Gene Details:
- Gene ID: AT5G20250
- Gene Symbol: DIN10, RS6
- Gene Name: DARK INDUCIBLE 10, raffinose synthase 6
- Description: Raffinose synthase family protein;(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:0000084 — plant sperm cell — célula espermática o esperma (Spanish, exact), male gamete (exact), microgamete (exact), 植物精子細胞 (Japanese, exact), sperm nucleus (related), sperm cell (broad)
- 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:0020003 — plant ovule — óvulo vegetal (Spanish, exact), 胚珠 (Japanese, exact), Poaceae ovule (narrow), Zea ovule (narrow)
Function-related keywords:
Literature:
- Multiple signaling pathways in gene expression during sugar starvation. Pharmacological analysis of din gene expression in suspension-cultured cells of Arabidopsis. DOI: 10.1104/pp.124.3.1139 ; PMID: 11080291
- Dark-inducible genes from Arabidopsis thaliana are associated with leaf senescence and repressed by sugars. DOI: 10.1034/j.1399-3054.2001.1110312.x ; PMID: 11240919
- Microarray analysis of E2Fa-DPa-overexpressing plants uncovers a cross-talking genetic network between DNA replication and nitrogen assimilation. DOI: 10.1242/jcs.00715 ; PMID: 12953064
- Transcriptome analysis of Arabidopsis colonized by a plant-growth promoting rhizobacterium reveals a general effect on disease resistance. DOI: 10.1046/j.1365-313x.2003.01867.x ; PMID: 14535883
- Versatile gene-specific sequence tags for Arabidopsis functional genomics: transcript profiling and reverse genetics applications. DOI: 10.1101/gr.2544504 ; PMID: 15489341
- Identification of novel heat shock factor-dependent genes and biochemical pathways in Arabidopsis thaliana. DOI: 10.1111/j.1365-313X.2004.02272.x ; PMID: 15610345
- Microarray analysis of genes that respond to gamma-irradiation in Arabidopsis. DOI: 10.1021/jf0486895 ; PMID: 15713015
- Functional genomics by integrated analysis of metabolome and transcriptome of Arabidopsis plants over-expressing an MYB transcription factor. DOI: 10.1111/j.1365-313X.2005.02371.x ; PMID: 15807784
- Enhanced tolerance to environmental stress in transgenic plants expressing the transcriptional coactivator multiprotein bridging factor 1c. DOI: 10.1104/pp.105.070110 ; PMID: 16244138
- Genetic analysis of Arabidopsis GATA transcription factor gene family reveals a nitrate-inducible member important for chlorophyll synthesis and glucose sensitivity. DOI: 10.1111/j.1365-313X.2005.02568.x ; PMID: 16262716
- A subgroup of MYB transcription factor genes undergoes highly conserved alternative splicing in Arabidopsis and rice. DOI: 10.1093/jxb/erj094 ; PMID: 16531467
- Transcription analysis of arabidopsis membrane transporters and hormone pathways during developmental and induced leaf senescence. DOI: 10.1104/pp.106.079293 ; PMID: 16603661
- Impaired sucrose induction1 encodes a conserved plant-specific protein that couples carbohydrate availability to gene expression and plant growth. DOI: 10.1111/j.1365-313X.2006.02765.x ; PMID: 16805736
- Identification of stress-tolerance-related transcription-factor genes via mini-scale Full-length cDNA Over-eXpressor (FOX) gene hunting system. DOI: 10.1016/j.bbrc.2007.09.124 ; PMID: 17937930
- The Arabidopsis SDG4 contributes to the regulation of pollen tube growth by methylation of histone H3 lysines 4 and 36 in mature pollen. DOI: 10.1016/j.ydbio.2007.12.016 ; PMID: 18252252
- Comparative mapping of Brassica juncea and Arabidopsis thaliana using Intron Polymorphism (IP) markers: homoeologous relationships, diversification and evolution of the A, B and C Brassica genomes. DOI: 10.1186/1471-2164-9-113 ; PMID: 18315867
- Galactinol and raffinose constitute a novel function to protect plants from oxidative damage. DOI: 10.1104/pp.108.122465 ; PMID: 18502973
- 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
- Articulation of three core metabolic processes in Arabidopsis: fatty acid biosynthesis, leucine catabolism and starch metabolism. DOI: 10.1186/1471-2229-8-76 ; PMID: 18616834
- Transcriptional responses of Arabidopsis thaliana plants to As (V) stress. DOI: 10.1186/1471-2229-8-87 ; PMID: 18684332
- Transcriptome analyses show changes in gene expression to accompany pollen germination and tube growth in Arabidopsis. DOI: 10.1104/pp.108.126375 ; PMID: 18775970
- Transcriptomic analysis of Arabidopsis developing stems: a close-up on cell wall genes. DOI: 10.1186/1471-2229-9-6 ; PMID: 19149885
- Expression-based discovery of candidate ovule development regulators through transcriptional profiling of ovule mutants. DOI: 10.1186/1471-2229-9-29 ; PMID: 19291320
- Metabolic pathways involved in cold acclimation identified by integrated analysis of metabolites and transcripts regulated by DREB1A and DREB2A. DOI: 10.1104/pp.109.135327 ; PMID: 19502356
- Karrikins enhance light responses during germination and seedling development in Arabidopsis thaliana. DOI: 10.1073/pnas.0911635107 ; PMID: 20351290
- Endogenous Arabidopsis messenger RNAs transported to distant tissues. DOI: 10.1038/nplants.2015.25 ; PMID: 27247031
- Raffinose Family Oligosaccharides Act As Galactose Stores in Seeds and Are Required for Rapid Germination of Arabidopsis in the Dark. DOI: 10.3389/fpls.2016.01115 ; PMID: 27507985
- MRF Family Genes Are Involved in Translation Control, Especially under Energy-Deficient Conditions, and Their Expression and Functions Are Modulated by the TOR Signaling Pathway. DOI: 10.1105/tpc.17.00563 ; PMID: 29084871
- Integrative Analysis from the Epigenome to Translatome Uncovers Patterns of Dominant Nuclear Regulation during Transient Stress. DOI: 10.1105/tpc.19.00463 ; PMID: 31519798
- Sorting signals, N-terminal modifications and abundance of the chloroplast proteome. DOI: 10.1371/journal.pone.0001994 ; PMID: 18431481
- Sorting signals, N-terminal modifications and abundance of the chloroplast proteome. DOI: 10.1371/journal.pone.0001994 ; PMID: 18431481
- Sorting signals, N-terminal modifications and abundance of the chloroplast proteome. DOI: 10.1371/journal.pone.0001994 ; PMID: 18431481
- Analysis of protein complexes in Arabidopsis leaves using size exclusion chromatography and label-free protein correlation profiling. DOI: 10.1016/j.jprot.2017.06.004 ; PMID: 28627464
Sequences:
cDNA Sequence
- >AT5G20250.2
ATCCAATTCAACATCCAATTTTTTTTTATCCTTTATGAGAAAAACAAAATCCAAAATAAGAAAGTATTTATTTAATATTATAAATTCAACTGAGTTAAGCGTCCTACAAACTTGTAAAAAAACTCACCAAACGAGGAAAGCCAAAGAGAGAGAGAGAGAAACAAAAATGGCGTCACAGAGTTGCTACAATGGAATCCATCGTATAAAAAGGGTTCATCCTCTGATTCACTCTCTCACATTTCATCGATTCTCCTCATCTTCTCTTCCATTCAAATCTCACATTCCCTCTTCACAACAACAGCTTCGTATTCGCTCATCTTCTTCGCTTTCTGGCATTGTTCGTCTACTCGAGGATTTCAATTTTGGTCATACAAGAGAAGCGAAGCAGCGTCGCCGTTCAAGACGAGGTACAGAGAAAACGAAGAAGAAGAAGATATGACGATTAAACCGGCGGTTCGTATTTCCGACGGGAATCTAATCATCAAAAACCGGACGATTCTAACCGGTGTACCAGATAATGTCATCACGACGTCAGCATCGGAAGCTGGACCGGTAGAAGGAGTCTTCGTCGGAGCTGTATTTAACAAGGAAGAGAGTAAACACATCGTACCGATCGGTACGCTTCGCAATTCCCGGTTTATGTCTTGTTTCCGGTTTAAGCTCTGGTGGATGGCCCAGAGAATGGGAGAAATGGGCCGAGATATTCCCTACGAGACGCAGTTCTTATTGGTCGAGAGCAACGATGGGTCCCACCTTGAGTCTGACGGAGCTAACGGCGTCGAGTGTAACCAGAAAGTTTACACCGTTTTCTTGCCGTTAATCGAAGGATCTTTCCGTTCGTGTCTCCAAGGAAACGTTAACGATGAGGTTGAGCTCTGTTTGGAGAGTGGTGACGTGGACACTAAACGGTCGTCGTTTACTCACTCTCTGTATATTCACGCCGGTACAGATCCGTTTCAGACAATAACGGACGCTATTCGCACCGTTAAGTTGCATCTGAATAGTTTCCGTCAACGTCACGAAAAGAAGCTTCCAGGGATCGTTGACTACTTCGGATGGTGCACTTGGGACGCGTTTTATCAAGAAGTGACTCAGGAAGGCGTCGAAGCTGGTCTTAAGTCTCTCGCCGCCGGTGGTACGCCGCCGAAGTTTGTTATCATAGACGACGGTTGGCAATCAGTTGAGAGAGATGCCACGGTGGAGGCCGGAGATGAGAAGAAAGAGTCACCGATTTTTCGACTGACGGGGATCAAGGAGAACGAAAAGTTTAAGAAGAAGGATGATCCAAACGTTGGGATTAAGAACATTGTCAAGATTGCTAAGGAGAAACACGGTTTGAAATATGTTTACGTGTGGCACGCGATAACGGGTTATTGGGGCGGAGTTAGACCCGGGGAAGAATACGGATCTGTTATGAAATATCCTAATATGTCAAAGGGTGTGGTGGAGAATGATCCGACGTGGAAGACTGATGTAATGACGCTGCAAGGGTTGGGTTTGGTTAGCCCCAAGAAAGTGTATAAGTTTTACAATGAGCTTCATAGTTACTTGGCTGATGCTGGCGTGGACGGTGTGAAAGTGGATGTGCAGTGTGTATTGGAGACTTTGGGTGGTGGTTTAGGCGGTCGGGTTGAGCTGACTCGTCAGTTTCATCAAGCTCTTGACTCCTCTGTTGCTAAGAACTTCCCGGATAATGGCTGCATTGCTTGTATGAGCCATAATACGGATGCTCTTTACTGCTCGAAGCAAGCAGCTGTGATTAGAGCATCAGATGATTTCTATCCACGGGATCCGGTGTCTCATACCATCCATATAGCCTCCGTTGCTTATAACAGTGTGTTCTTGGGAGAGTTTATGCAGCCTGACTGGGATATGTTCCATTCCGTGCACCCTGCTGCAGAGTATCATGCCTCTGCTAGGGCCATCAGTGGTGGGCCTCTCTATGTCAGTGATTCTCCTGGAAAGCACAACTTTGAGCTTCTAAGAAAGCTTGTATTGCCTGATGGATCGATTCTTCGTGCTCGACTCCCTGGTAGACCAACTCGCGATTGTTTGTTCGCTGATCCTGCCCGTGATGGTGTCAGCTTGCTAAAGATATGGAACATGAACAAGTACACTGGAGTTCTTGGCGTGTATAACTGCCAAGGAGCAGCTTGGAGCAGCACAGAGAGAAAAAACATTTTCCACCAGACTAAAACTGATAGCCTCACTGGCTCCATTCGTGGTCGTGATGTGCATTCAATATCGGAGGCCTCCACTGATCCAACAACCTGGAATGGAGACTGTGCTGTTTACTCCCAGAGCAGAGGCGAACTTATTGTTATGCCATACAATGTGTCTCTTCCAGTCTCACTCAAAATCCGTGAGCACGAGATCTTCACGGTGAGCCCCATTAGTCATCTTGTTGATGGTGTATCTTTTGCCCCAATTGGTCTAGTAAACATGTACAATTCGGGAGGAGCTATCGAAGGACTTAGATATGAAGCCGAGAAGATGAAAGTGGTAATGGAAGTTAAAGGATGTGGCAAATTCGGATCTTACTCTTCTGTGAAGCCTAAGAGATGCGTTGTTGAGTCAAATGAGATTGCATTCGAGTACGATTCCTCCTCTGGATTGGTCACCTTTGAGTTAGACAAAATGCCTATAGAGAACAAACGATTTCATCTGATCCAAGTTGAGTTATGAAGAGTGATTCATACAATTCATTAAACAAAAACAGTCTCAAAACAGTTTTAAATAGTCTTTATTATTTGTAAACCTTTGGTTACCATTGTAGCTACTTTCAATGTTATACTACAGTTCACGTTATTGTTCTATACCAATATTAATTCCCCAAAAAAAACAGAGTATCACTACTAAGGCAACCTCAGGTTTAGTCTTCTCAACCAAACAGAGTGAAGAAGCATTCTAAG - >AT5G20250.4
ATCCAATTCAACATCCAATTTTTTTTTATCCTTTATGAGAAAAACAAAATCCAAAATAAGAAAGTATTTATTTAATATTATAAATTCAACTGAGTTAAGCGTCCTACAAACTTGTAAAAAAACTCACCAAACGAGGAAAGCCAAAGAGAGAGAGAGAGAAACAAAAATGGCGTCACAGAGTTGCTACAATGGAATCCATCGTATAAAAAGGGTTCATCCTCTGATTCACTCTCTCACATTTCATCGATTCTCCTCATCTTCTCTTCCATTCAAATCTCACATTCCCTCTTCACAACAACAGCTTCGTATTCGCTCATCTTCTTCGCTTTCTGGCATTGTTCGTCTACTCGAGGATTTCAATTTTGGTCATACAAGAGAAGCGAAGCAGCGTCGCCGTTCAAGACGAGGTACAGAGAAAACGAAGAAGAAGAAGATATGACGATTAAACCGGCGGTTCGTATTTCCGACGGGAATCTAATCATCAAAAACCGGACGATTCTAACCGGTGTACCAGATAATGTCATCACGACGTCAGCATCGGAAGCTGGACCGGTAGAAGGAGTCTTCGTCGGAGCTGTATTTAACAAGGAAGAGAGTAAACACATCGTACCGATCGGTACGCTTCGCAATTCCCGGTTTATGTCTTGTTTCCGGTTTAAGCTCTGGTGGATGGCCCAGAGAATGGGAGAAATGGGCCGAGATATTCCCTACGAGACGCAGTTCTTATTGGTCGAGAGCAACGATGGGTCCCACCTTGAGTCTGACGGAGCTAACGGCGTCGAGTGTAACCAGAAAGTTTACACCGTTTTCTTGCCGTTAATCGAAGGATCTTTCCGTTCGTGTCTCCAAGGAAACGTTAACGATGAGGTTGAGCTCTGTTTGGAGAGTGGTGACGTGGACACTAAACGGTCGTCGTTTACTCACTCTCTGTATATTCACGCCGGTACAGATCCGTTTCAGACAATAACGGACGCTATTCGCACCGTTAAGTTGCATCTGAATAGTTTCCGTCAACGTCACGAAAAGAAGCTTCCAGGGATCGTTGACTACTTCGGATGGTGCACTTGGGACGCGTTTTATCAAGAAGTGACTCAGGAAGGCGTCGAAGCTGGTCTTAAGTCTCTCGCCGCCGGTGGTACGCCGCCGAAGTTTGTTATCATAGACGACGGTTGGCAATCAGTTGAGAGAGATGCCACGGTGGAGGCCGGAGATGAGAAGAAAGAGTCACCGATTTTTCGACTGACGGGGATCAAGGAGAACGAAAAGTTTAAGAAGAAGGATGATCCAAACGTTGGGATTAAGAACATTGTCAAGATTGCTAAGGAGAAACACGGTTTGAAATATGTTTACGTGTGGCACGCGATAACGGGTTATTGGGGCGGAGTTAGACCCGGGGAAGAATACGGATCTGTTATGAAATATCCTAATATGTCAAAGGGTGTGGTGGAGAATGATCCGACGTGGAAGACTGATGTAATGACGCTGCAAGGGTTGGGTTTGGTTAGCCCCAAGAAAGTGTATAAGTTTTACAATGAGCTTCATAGTTACTTGGCTGATGCTGGCGTGGACGGTGTGAAAGTGGATGTGCAGTGTGTATTGGAGACTTTGGGTGGTGGTTTAGGCGGTCGGGTTGAGCTGACTCGTCAGTTTCATCAAGCTCTTGACTCCTCTGTTGCTAAGAACTTCCCGGATAATGGCTGCATTGCTTGTATGAGCCATAATACGGATGCTCTTTACTGCTCGAAGCAAGCAGCTGTGATTAGAGCATCAGATGATTTCTATCCACGGGATCCGGTGTCTCATACCATCCATATAGCCTCCGTTGCTTATAACAGTGTGTTCTTGGGAGAGTTTATGCAGCCTGACTGGGATATGTTCCATTCCGTGCACCCTGCTGCAGAGTATCATGCCTCTGCTAGGGCCATCAGTGGTGGGCCTCTCTATGTCAGTGATTCTCCTGGAAAGCACAACTTTGAGCTTCTAAGAAAGCTTGTATTGCCTGATGGATCGATTCTTCGTGCTCGACTCCCTGGTAGACCAACTCGCGATTGTTTGTTCGCTGATCCTGCCCGTGATGGTGTCAGCTTGCTAAAGATATGGAACATGAACAAGTACACTGGAGTTCTTGGCGTGTATAACTGCCAAGGAGCAGCTTGGAGCAGCACAGAGAGAAAAAACATTTTCCACCAGACTAAAACTGATAGCCTCACTGGCTCCATTCGTGGTCGTGATGTGCATTCAATATCGGAGGCCTCCACTGATCCAACAACCTGGAATGGAGACTGTGCTGTTTACTCCCAGAGCAGAGGCGAACTTATTGTTATGCCATACAATGTGTCTCTTCCAGTCTCACTCAAAATCCGTGAGCACGAGATCTTCACGGTGAGCCCCATTAGTCATCTTGTTGATGGTGTATCTTTTGCCCCAATTGGTCTAGTAAACATGTACAATTCGGGAGGAGCTATCGAAGGACTTAGATATGAAGCCGAGAAGATGAAAGTGGTAATGGAAGTTAAAGGATGTGGCAAATTCGGATCTTACTCTTCTGTGAAGCCTAAGAGATGCGTTGTTGAGTCAAATGAGATTGCATTCGAGTACGATTCCTCCTCTGGATTGGTCACCTTTGAGTTAGACAAAATGCCTATAGAGAACAAACGATTTCATCTGATCCAAGTTGAGTTATGAAGAGTGATTCATACAATTCATTAAACAAAAACAGTCTCAAAACAGTTTTAAATAGTCTTTATTATTTGTAAACCTTTGGTTACCATTGTAGCTACTTTCAATGTTATACTACAGTTCACGTTATTGTTCTATACCAATATTAATTCCCCAAAAAAAACAGAGTATCACTACTAAGGCAACCTCAGGTTTAGTCTTCTCAACCAAACAGAGTGAAGAAGCATTCTAAG - >AT5G20250.1
ATCCAATTCAACATCCAATTTTTTTTTATCCTTTATGAGAAAAACAAAATCCAAAATAAGAAAGTATTTATTTAATATTATAAATTCAACTGAGTTAAGCGTCCTACAAACTTGTAAAAAAACTCACCAAACGAGGAAAGCCAAAGAGAGAGAGAGAGAAACAAAAATGGCGTCACAGAGTTGCTACAATGGAATCCATCGTATAAAAAGGGTTCATCCTCTGATTCACTCTCTCACATTTCATCGATTCTCCTCATCTTCTCTTCCATTCAAATCTCACATTCCCTCTTCACAACAACAGCTTCGTATTCGCTCATCTTCTTCGCTTTCTGGCATTGTTCGTCTACTCGAGGATTTCAATTTTGGTCATACAAGAGAAGCGAAGCAGCGTCGCCGTTCAAGACGAGGTACAGAGAAAACGAAGAAGAAGAAGATATGACGATTAAACCGGCGGTTCGTATTTCCGACGGGAATCTAATCATCAAAAACCGGACGATTCTAACCGGTGTACCAGATAATGTCATCACGACGTCAGCATCGGAAGCTGGACCGGTAGAAGGAGTCTTCGTCGGAGCTGTATTTAACAAGGAAGAGAGTAAACACATCGTACCGATCGGTACGCTTCGCAATTCCCGGTTTATGTCTTGTTTCCGGTTTAAGCTCTGGTGGATGGCCCAGAGAATGGGAGAAATGGGCCGAGATATTCCCTACGAGACGCAGTTCTTATTGGTCGAGAGCAACGATGGGTCCCACCTTGAGTCTGACGGAGCTAACGGCGTCGAGTGTAACCAGAAAGTTTACACCGTTTTCTTGCCGTTAATCGAAGGATCTTTCCGTTCGTGTCTCCAAGGAAACGTTAACGATGAGGTTGAGCTCTGTTTGGAGAGTGGTGACGTGGACACTAAACGGTCGTCGTTTACTCACTCTCTGTATATTCACGCCGGTACAGATCCGTTTCAGACAATAACGGACGCTATTCGCACCGTTAAGTTGCATCTGAATAGTTTCCGTCAACGTCACGAAAAGAAGCTTCCAGGGATCGTTGACTACTTCGGATGGTGCACTTGGGACGCGTTTTATCAAGAAGTGACTCAGGAAGGCGTCGAAGCTGGTCTTAAGTCTCTCGCCGCCGGTGGTACGCCGCCGAAGTTTGTTATCATAGACGACGGTTGGCAATCAGTTGAGAGAGATGCCACGGTGGAGGCCGGAGATGAGAAGAAAGAGTCACCGATTTTTCGACTGACGGGGATCAAGGAGAACGAAAAGTTTAAGAAGAAGGATGATCCAAACGTTGGGATTAAGAACATTGTCAAGATTGCTAAGGAGAAACACGGTTTGAAATATGTTTACGTGTGGCACGCGATAACGGGTTATTGGGGCGGAGTTAGACCCGGGGAAGAATACGGATCTGTTATGAAATATCCTAATATGTCAAAGGGTGTGGTGGAGAATGATCCGACGTGGAAGACTGATGTAATGACGCTGCAAGGGTTGGGTTTGGTTAGCCCCAAGAAAGTGTATAAGTTTTACAATGAGCTTCATAGTTACTTGGCTGATGCTGGCGTGGACGGTGTGAAAGTGGATGTGCAGTGTGTATTGGAGACTTTGGGTGGTGGTTTAGGCGGTCGGGTTGAGCTGACTCGTCAGTTTCATCAAGCTCTTGACTCCTCTGTTGCTAAGAACTTCCCGGATAATGGCTGCATTGCTTGTATGAGCCATAATACGGATGCTCTTTACTGCTCGAAGCAAGCAGCTGTGATTAGAGCATCAGATGATTTCTATCCACGGGATCCGGTGTCTCATACCATCCATATAGCCTCCGTTGCTTATAACAGTGTGTTCTTGGGAGAGTTTATGCAGCCTGACTGGGATATGTTCCATTCCGTGCACCCTGCTGCAGAGTATCATGCCTCTGCTAGGGCCATCAGTGGTGGGCCTCTCTATGTCAGTGATTCTCCTGGAAAGCACAACTTTGAGCTTCTAAGAAAGCTTGTATTGCCTGATGGATCGATTCTTCGTGCTCGACTCCCTGGTAGACCAACTCGCGATTGTTTGTTCGCTGATCCTGCCCGTGATGGTGTCAGCTTGCTAAAGATATGGAACATGAACAAGTACACTGGAGTTCTTGGCGTGTATAACTGCCAAGGAGCAGCTTGGAGCAGCACAGAGAGAAAAAACATTTTCCACCAGACTAAAACTGATAGCCTCACTGGCTCCATTCGTGGTCGTGATGTGCATTCAATATCGGAGGCCTCCACTGATCCAACAACCTGGAATGGAGACTGTGCTGTTTACTCCCAGAGCAGAGGCGAACTTATTGTTATGCCATACAATGTGTCTCTTCCAGTCTCACTCAAAATCCGTGAGCACGAGATCTTCACGGTGAGCCCCATTAGTCATCTTGTTGATGGTGTATCTTTTGCCCCAATTGGTCTAGTAAACATGTACAATTCGGGAGGAGCTATCGAAGGACTTAGATATGAAGCCGAGAAGATGAAAGTGGTAATGGAAGTTAAAGGATGTGGCAAATTCGGATCTTACTCTTCTGTGAAGCCTAAGAGATGCGTTGTTGAGTCAAATGAGATTGCATTCGAGTACGATTCCTCCTCTGGATTGGTCACCTTTGAGTTAGACAAAATGCCTATAGAGAACAAACGATTTCATCTGATCCAAGTTGAGTTATGAAGAGTGATTCATACAATTCATTAAACAAAAACAGTCTCAAAACAGTTTTAAATAGTCTTTATTATTTGTAAACCTTTGGTTACCATTGTAGCTACTTTCAATGTTATACTACAGTTCACGTTATTGTTCTATACCAATATTAATTCCCCAAAAAAAACAGAGTATCACTACTAAGGCAACCTCAGGTTTAGTCTTCTCAACCAAACAGAGTGAAGAAGCATTCTAAG - >AT5G20250.3
ATCCAATTCAACATCCAATTTTTTTTTATCCTTTATGAGAAAAACAAAATCCAAAATAAGAAAGTATTTATTTAATATTATAAATTCAACTGAGTTAAGCGTCCTACAAACTTGTAAAAAAACTCACCAAACGAGGAAAGCCAAAGAGAGAGAGAGAGAAACAAAAATGGCGTCACAGAGTTGCTACAATGGAATCCATCGTATAAAAAGGGTTCATCCTCTGATTCACTCTCTCACATTTCATCGATTCTCCTCATCTTCTCTTCCATTCAAATCTCACATTCCCTCTTCACAACAACAGCTTCGTATTCGCTCATCTTCTTCGCTTTCTGGCATTGTTCGTCTACTCGAGGATTTCAATTTTGGTCATACAAGAGAAGCGAAGCAGCGTCGCCGTTCAAGACGAGGTACAGAGAAAACGAAGAAGAAGAAGATATGACGATTAAACCGGCGGTTCGTATTTCCGACGGGAATCTAATCATCAAAAACCGGACGATTCTAACCGGTGTACCAGATAATGTCATCACGACGTCAGCATCGGAAGCTGGACCGGTAGAAGGAGTCTTCGTCGGAGCTGTATTTAACAAGGAAGAGAGTAAACACATCGTACCGATCGGTACGCTTCGCAATTCCCGGTTTATGTCTTGTTTCCGGTTTAAGCTCTGGTGGATGGCCCAGAGAATGGGAGAAATGGGCCGAGATATTCCCTACGAGACGCAGTTCTTATTGGTCGAGAGCAACGATGGGTCCCACCTTGAGTCTGACGGAGCTAACGGCGTCGAGTGTAACCAGAAAGTTTACACCGTTTTCTTGCCGTTAATCGAAGGATCTTTCCGTTCGTGTCTCCAAGGAAACGTTAACGATGAGGTTGAGCTCTGTTTGGAGAGTGGTGACGTGGACACTAAACGGTCGTCGTTTACTCACTCTCTGTATATTCACGCCGGTACAGATCCGTTTCAGACAATAACGGACGCTATTCGCACCGTTAAGTTGCATCTGAATAGTTTCCGTCAACGTCACGAAAAGAAGCTTCCAGGGATCGTTGACTACTTCGGATGGTGCACTTGGGACGCGTTTTATCAAGAAGTGACTCAGGAAGGCGTCGAAGCTGGTCTTAAGTCTCTCGCCGCCGGTGGTACGCCGCCGAAGTTTGTTATCATAGACGACGGTTGGCAATCAGTTGAGAGAGATGCCACGGTGGAGGCCGGAGATGAGAAGAAAGAGTCACCGATTTTTCGACTGACGGGGATCAAGGAGAACGAAAAGTTTAAGAAGAAGGATGATCCAAACGTTGGGATTAAGAACATTGTCAAGATTGCTAAGGAGAAACACGGTTTGAAATATGTTTACGTGTGGCACGCGATAACGGGTTATTGGGGCGGAGTTAGACCCGGGGAAGAATACGGATCTGTTATGAAATATCCTAATATGTCAAAGGGTGTGGTGGAGAATGATCCGACGTGGAAGACTGATGTAATGACGCTGCAAGGGTTGGGTTTGGTTAGCCCCAAGAAAGTGTATAAGTTTTACAATGAGCTTCATAGTTACTTGGCTGATGCTGGCGTGGACGGTGTGAAAGTGGATGTGCAGTGTGTATTGGAGACTTTGGGTGGTGGTTTAGGCGGTCGGGTTGAGCTGACTCGTCAGTTTCATCAAGCTCTTGACTCCTCTGTTGCTAAGAACTTCCCGGATAATGGCTGCATTGCTTGTATGAGCCATAATACGGATGCTCTTTACTGCTCGAAGCAAGCAGCTGTGATTAGAGCATCAGATGATTTCTATCCACGGGATCCGGTGTCTCATACCATCCATATAGCCTCCGTTGCTTATAACAGTGTGTTCTTGGGAGAGTTTATGCAGCCTGACTGGGATATGTTCCATTCCGTGCACCCTGCTGCAGAGTATCATGCCTCTGCTAGGGCCATCAGTGGTGGGCCTCTCTATGTCAGTGATTCTCCTGGAAAGCACAACTTTGAGCTTCTAAGAAAGCTTGTATTGCCTGATGGATCGATTCTTCGTGCTCGACTCCCTGGTAGACCAACTCGCGATTGTTTGTTCGCTGATCCTGCCCGTGATGGTGTCAGCTTGCTAAAGATATGGAACATGAACAAGTACACTGGAGTTCTTGGCGTGTATAACTGCCAAGGAGCAGCTTGGAGCAGCACAGAGAGAAAAAACATTTTCCACCAGACTAAAACTGATAGCCTCACTGGCTCCATTCGTGGTCGTGATGTGCATTCAATATCGGAGGCCTCCACTGATCCAACAACCTGGAATGGAGACTGTGCTGTTTACTCCCAGAGCAGAGGCGAACTTATTGTTATGCCATACAATGTGTCTCTTCCAGTCTCACTCAAAATCCGTGAGCACGAGATCTTCACGGTGAGCCCCATTAGTCATCTTGTTGATGGTGTATCTTTTGCCCCAATTGGTCTAGTAAACATGTACAATTCGGGAGGAGCTATCGAAGGACTTAGATATGAAGCCGAGAAGATGAAAGTGGTAATGGAAGTTAAAGGATGTGGCAAATTCGGATCTTACTCTTCTGTGAAGCCTAAGAGATGCGTTGTTGAGTCAAATGAGATTGCATTCGAGTACGATTCCTCCTCTGGATTGGTCACCTTTGAGTTAGACAAAATGCCTATAGAGAACAAACGATTTCATCTGATCCAAGTTGAGTTATGAAGAGTGATTCATACAATTCATTAAACAAAAACAGTCTCAAAACAGTTTTAAATAGTCTTTATTATTTGTAAACCTTTGGTTACCATTGTAGCTACTTTCAATGTTATACTACAGTTCACGTTATTGTTCTATACCAATATTAATTCCCCAAAAAAAACAGAGTATCACTACTAAGGCAACCTCAGGTTTAGTCTTCTCAACCAAACAGAGTGAAGAAGCATTCTAAG
CDS Sequence
Protein Sequence