Information report for AT5G28030
Gene Details
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Functional Descriptions
- GO:0006979 — acts upstream of or within — response to oxidative stress
- GO:0080146 — enables — L-cysteine desulfhydrase activity
- GO:0044540 — enables — L-cystine L-cysteine-lyase (deaminating)
- GO:0009507 — located in — chloroplast
- GO:0006535 — involved in — cysteine biosynthetic process from serine
- GO:0005737 — is active in — cytoplasm
- GO:1990170 — acts upstream of or within — stress response to cadmium ion
- GO:0030170 — enables — pyridoxal phosphate binding
- GO:0005737 — located in — cytoplasm
- GO:0004124 — enables — cysteine synthase activity
- GO:0004123 — enables — cystathionine gamma-lyase activity
- GO:0080145 — involved in — intracellular cysteine homeostasis
- GO:0080145 — acts upstream of or within — intracellular cysteine homeostasis
Functional Keywords
Literature and News
- Overexpression of AtCpNifS enhances selenium tolerance and accumulation in Arabidopsis. DOI: 10.1104/pp.105.068684 ; PMID: 16244144
- Synthesis of the sulfur amino acids: cysteine and methionine. DOI: 10.1007/s11120-005-8810-9 ; PMID: 16307301
- Arabidopsis transcriptome changes in response to phloem-feeding silverleaf whitefly nymphs. Similarities and distinctions in responses to aphids. DOI: 10.1104/pp.106.090662 ; PMID: 17189325
- Physiological roles of the beta-substituted alanine synthase gene family in Arabidopsis. DOI: 10.1104/pp.107.106831 ; PMID: 18024555
- Analysis of the Arabidopsis O-acetylserine(thiol)lyase gene family demonstrates compartment-specific differences in the regulation of cysteine synthesis. DOI: 10.1105/tpc.107.056747 ; PMID: 18223034
- Transcription factors relevant to auxin signalling coordinate broad-spectrum metabolic shifts including sulphur metabolism. DOI: 10.1093/jxb/ern144 ; PMID: 18596113
- Functional compensation of primary and secondary metabolites by duplicate genes in Arabidopsis thaliana. DOI: 10.1093/molbev/msq204 ; PMID: 20736450
- Cysteine homeostasis plays an essential role in plant immunity. DOI: 10.1111/j.1469-8137.2011.03889.x ; PMID: 21988475
- Hydrogen sulfide generated by L-cysteine desulfhydrase acts upstream of nitric oxide to modulate abscisic acid-dependent stomatal closure. DOI: 10.1104/pp.114.245373 ; PMID: 25266633
- The role of compartment-specific cysteine synthesis for sulfur homeostasis during H2S exposure in Arabidopsis. DOI: 10.1093/pcp/pcu166 ; PMID: 25416292
- Hydrogen Sulfide Regulates the Cytosolic/Nuclear Partitioning of Glyceraldehyde-3-Phosphate Dehydrogenase by Enhancing its Nuclear Localization. DOI: 10.1093/pcp/pcx056 ; PMID: 28444344
- Hydrogen Sulfide Increases Production of NADPH Oxidase-Dependent Hydrogen Peroxide and Phospholipase D-Derived Phosphatidic Acid in Guard Cell Signaling. DOI: 10.1104/pp.17.01636 ; PMID: 29438048
- Hydrogen Sulfide Regulates Energy Production to Delay Leaf Senescence Induced by Drought Stress in Arabidopsis. DOI: 10.3389/fpls.2018.01722 ; PMID: 30532763
- The coordination of guard-cell autonomous ABA synthesis and DES1 function in situ regulates plant water deficit responses. DOI: 10.1016/j.jare.2020.07.013 ; PMID: 33318877
- Hydrogen sulfide-linked persulfidation of ABI4 controls ABA responses through the transactivation of MAPKKK18 in Arabidopsis. DOI: 10.1016/j.molp.2021.03.007 ; PMID: 33689930
- Hydrogen sulfide reduces cell death through regulating autophagy during submergence in Arabidopsis. DOI: 10.1007/s00299-022-02872-z ; PMID: 35507055
Gene Resources
Sequences
cDNA Sequence
- >AT5G28030.2
CACATTTGTTTGTACTATTACTAGAAAAATTTTAACCACAATATACATTGTTGTCGCCTTTGTTTGTGAGGTCAAGAGTCTTTTTAATGAATATCTTACAACAAGATTTGGTTTGTTTGAGAGTGTTTTGTTTTTTTTTTCATCCCAAAAATATAACAATTTACTAATTTAGATAATACGATTCAATTATACAACCACTCAATACGAATCTATATACAATATCTATATGTCTGCGTCTATATATATATGGCCTGGTGTTGTTTTAGATTTAGCGGTCTTTTGTCTCTTCTTCATTGATTAAACTCTATCGTAAATCTGAAGGAGTTTTCCAAAGACAAACCAACATGGAAGACCGCGTCTTGATCAAGAACGATGTCACTGAATTGATAGGTAACACACCAATGGTGTATCTAAATAAAATTGTGGATGGTTGTGTGGCTCGTATTGCTGCCAAGCTTGAGATGATGGAGCCTTGCTCTAGCATCAAAGATAGAATCGCATATAGTATGATCAAAGATGCTGAAGACAAAGGATTGATTACTCCGGGAAAGAGTACATTGATTGAGGCAACGGGTGGTAACACCGGGATTGGTTTAGCCAGCATCGGGGCTTCAAGAGGTTATAAAGTGATCCTTTTGATGCCTTCAACAATGAGTTTAGAAAGGAGAATCATTCTAAGAGCATTAGGTGCAGAGGTTCATCTCACTGACATTAGCATAGGCATTAAAGGACAGTTGGAGAAAGCTAAAGAGATATTAAGCAAAACTCCCGGTGGTTACATACCACACCAGTTTATTAATCCTGAAAATCCAGAGATTCATTATAGAACCACGGGTCCGGAGATTTGGAGAGATTCAGCAGGGAAAGTAGATATCTTAGTCGCCGGTGTTGGAACTGGTGGAACGGTTACTGGAACAGGGAAGTTTCTTAAAGAAAAGAACAAAGATATTAAGGTTTGTGTGGTGGAACCTTCCGAAAGTGCGGTACTCAGCGGAGGAAAACCAGGTCCACATTTGATCCAAGGAATAGGCTCTGGTGAAATTCCAGCCAATTTGGACTTAAGCATTGTTGATGAAATCATTCAAGTGACTGGTGAGGAAGCTATTGAAACAACCAAGCTTCTTGCTATCAAAGAAGGATTATTGGTTGGAATATCCTCTGGAGCCTCAGCTGCGGCTGCGTTAAAGGTTGCAAAGCGGCCTGAAAACGTAGGGAAACTCATTGTGGTTATTTTTCCTAGTGGAGGAGAACGTTATTTATCGACTGAATTGTTCGAGTCAGTCAGATATGAAGCTGAGAATTTGCCAGTTGAATGAGTAGTAGTAACGTAGGATTCAATAAGAGATGTTGGTACCAAGGTTACATTTTGATTATTGTAGGTCATTGTAAAATCAATAAGAGTTACATATTCCTTGATGATCAATTATAAGTTGTTCATTAACTAATTTTGATATAATCCGATCGCTAGACCGTCACAATCAAACGTTAAATCTTACTCATTGTTAATGGTCGGTTTTGGCCCATGAACATAATAAGCCCAAACCAAGCCCAGTAAGTGATAGAAAAGATCTGGAGTGTTCCATCGACCAAAGGAAGAGGGCAAAGAGGACAGATGTACTGTGCAGAGTGGAAAAAGTGGTAAAGACTTACAAGCATAAAAAGGAAACCCTAAAAGGACAGGTCCTATAAGTACAAGAATGGAAAGGAATGAAAGGAAATGCGCAATTCCCGCTGACACAGAGAAAGGACAGCAGTACAACCATTGACCTCGCCTCGTCTTCAAGACCTCACCTCGTCTTCAAGACCTCGCCTCGTCTTCAAGACCTCACCTCGTCTTCAAGACTTCGCCTCATCTTCAAGACCTCACCTCGTCTCCAAGACCTCGCCTTGTCTACACATCGCCGATCTCATCCTGTTTCGATCATTCCGTCACAATACCACGTCCCTTAGTCAAGAAATTCTCGTCTAGTCATCGGCCTGTTAACCGAGACGGATTCTTTAACTCTTCCTAGAGAAACATCGTACTTGTGTGATCCCTACATCAACACTCATGACTCTTGTTTGTAATTGAATTGAAAATTAGATACAAACACATTAACTAGAGCTTGTTTTGATACAGAGCTTTTAGCTAACTCTGTTAACT - >AT5G28030.5
CACATTTGTTTGTACTATTACTAGAAAAATTTTAACCACAATATACATTGTTGTCGCCTTTGTTTGTGAGGTCAAGAGTCTTTTTAATGAATATCTTACAACAAGATTTGGTTTGTTTGAGAGTGTTTTGTTTTTTTTTTCATCCCAAAAATATAACAATTTACTAATTTAGATAATACGATTCAATTATACAACCACTCAATACGAATCTATATACAATATCTATATGTCTGCGTCTATATATATATGGCCTGGTGTTGTTTTAGATTTAGCGGTCTTTTGTCTCTTCTTCATTGATTAAACTCTATCGTAAATCTGAAGGAGTTTTCCAAAGACAAACCAACATGGAAGACCGCGTCTTGATCAAGAACGATGTCACTGAATTGATAGGTAACACACCAATGGTGTATCTAAATAAAATTGTGGATGGTTGTGTGGCTCGTATTGCTGCCAAGCTTGAGATGATGGAGCCTTGCTCTAGCATCAAAGATAGAATCGCATATAGTATGATCAAAGATGCTGAAGACAAAGGATTGATTACTCCGGGAAAGAGTACATTGATTGAGGCAACGGGTGGTAACACCGGGATTGGTTTAGCCAGCATCGGGGCTTCAAGAGGTTATAAAGTGATCCTTTTGATGCCTTCAACAATGAGTTTAGAAAGGAGAATCATTCTAAGAGCATTAGGTGCAGAGGTTCATCTCACTGACATTAGCATAGGCATTAAAGGACAGTTGGAGAAAGCTAAAGAGATATTAAGCAAAACTCCCGGTGGTTACATACCACACCAGTTTATTAATCCTGAAAATCCAGAGATTCATTATAGAACCACGGGTCCGGAGATTTGGAGAGATTCAGCAGGGAAAGTAGATATCTTAGTCGCCGGTGTTGGAACTGGTGGAACGGTTACTGGAACAGGGAAGTTTCTTAAAGAAAAGAACAAAGATATTAAGGTTTGTGTGGTGGAACCTTCCGAAAGTGCGGTACTCAGCGGAGGAAAACCAGGTCCACATTTGATCCAAGGAATAGGCTCTGGTGAAATTCCAGCCAATTTGGACTTAAGCATTGTTGATGAAATCATTCAAGTGACTGGTGAGGAAGCTATTGAAACAACCAAGCTTCTTGCTATCAAAGAAGGATTATTGGTTGGAATATCCTCTGGAGCCTCAGCTGCGGCTGCGTTAAAGGTTGCAAAGCGGCCTGAAAACGTAGGGAAACTCATTGTGGTTATTTTTCCTAGTGGAGGAGAACGTTATTTATCGACTGAATTGTTCGAGTCAGTCAGATATGAAGCTGAGAATTTGCCAGTTGAATGAGTAGTAGTAACGTAGGATTCAATAAGAGATGTTGGTACCAAGGTTACATTTTGATTATTGTAGGTCATTGTAAAATCAATAAGAGTTACATATTCCTTGATGATCAATTATAAGTTGTTCATTAACTAATTTTGATATAATCCGATCGCTAGACCGTCACAATCAAACGTTAAATCTTACTCATTGTTAATGGTCGGTTTTGGCCCATGAACATAATAAGCCCAAACCAAGCCCAGTAAGTGATAGAAAAGATCTGGAGTGTTCCATCGACCAAAGGAAGAGGGCAAAGAGGACAGATGTACTGTGCAGAGTGGAAAAAGTGGTAAAGACTTACAAGCATAAAAAGGAAACCCTAAAAGGACAGGTCCTATAAGTACAAGAATGGAAAGGAATGAAAGGAAATGCGCAATTCCCGCTGACACAGAGAAAGGACAGCAGTACAACCATTGACCTCGCCTCGTCTTCAAGACCTCACCTCGTCTTCAAGACCTCGCCTCGTCTTCAAGACCTCACCTCGTCTTCAAGACTTCGCCTCATCTTCAAGACCTCACCTCGTCTCCAAGACCTCGCCTTGTCTACACATCGCCGATCTCATCCTGTTTCGATCATTCCGTCACAATACCACGTCCCTTAGTCAAGAAATTCTCGTCTAGTCATCGGCCTGTTAACCGAGACGGATTCTTTAACTCTTCCTAGAGAAACATCGTACTTGTGTGATCCCTACATCAACACTCATGACTCTTGTTTGTAATTGAATTGAAAATTAGATACAAACACATTAACTAGAGCTTGTTTTGATACAGAGCTTTTAGCTAACTCTGTTAACT - >AT5G28030.4
CACATTTGTTTGTACTATTACTAGAAAAATTTTAACCACAATATACATTGTTGTCGCCTTTGTTTGTGAGGTCAAGAGTCTTTTTAATGAATATCTTACAACAAGATTTGGTTTGTTTGAGAGTGTTTTGTTTTTTTTTTCATCCCAAAAATATAACAATTTACTAATTTAGATAATACGATTCAATTATACAACCACTCAATACGAATCTATATACAATATCTATATGTCTGCGTCTATATATATATGGCCTGGTGTTGTTTTAGATTTAGCGGTCTTTTGTCTCTTCTTCATTGATTAAACTCTATCGTAAATCTGAAGGAGTTTTCCAAAGACAAACCAACATGGAAGACCGCGTCTTGATCAAGAACGATGTCACTGAATTGATAGGTAACACACCAATGGTGTATCTAAATAAAATTGTGGATGGTTGTGTGGCTCGTATTGCTGCCAAGCTTGAGATGATGGAGCCTTGCTCTAGCATCAAAGATAGAATCGCATATAGTATGATCAAAGATGCTGAAGACAAAGGATTGATTACTCCGGGAAAGAGTACATTGATTGAGGCAACGGGTGGTAACACCGGGATTGGTTTAGCCAGCATCGGGGCTTCAAGAGGTTATAAAGTGATCCTTTTGATGCCTTCAACAATGAGTTTAGAAAGGAGAATCATTCTAAGAGCATTAGGTGCAGAGGTTCATCTCACTGACATTAGCATAGGCATTAAAGGACAGTTGGAGAAAGCTAAAGAGATATTAAGCAAAACTCCCGGTGGTTACATACCACACCAGTTTATTAATCCTGAAAATCCAGAGATTCATTATAGAACCACGGGTCCGGAGATTTGGAGAGATTCAGCAGGGAAAGTAGATATCTTAGTCGCCGGTGTTGGAACTGGTGGAACGGTTACTGGAACAGGGAAGTTTCTTAAAGAAAAGAACAAAGATATTAAGGTTTGTGTGGTGGAACCTTCCGAAAGTGCGGTACTCAGCGGAGGAAAACCAGGTCCACATTTGATCCAAGGAATAGGCTCTGGTGAAATTCCAGCCAATTTGGACTTAAGCATTGTTGATGAAATCATTCAAGTGACTGGTGAGGAAGCTATTGAAACAACCAAGCTTCTTGCTATCAAAGAAGGATTATTGGTTGGAATATCCTCTGGAGCCTCAGCTGCGGCTGCGTTAAAGGTTGCAAAGCGGCCTGAAAACGTAGGGAAACTCATTGTGGTTATTTTTCCTAGTGGAGGAGAACGTTATTTATCGACTGAATTGTTCGAGTCAGTCAGATATGAAGCTGAGAATTTGCCAGTTGAATGAGTAGTAGTAACGTAGGATTCAATAAGAGATGTTGGTACCAAGGTTACATTTTGATTATTGTAGGTCATTGTAAAATCAATAAGAGTTACATATTCCTTGATGATCAATTATAAGTTGTTCATTAACTAATTTTGATATAATCCGATCGCTAGACCGTCACAATCAAACGTTAAATCTTACTCATTGTTAATGGTCGGTTTTGGCCCATGAACATAATAAGCCCAAACCAAGCCCAGTAAGTGATAGAAAAGATCTGGAGTGTTCCATCGACCAAAGGAAGAGGGCAAAGAGGACAGATGTACTGTGCAGAGTGGAAAAAGTGGTAAAGACTTACAAGCATAAAAAGGAAACCCTAAAAGGACAGGTCCTATAAGTACAAGAATGGAAAGGAATGAAAGGAAATGCGCAATTCCCGCTGACACAGAGAAAGGACAGCAGTACAACCATTGACCTCGCCTCGTCTTCAAGACCTCACCTCGTCTTCAAGACCTCGCCTCGTCTTCAAGACCTCACCTCGTCTTCAAGACTTCGCCTCATCTTCAAGACCTCACCTCGTCTCCAAGACCTCGCCTTGTCTACACATCGCCGATCTCATCCTGTTTCGATCATTCCGTCACAATACCACGTCCCTTAGTCAAGAAATTCTCGTCTAGTCATCGGCCTGTTAACCGAGACGGATTCTTTAACTCTTCCTAGAGAAACATCGTACTTGTGTGATCCCTACATCAACACTCATGACTCTTGTTTGTAATTGAATTGAAAATTAGATACAAACACATTAACTAGAGCTTGTTTTGATACAGAGCTTTTAGCTAACTCTGTTAACT - >AT5G28030.3
CACATTTGTTTGTACTATTACTAGAAAAATTTTAACCACAATATACATTGTTGTCGCCTTTGTTTGTGAGGTCAAGAGTCTTTTTAATGAATATCTTACAACAAGATTTGGTTTGTTTGAGAGTGTTTTGTTTTTTTTTTCATCCCAAAAATATAACAATTTACTAATTTAGATAATACGATTCAATTATACAACCACTCAATACGAATCTATATACAATATCTATATGTCTGCGTCTATATATATATGGCCTGGTGTTGTTTTAGATTTAGCGGTCTTTTGTCTCTTCTTCATTGATTAAACTCTATCGTAAATCTGAAGGAGTTTTCCAAAGACAAACCAACATGGAAGACCGCGTCTTGATCAAGAACGATGTCACTGAATTGATAGGTAACACACCAATGGTGTATCTAAATAAAATTGTGGATGGTTGTGTGGCTCGTATTGCTGCCAAGCTTGAGATGATGGAGCCTTGCTCTAGCATCAAAGATAGAATCGCATATAGTATGATCAAAGATGCTGAAGACAAAGGATTGATTACTCCGGGAAAGAGTACATTGATTGAGGCAACGGGTGGTAACACCGGGATTGGTTTAGCCAGCATCGGGGCTTCAAGAGGTTATAAAGTGATCCTTTTGATGCCTTCAACAATGAGTTTAGAAAGGAGAATCATTCTAAGAGCATTAGGTGCAGAGGTTCATCTCACTGACATTAGCATAGGCATTAAAGGACAGTTGGAGAAAGCTAAAGAGATATTAAGCAAAACTCCCGGTGGTTACATACCACACCAGTTTATTAATCCTGAAAATCCAGAGATTCATTATAGAACCACGGGTCCGGAGATTTGGAGAGATTCAGCAGGGAAAGTAGATATCTTAGTCGCCGGTGTTGGAACTGGTGGAACGGTTACTGGAACAGGGAAGTTTCTTAAAGAAAAGAACAAAGATATTAAGGTTTGTGTGGTGGAACCTTCCGAAAGTGCGGTACTCAGCGGAGGAAAACCAGGTCCACATTTGATCCAAGGAATAGGCTCTGGTGAAATTCCAGCCAATTTGGACTTAAGCATTGTTGATGAAATCATTCAAGTGACTGGTGAGGAAGCTATTGAAACAACCAAGCTTCTTGCTATCAAAGAAGGATTATTGGTTGGAATATCCTCTGGAGCCTCAGCTGCGGCTGCGTTAAAGGTTGCAAAGCGGCCTGAAAACGTAGGGAAACTCATTGTGGTTATTTTTCCTAGTGGAGGAGAACGTTATTTATCGACTGAATTGTTCGAGTCAGTCAGATATGAAGCTGAGAATTTGCCAGTTGAATGAGTAGTAGTAACGTAGGATTCAATAAGAGATGTTGGTACCAAGGTTACATTTTGATTATTGTAGGTCATTGTAAAATCAATAAGAGTTACATATTCCTTGATGATCAATTATAAGTTGTTCATTAACTAATTTTGATATAATCCGATCGCTAGACCGTCACAATCAAACGTTAAATCTTACTCATTGTTAATGGTCGGTTTTGGCCCATGAACATAATAAGCCCAAACCAAGCCCAGTAAGTGATAGAAAAGATCTGGAGTGTTCCATCGACCAAAGGAAGAGGGCAAAGAGGACAGATGTACTGTGCAGAGTGGAAAAAGTGGTAAAGACTTACAAGCATAAAAAGGAAACCCTAAAAGGACAGGTCCTATAAGTACAAGAATGGAAAGGAATGAAAGGAAATGCGCAATTCCCGCTGACACAGAGAAAGGACAGCAGTACAACCATTGACCTCGCCTCGTCTTCAAGACCTCACCTCGTCTTCAAGACCTCGCCTCGTCTTCAAGACCTCACCTCGTCTTCAAGACTTCGCCTCATCTTCAAGACCTCACCTCGTCTCCAAGACCTCGCCTTGTCTACACATCGCCGATCTCATCCTGTTTCGATCATTCCGTCACAATACCACGTCCCTTAGTCAAGAAATTCTCGTCTAGTCATCGGCCTGTTAACCGAGACGGATTCTTTAACTCTTCCTAGAGAAACATCGTACTTGTGTGATCCCTACATCAACACTCATGACTCTTGTTTGTAATTGAATTGAAAATTAGATACAAACACATTAACTAGAGCTTGTTTTGATACAGAGCTTTTAGCTAACTCTGTTAACT - >AT5G28030.1
CACATTTGTTTGTACTATTACTAGAAAAATTTTAACCACAATATACATTGTTGTCGCCTTTGTTTGTGAGGTCAAGAGTCTTTTTAATGAATATCTTACAACAAGATTTGGTTTGTTTGAGAGTGTTTTGTTTTTTTTTTCATCCCAAAAATATAACAATTTACTAATTTAGATAATACGATTCAATTATACAACCACTCAATACGAATCTATATACAATATCTATATGTCTGCGTCTATATATATATGGCCTGGTGTTGTTTTAGATTTAGCGGTCTTTTGTCTCTTCTTCATTGATTAAACTCTATCGTAAATCTGAAGGAGTTTTCCAAAGACAAACCAACATGGAAGACCGCGTCTTGATCAAGAACGATGTCACTGAATTGATAGGTAACACACCAATGGTGTATCTAAATAAAATTGTGGATGGTTGTGTGGCTCGTATTGCTGCCAAGCTTGAGATGATGGAGCCTTGCTCTAGCATCAAAGATAGAATCGCATATAGTATGATCAAAGATGCTGAAGACAAAGGATTGATTACTCCGGGAAAGAGTACATTGATTGAGGCAACGGGTGGTAACACCGGGATTGGTTTAGCCAGCATCGGGGCTTCAAGAGGTTATAAAGTGATCCTTTTGATGCCTTCAACAATGAGTTTAGAAAGGAGAATCATTCTAAGAGCATTAGGTGCAGAGGTTCATCTCACTGACATTAGCATAGGCATTAAAGGACAGTTGGAGAAAGCTAAAGAGATATTAAGCAAAACTCCCGGTGGTTACATACCACACCAGTTTATTAATCCTGAAAATCCAGAGATTCATTATAGAACCACGGGTCCGGAGATTTGGAGAGATTCAGCAGGGAAAGTAGATATCTTAGTCGCCGGTGTTGGAACTGGTGGAACGGTTACTGGAACAGGGAAGTTTCTTAAAGAAAAGAACAAAGATATTAAGGTTTGTGTGGTGGAACCTTCCGAAAGTGCGGTACTCAGCGGAGGAAAACCAGGTCCACATTTGATCCAAGGAATAGGCTCTGGTGAAATTCCAGCCAATTTGGACTTAAGCATTGTTGATGAAATCATTCAAGTGACTGGTGAGGAAGCTATTGAAACAACCAAGCTTCTTGCTATCAAAGAAGGATTATTGGTTGGAATATCCTCTGGAGCCTCAGCTGCGGCTGCGTTAAAGGTTGCAAAGCGGCCTGAAAACGTAGGGAAACTCATTGTGGTTATTTTTCCTAGTGGAGGAGAACGTTATTTATCGACTGAATTGTTCGAGTCAGTCAGATATGAAGCTGAGAATTTGCCAGTTGAATGAGTAGTAGTAACGTAGGATTCAATAAGAGATGTTGGTACCAAGGTTACATTTTGATTATTGTAGGTCATTGTAAAATCAATAAGAGTTACATATTCCTTGATGATCAATTATAAGTTGTTCATTAACTAATTTTGATATAATCCGATCGCTAGACCGTCACAATCAAACGTTAAATCTTACTCATTGTTAATGGTCGGTTTTGGCCCATGAACATAATAAGCCCAAACCAAGCCCAGTAAGTGATAGAAAAGATCTGGAGTGTTCCATCGACCAAAGGAAGAGGGCAAAGAGGACAGATGTACTGTGCAGAGTGGAAAAAGTGGTAAAGACTTACAAGCATAAAAAGGAAACCCTAAAAGGACAGGTCCTATAAGTACAAGAATGGAAAGGAATGAAAGGAAATGCGCAATTCCCGCTGACACAGAGAAAGGACAGCAGTACAACCATTGACCTCGCCTCGTCTTCAAGACCTCACCTCGTCTTCAAGACCTCGCCTCGTCTTCAAGACCTCACCTCGTCTTCAAGACTTCGCCTCATCTTCAAGACCTCACCTCGTCTCCAAGACCTCGCCTTGTCTACACATCGCCGATCTCATCCTGTTTCGATCATTCCGTCACAATACCACGTCCCTTAGTCAAGAAATTCTCGTCTAGTCATCGGCCTGTTAACCGAGACGGATTCTTTAACTCTTCCTAGAGAAACATCGTACTTGTGTGATCCCTACATCAACACTCATGACTCTTGTTTGTAATTGAATTGAAAATTAGATACAAACACATTAACTAGAGCTTGTTTTGATACAGAGCTTTTAGCTAACTCTGTTAACT
CDS Sequence
Protein Sequence