGCTTGTCCGCGCCACAAGGGATAATGAGTATTCTGATCTTTACTACGCAATCCCGTGGTCGCAAGGAACTCTTGGACTCCTTGTAGCTGCTGAGATCAGGCTTATTAAAGTCAAGGAGTACATGAGACTCACTTACATACCAGTCAAGGGTGATCTTCAAGCCTTAGCTCAAGGTTACATTGATTCTTTTGCTCCCAAAGACGGTGACAAGTCGAAAATCCCGGATTTCGTCGAAGGCATGGTTTACAATCCAACGGAAGGAGTGATGATGGTTGGAACATATGCATCTAAAGAAGAGGCAAAGAAGAAAGGGAACAAAATCAACAATGTGGGATGGTGGTTCAAGCCGTGGTTCTACCAGCACGCGCAGACCGCCCTGAAAAAGGGACAGTTTGTTGAGTACATCCCAACTCGTGAATACTACCACAGGCACACAAGGTGCTTGTACTGGGAAGGGAAGCTTATTCTTCCATTTGGTGATCAGTTCTGGTTTAGGTACCTCTTAGGTTGGTTGATGCCTCCAAAGGTCTCTCTTCTTAAGGCCACTCAAGGTGAAGCTATCAGGAACTATTACCATGATATGCATGTTATTCAGGATATGCTTGTTCCTCTTTACAAGGTTGGCGATGCACTCGAATGGGTCCACCGCGAAATGGAGGTGTATCCAATTTGGCTTTGCCCACACAAACTCTTCAAGCAGCCAATCAAAGGCCAAATCTACCCAGAGCCAGGCTTCGAGTACGAAAACAGACAAGGAGACACAGAAGATGCACAGATGTACACTGATGTTGGAGTCTACTACGCACCTGGCTGTGTCCTAAGAGGTGAAGAGTTTGATGGATCAGAAGCAGTGCGTAGGATGGAGAAATGGCTGATAGAGAACCATGGATTCCAGCCTCAGTACGCGGTGTCTGAGCTCGACGAGAAGAGCTTCTGGAGAATGTTTAATGGTGAATTGTATGAGGAGTGCCGCAAGAAGTATAGAGCTATTGGAACGTTCATGAGTGTTTACTACAAGTCCAAGAAAGGAAGGAAGACTGAGAAAGAAGTTAGAGAAGCCGAACAAGCTCATCTCGAAACTGCTTATGCCGAGGCAGATTAA - >AT3G19820.1
ATGTCGGATCTTCAGACACCGCTTGTGAGGCCCAAGAGGAAGAAGACTTGGGTTGATTACTTTGTCAAGTTCAGATGGATCATTGTCATCTTCATCGTCCTTCCATTCTCAGCCACATTCTACTTCCTCATCTACCTCGGGGACATGTGGTCAGAGTCCAAGTCCTTTGAGAAACGTCAGAAGGAACACGACGAGAATGTCAAGAAAGTCATCAAAAGGCTTAAGGGTAGGGATGCTTCCAAGGACGGGCTTGTCTGCACTGCTCGTAAGCCCTGGATCGCTGTTGGAATGAGGAACGTTGACTACAAGAGAGCCCGGCATTTCGAGGTTGACTTGGGGGAGTTCCGTAACATCCTTGAGATCAACAAGGAGAAGATGACTGCTAGAGTGGAGCCTCTTGTTAACATGGGACAGATTTCCCGTGCTACCGTCCCAATGAACCTGTCTCTCGCTGTTGTTGCTGAGCTTGATGACCTTACCGTTGGTGGACTTATCAATGGATATGGTATTGAAGGAAGCTCTCACATCTACGGTTTGTTTGCTGATACCGTTGAGGCTTACGAGATTGTTCTTGCGGGTGGAGAGCTTGTCCGCGCCACAAGGGATAATGAGTATTCTGATCTTTACTACGCAATCCCGTGGTCGCAAGGAACTCTTGGACTCCTTGTAGCTGCTGAGATCAGGCTTATTAAAGTCAAGGAGTACATGAGACTCACTTACATACCAGTCAAGGGTGATCTTCAAGCCTTAGCTCAAGGTTACATTGATTCTTTTGCTCCCAAAGACGGTGACAAGTCGAAAATCCCGGATTTCGTCGAAGGCATGGTTTACAATCCAACGGAAGGAGTGATGATGGTTGGAACATATGCATCTAAAGAAGAGGCAAAGAAGAAAGGGAACAAAATCAACAATGTGGGATGGTGGTTCAAGCCGTGGTTCTACCAGCACGCGCAGACCGCCCTGAAAAAGGGACAGTTTGTTGAGTACATCCCAACTCGTGAATACTACCACAGGCACACAAGGTGCTTGTACTGGGAAGGGAAGCTTATTCTTCCATTTGGTGATCAGTTCTGGTTTAGGTACCTCTTAGGTTGGTTGATGCCTCCAAAGGTCTCTCTTCTTAAGGCCACTCAAGGTGAAGCTATCAGGAACTATTACCATGATATGCATGTTATTCAGGATATGCTTGTTCCTCTTTACAAGGTTGGCGATGCACTCGAATGGGTCCACCGCGAAATGGAGGTGTATCCAATTTGGCTTTGCCCACACAAACTCTTCAAGCAGCCAATCAAAGGCCAAATCTACCCAGAGCCAGGCTTCGAGTACGAAAACAGACAAGGAGACACAGAAGATGCACAGATGTACACTGATGTTGGAGTCTACTACGCACCTGGCTGTGTCCTAAGAGGTGAAGAGTTTGATGGATCAGAAGCAGTGCGTAGGATGGAGAAATGGCTGATAGAGAACCATGGATTCCAGCCTCAGTACGCGGTGTCTGAGCTCGACGAGAAGAGCTTCTGGAGAATGTTTAATGGTGAATTGTATGAGGAGTGCCGCAAGAAGTATAGAGCTATTGGAACGTTCATGAGTGTTTACTACAAGTCCAAGAAAGGAAGGAAGACTGAGAAAGAAGTTAGAGAAGCCGAACAAGCTCATCTCGAAACTGCTTATGCCGAGGCAGATTAA - >AT3G19820.2
ATGTCGGATCTTCAGACACCGCTTGTGAGGCCCAAGAGGAAGAAGACTTGGGTTGATTACTTTGTCAAGTTCAGATGGATCATTGTCATCTTCATCGTCCTTCCATTCTCAGCCACATTCTACTTCCTCATCTACCTCGGGGACATGTGGTCAGAGTCCAAGTCCTTTGAGAAACGTCAGAAGGAACACGACGAGAATGTCAAGAAAGTCATCAAAAGGCTTAAGGGTAGGGATGCTTCCAAGGACGGGCTTGTCTGCACTGCTCGTAAGCCCTGGATCGCTGTTGGAATGAGGAACGTTGACTACAAGAGAGCCCGGCATTTCGAGGTTGACTTGGGGGAGTTCCGTAACATCCTTGAGATCAACAAGGAGAAGATGACTGCTAGAGTGGAGCCTCTTGTTAACATGGGACAGATTTCCCGTGCTACCGTCCCAATGAACCTGTCTCTCGCTGTTGTTGCTGAGCTTGATGACCTTACCGTTGGTGGACTTATCAATGGATATGGTATTGAAGGAAGCTCTCACATCTACGGTTTGTTTGCTGATACCGTTGAGGCTTACGAGATTGTTCTTGCGGGTGGAGAGCTTGTCCGCGCCACAAGGGATAATGAGTATTCTGATCTTTACTACGCAATCCCGTGGTCGCAAGGAACTCTTGGACTCCTTGTAGCTGCTGAGATCAGGCTTATTAAAGTCAAGGAGTACATGAGACTCACTTACATACCAGTCAAGGGTGATCTTCAAGCCTTAGCTCAAGGTTACATTGATTCTTTTGCTCCCAAAGACGGTGACAAGTCGAAAATCCCGGATTTCGTCGAAGGCATGGTTTACAATCCAACGGAAGGAGTGATGATGGTTGGAACATATGCATCTAAAGAAGAGGCAAAGAAGAAAGGGAACAAAATCAACAATGTGGGATGGTGGTTCAAGCCGTGGTTCTACCAGCACGCGCAGACCGCCCTGAAAAAGGGACAGTTTGTTGAGTACATCCCAACTCGTGAATACTACCACAGGCACACAAGGTGCTTGTACTGGGAAGGGAAGCTTATTCTTCCATTTGGTGATCAGTTCTGGTTTAGGTACCTCTTAGGTTGGTTGATGCCTCCAAAGGTCTCTCTTCTTAAGGCCACTCAAGGTGAAGCTATCAGGAACTATTACCATGATATGCATGTTATTCAGGATATGCTTGTTCCTCTTTACAAGGTTGGCGATGCACTCGAATGGGTCCACCGCGAAATGGAGGTGTATCCAATTTGGCTTTGCCCACACAAACTCTTCAAGCAGCCAATCAAAGGCCAAATCTACCCAGAGCCAGGCTTCGAGTACGAAAACAGACAAGGAGACACAGAAGATGCACAGATGTACACTGATGTTGGAGTCTACTACGCACCTGGCTGTGTCCTAAGAGGTGAAGAGTTTGATGGATCAGAAGCAGTGCGTAGGATGGAGAAATGGCTGATAGAGAACCATGGATTCCAGCCTCAGTACGCGGTGTCTGAGCTCGACGAGAAGAGCTTCTGGAGAATGTTTAATGGTGAATTGTATGAGGAGTGCCGCAAGAAGTATAGAGCTATTGGAACGTTCATGAGTGTTTACTACAAGTCCAAGAAAGGAAGGAAGACTGAGAAAGAAGTTAGAGAAGCCGAACAAGCTCATCTCGAAACTGCTTATGCCGAGGCAGATTAA
Protein Sequence
- >AT3G19820.3
MSDLQTPLVRPKRKKTWVDYFVKFRWIIVIFIVLPFSATFYFLIYLGDMWSESKSFEKRQKEHDENVKKVIKRLKGRDASKDGLVCTARKPWIAVGMRNVDYKRARHFEVDLGEFRNILEINKEKMTARVEPLVNMGQISRATVPMNLSLAVVAELDDLTVGGLINGYGIEGSSHIYGLFADTVEAYEIVLAGGELVRATRDNEYSDLYYAIPWSQGTLGLLVAAEIRLIKVKEYMRLTYIPVKGDLQALAQGYIDSFAPKDGDKSKIPDFVEGMVYNPTEGVMMVGTYASKEEAKKKGNKINNVGWWFKPWFYQHAQTALKKGQFVEYIPTREYYHRHTRCLYWEGKLILPFGDQFWFRYLLGWLMPPKVSLLKATQGEAIRNYYHDMHVIQDMLVPLYKVGDALEWVHREMEVYPIWLCPHKLFKQPIKGQIYPEPGFEYENRQGDTEDAQMYTDVGVYYAPGCVLRGEEFDGSEAVRRMEKWLIENHGFQPQYAVSELDEKSFWRMFNGELYEECRKKYRAIGTFMSVYYKSKKGRKTEKEVREAEQAHLETAYAEAD - >AT3G19820.1
MSDLQTPLVRPKRKKTWVDYFVKFRWIIVIFIVLPFSATFYFLIYLGDMWSESKSFEKRQKEHDENVKKVIKRLKGRDASKDGLVCTARKPWIAVGMRNVDYKRARHFEVDLGEFRNILEINKEKMTARVEPLVNMGQISRATVPMNLSLAVVAELDDLTVGGLINGYGIEGSSHIYGLFADTVEAYEIVLAGGELVRATRDNEYSDLYYAIPWSQGTLGLLVAAEIRLIKVKEYMRLTYIPVKGDLQALAQGYIDSFAPKDGDKSKIPDFVEGMVYNPTEGVMMVGTYASKEEAKKKGNKINNVGWWFKPWFYQHAQTALKKGQFVEYIPTREYYHRHTRCLYWEGKLILPFGDQFWFRYLLGWLMPPKVSLLKATQGEAIRNYYHDMHVIQDMLVPLYKVGDALEWVHREMEVYPIWLCPHKLFKQPIKGQIYPEPGFEYENRQGDTEDAQMYTDVGVYYAPGCVLRGEEFDGSEAVRRMEKWLIENHGFQPQYAVSELDEKSFWRMFNGELYEECRKKYRAIGTFMSVYYKSKKGRKTEKEVREAEQAHLETAYAEAD - >AT3G19820.2
MSDLQTPLVRPKRKKTWVDYFVKFRWIIVIFIVLPFSATFYFLIYLGDMWSESKSFEKRQKEHDENVKKVIKRLKGRDASKDGLVCTARKPWIAVGMRNVDYKRARHFEVDLGEFRNILEINKEKMTARVEPLVNMGQISRATVPMNLSLAVVAELDDLTVGGLINGYGIEGSSHIYGLFADTVEAYEIVLAGGELVRATRDNEYSDLYYAIPWSQGTLGLLVAAEIRLIKVKEYMRLTYIPVKGDLQALAQGYIDSFAPKDGDKSKIPDFVEGMVYNPTEGVMMVGTYASKEEAKKKGNKINNVGWWFKPWFYQHAQTALKKGQFVEYIPTREYYHRHTRCLYWEGKLILPFGDQFWFRYLLGWLMPPKVSLLKATQGEAIRNYYHDMHVIQDMLVPLYKVGDALEWVHREMEVYPIWLCPHKLFKQPIKGQIYPEPGFEYENRQGDTEDAQMYTDVGVYYAPGCVLRGEEFDGSEAVRRMEKWLIENHGFQPQYAVSELDEKSFWRMFNGELYEECRKKYRAIGTFMSVYYKSKKGRKTEKEVREAEQAHLETAYAEAD