Information report for AT5G17460
Gene Details
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Functional Descriptions
- GO:0005739 — colocalizes with — mitochondrion
- GO:2000214 — acts upstream of or within — regulation of proline metabolic process
- GO:0005634 — located in — nucleus
- SALK_035182 — Homozygotes not recovered- likely embryo lethal.
- SALK_059531C — Seedlings screened in bulk via high throughput methods for responses to various stressors. Results are in comparison to Col-0.heat:no change,cold:increased,oxidative stress:no change,osmotic stress:no change,salt stress:decreased,ABA:no change,hypoxia:ND.
- SALK_059531C — Increased sensitivity to drought and cold stress.
- SALK_130655 — Homozygotes for dfr1-1 have increased sensitivity to drought and cold stress.
- SALK_152157C — Increased sensitivity to drought and cold stress.
- WiscDsLox474F09 — No visible phenotype.
Functional Keywords
Literature and News
- Genes that are uniquely stress regulated in salt overly sensitive (sos) mutants. DOI: 10.1104/pp.126.1.363 ; PMID: 11351099
- Two different novel cis-acting elements of erd1, a clpA homologous Arabidopsis gene function in induction by dehydration stress and dark-induced senescence. DOI: 10.1046/j.1365-313x.2003.01624.x ; PMID: 12535340
- Identification of cold-inducible downstream genes of the Arabidopsis DREB1A/CBF3 transcriptional factor using two microarray systems. DOI: 10.1111/j.1365-313X.2004.02100.x ; PMID: 15165189
- Comparative genomics in salt tolerance between Arabidopsis and aRabidopsis-related halophyte salt cress using Arabidopsis microarray. DOI: 10.1104/pp.104.039909 ; PMID: 15247402
- Roles of the CBF2 and ZAT12 transcription factors in configuring the low temperature transcriptome of Arabidopsis. DOI: 10.1111/j.1365-313X.2004.02288.x ; PMID: 15634197
- The cold-induced early activation of phospholipase C and D pathways determines the response of two distinct clusters of genes in Arabidopsis cell suspensions. DOI: 10.1104/pp.105.068171 ; PMID: 16258011
- Monitoring expression profiles of Arabidopsis genes during cold acclimation and deacclimation using DNA microarrays. DOI: 10.1007/s10142-005-0014-z ; PMID: 16463051
- Linking genes of unknown function with abiotic stress responses by high-throughput phenotype screening. DOI: 10.1111/ppl.12013 ; PMID: 23517122
- Salt hypersensitive mutant 9, a nucleolar APUM23 protein, is essential for salt sensitivity in association with the ABA signaling pathway in Arabidopsis. DOI: 10.1186/s12870-018-1255-z ; PMID: 29490615
- DFR1-Mediated Inhibition of Proline Degradation Pathway Regulates Drought and Freezing Tolerance in Arabidopsis. DOI: 10.1016/j.celrep.2018.04.011 ; PMID: 29949777
- Genes that are uniquely stress regulated in salt overly sensitive (sos) mutants. DOI: 10.1104/pp.126.1.363 ; PMID: 11351099
- DFR1-Mediated Inhibition of Proline Degradation Pathway Regulates Drought and Freezing Tolerance in Arabidopsis. DOI: 10.1016/j.celrep.2018.04.011 ; PMID: 29949777
- DFR1-Mediated Inhibition of Proline Degradation Pathway Regulates Drought and Freezing Tolerance in Arabidopsis. DOI: 10.1016/j.celrep.2018.04.011 ; PMID: 29949777
Gene Resources
- UniProt: A0A1P8BCT0
- EMBL: CP002688
- AlphaFoldDB: A0A1P8BCT0
- EnsemblPlants: AT5G17460.3
- Gramene: AT5G17460.3
- Orthologous matrix: PNERSDP
- ExpressionAtlas: AT5G17460
- PANTHER: PTHR38393, PTHR38393:SF1
Sequences
cDNA Sequence
- >AT5G17460.3
TAGTAACACACTGACCCTACGTGGAAACAAGAAAGATATTAAAAAAACTCATATGATTCGTCTCTATAAAAGATCCAACTCTCACAAATCAAACAAATCACATTTCCACTCTCCTTGAATCTGATTTCTCCACAAAAAAACTACATCGATCATCGATAATAGATCGTACTACAATACTATATTCTCAAAACGATGGTGTTTCCGGCGTGTGTACAGTGCGGAACAAGACAAAACCCCTGTCGGTGCAAAGTGGTTGGACCAACTTTAGGGTTCGTGGCTTTTCTGATAACCGGAATCATCGAGTGGCCAGTTGGTGCGGTGGTGTATATCTTTAAACACGCCAAGGGTCGTCGTATAATGGGTCATCCGGCCAGAAAAGTTTATCCCAAAGTCTCTCGATCTATTCCCATTTGACTTTCTTGTCATTAATTATAATCATGCTTTGTATTTGCTTGACAAATAATGATTCCACTTTTTAGATATATGTGATCACATAAGGTATCTAAGTCCAGAATTAGTATCCGTTATAATGACCAAATAATGTTATGTTAAAATTGATACTTTGTTTCTTGTCTTTTCAATTTGATTTACTTGATGTGTACCTTTTGTTTTGTTTTGTAATATACTTGTGCAAGCTAATAAAGTTTCATGAAAGATATTCTTATGATTGAGAAAAGTATTAGCTGCATCGTAAAACCCTAAATCTTTGAATCAAAGCTATCCAATCCATTGTATAACGAGTAAGATTGGTACGGATGAATTATTTTTAGAACACGAGAATGTTTGGATTTTTGTTCTAACGAAACAGAACTGAGAATCGCGGGAGAAACCAATCAAATTCCATGTTTGACCTTTGTTTTTACCTTTTTACCGCGGTAAGTATTGAATAGTAAAAAAAGTTTGCTTCATAAAATAGGATTCGATCAAAAAAGCCGTTAAAAGAGAAAAGGATGTTCGCGCGAAGACTCTCCTCTCTATTCTCTATCGTAACCAAAAGGTTTATCAATTGATCTGAAAATTCCATAAAACAGCACCAATAGTTCCTAATTACGAAGCTGATGTAGTTTCTCTGTTTTAATTGTAGATCACAAAGTCGCTTGCTTTCGTGTCCGACAACTTCTGCTCAAAATTGGGTATTTGCTGAGTTTCGTCAGACTATACAAGCAACTCGATTTTATGCAAGTGGAAGAGGAAAAGACTACAATCTATTTGGTAATGTGAAACCAGGTGATGATGACTTTAGAAAAACATGGGAGAAAGAAATGGAGGATGATGATACTCTATGGTCAGGAAGTGAAGACGAAAGCAATGATAAGACAAAACAAGAAAGCGGAAGAAACCGTCTTGAAAAAGAGATTAAGAAAGCTAGACAACAAGCTAAGGATAGCACCGATCAAATTGATGGAGATGATAGTGATGAATTGTACAGCGTTTGGTCAGGAAGTGATGAGGAAAAAACGCTGTGGACTGGCGATGAAGGTGATGATGACGACGATATTCCAACAGAGCCACGCCCGAACGAGGCATCTGATAAATACTTAGATAAGTTGTTTGAGTTTGAGGAGAAACCAAAGTACAGGACAATCTCAGAGTTGTTGAAATCTGAAAATGAACCTGAGGAGCTTTCACCCGGTAAAAAGGCGAGGAAGCTTGCTGTTGAGAACGCGTTGAAGAAACTGAATAAAGGGCCTGATGGGCGCTACACAAACGTGTGGGAAGTAATGAGTGATGTTGACATTCTGATTGGAGCATTTGAAAACATTATCTCGGGACCTGAGTATGAAGAGCTAAGAAAAGGTGGACCCAAGAGACTGAACATGCAGTTCTTCAAGGATATACAAACTCGAATGAGAGATCCAAACTTCAAGTTCACACCTGAAATAAAGTTGAAGCCAAAGAGTAAACTAGTGCCTAGGAAGAAATGGCAGAAGGCACAGTCCAGAATAAGGAAAGCGAAGAAGCGGTAAAAGCTCCACGCTAGTTCAACGATTTCGATAGATTTAACAGGTTTAAAGCATGCTTAGAGAACACCAAACAGCCTCCAAAAATATCCACTCAAGTCTTATTTCATCGTAAATTTGTAATGCGGTACCGTGAGTAAACAGCTTTCCTTTACCGTGATTCTGGTCTTTATGATTCCTTCTTCTAAAGAAAGAAGCTTTGAAAGAAAAGCTAAAGATGCTTTGGTCCCTCTTGGACATTTTTTTGGGGAAGAAGAATACAGCTTTTTGCATTCTTTTGATCTTCAAAAGTTTTCTTTTTTTCCTTTGGTGTTAAAAAGATTGGAACTTGTAAATGTGACACTCTCTTGCCCTTTGAAGCTTATTCTAGTCAAAATAGTAAAAATGAAGCAATTTGCCTAACAAATCACATGATTCTGATTTT - >AT5G17460.2
TAGTAACACACTGACCCTACGTGGAAACAAGAAAGATATTAAAAAAACTCATATGATTCGTCTCTATAAAAGATCCAACTCTCACAAATCAAACAAATCACATTTCCACTCTCCTTGAATCTGATTTCTCCACAAAAAAACTACATCGATCATCGATAATAGATCGTACTACAATACTATATTCTCAAAACGATGGTGTTTCCGGCGTGTGTACAGTGCGGAACAAGACAAAACCCCTGTCGGTGCAAAGTGGTTGGACCAACTTTAGGGTTCGTGGCTTTTCTGATAACCGGAATCATCGAGTGGCCAGTTGGTGCGGTGGTGTATATCTTTAAACACGCCAAGGGTCGTCGTATAATGGGTCATCCGGCCAGAAAAGTTTATCCCAAAGTCTCTCGATCTATTCCCATTTGACTTTCTTGTCATTAATTATAATCATGCTTTGTATTTGCTTGACAAATAATGATTCCACTTTTTAGATATATGTGATCACATAAGGTATCTAAGTCCAGAATTAGTATCCGTTATAATGACCAAATAATGTTATGTTAAAATTGATACTTTGTTTCTTGTCTTTTCAATTTGATTTACTTGATGTGTACCTTTTGTTTTGTTTTGTAATATACTTGTGCAAGCTAATAAAGTTTCATGAAAGATATTCTTATGATTGAGAAAAGTATTAGCTGCATCGTAAAACCCTAAATCTTTGAATCAAAGCTATCCAATCCATTGTATAACGAGTAAGATTGGTACGGATGAATTATTTTTAGAACACGAGAATGTTTGGATTTTTGTTCTAACGAAACAGAACTGAGAATCGCGGGAGAAACCAATCAAATTCCATGTTTGACCTTTGTTTTTACCTTTTTACCGCGGTAAGTATTGAATAGTAAAAAAAGTTTGCTTCATAAAATAGGATTCGATCAAAAAAGCCGTTAAAAGAGAAAAGGATGTTCGCGCGAAGACTCTCCTCTCTATTCTCTATCGTAACCAAAAGGTTTATCAATTGATCTGAAAATTCCATAAAACAGCACCAATAGTTCCTAATTACGAAGCTGATGTAGTTTCTCTGTTTTAATTGTAGATCACAAAGTCGCTTGCTTTCGTGTCCGACAACTTCTGCTCAAAATTGGGTATTTGCTGAGTTTCGTCAGACTATACAAGCAACTCGATTTTATGCAAGTGGAAGAGGAAAAGACTACAATCTATTTGGTAATGTGAAACCAGGTGATGATGACTTTAGAAAAACATGGGAGAAAGAAATGGAGGATGATGATACTCTATGGTCAGGAAGTGAAGACGAAAGCAATGATAAGACAAAACAAGAAAGCGGAAGAAACCGTCTTGAAAAAGAGATTAAGAAAGCTAGACAACAAGCTAAGGATAGCACCGATCAAATTGATGGAGATGATAGTGATGAATTGTACAGCGTTTGGTCAGGAAGTGATGAGGAAAAAACGCTGTGGACTGGCGATGAAGGTGATGATGACGACGATATTCCAACAGAGCCACGCCCGAACGAGGCATCTGATAAATACTTAGATAAGTTGTTTGAGTTTGAGGAGAAACCAAAGTACAGGACAATCTCAGAGTTGTTGAAATCTGAAAATGAACCTGAGGAGCTTTCACCCGGTAAAAAGGCGAGGAAGCTTGCTGTTGAGAACGCGTTGAAGAAACTGAATAAAGGGCCTGATGGGCGCTACACAAACGTGTGGGAAGTAATGAGTGATGTTGACATTCTGATTGGAGCATTTGAAAACATTATCTCGGGACCTGAGTATGAAGAGCTAAGAAAAGGTGGACCCAAGAGACTGAACATGCAGTTCTTCAAGGATATACAAACTCGAATGAGAGATCCAAACTTCAAGTTCACACCTGAAATAAAGTTGAAGCCAAAGAGTAAACTAGTGCCTAGGAAGAAATGGCAGAAGGCACAGTCCAGAATAAGGAAAGCGAAGAAGCGGTAAAAGCTCCACGCTAGTTCAACGATTTCGATAGATTTAACAGGTTTAAAGCATGCTTAGAGAACACCAAACAGCCTCCAAAAATATCCACTCAAGTCTTATTTCATCGTAAATTTGTAATGCGGTACCGTGAGTAAACAGCTTTCCTTTACCGTGATTCTGGTCTTTATGATTCCTTCTTCTAAAGAAAGAAGCTTTGAAAGAAAAGCTAAAGATGCTTTGGTCCCTCTTGGACATTTTTTTGGGGAAGAAGAATACAGCTTTTTGCATTCTTTTGATCTTCAAAAGTTTTCTTTTTTTCCTTTGGTGTTAAAAAGATTGGAACTTGTAAATGTGACACTCTCTTGCCCTTTGAAGCTTATTCTAGTCAAAATAGTAAAAATGAAGCAATTTGCCTAACAAATCACATGATTCTGATTTT - >AT5G17460.4
TAGTAACACACTGACCCTACGTGGAAACAAGAAAGATATTAAAAAAACTCATATGATTCGTCTCTATAAAAGATCCAACTCTCACAAATCAAACAAATCACATTTCCACTCTCCTTGAATCTGATTTCTCCACAAAAAAACTACATCGATCATCGATAATAGATCGTACTACAATACTATATTCTCAAAACGATGGTGTTTCCGGCGTGTGTACAGTGCGGAACAAGACAAAACCCCTGTCGGTGCAAAGTGGTTGGACCAACTTTAGGGTTCGTGGCTTTTCTGATAACCGGAATCATCGAGTGGCCAGTTGGTGCGGTGGTGTATATCTTTAAACACGCCAAGGGTCGTCGTATAATGGGTCATCCGGCCAGAAAAGTTTATCCCAAAGTCTCTCGATCTATTCCCATTTGACTTTCTTGTCATTAATTATAATCATGCTTTGTATTTGCTTGACAAATAATGATTCCACTTTTTAGATATATGTGATCACATAAGGTATCTAAGTCCAGAATTAGTATCCGTTATAATGACCAAATAATGTTATGTTAAAATTGATACTTTGTTTCTTGTCTTTTCAATTTGATTTACTTGATGTGTACCTTTTGTTTTGTTTTGTAATATACTTGTGCAAGCTAATAAAGTTTCATGAAAGATATTCTTATGATTGAGAAAAGTATTAGCTGCATCGTAAAACCCTAAATCTTTGAATCAAAGCTATCCAATCCATTGTATAACGAGTAAGATTGGTACGGATGAATTATTTTTAGAACACGAGAATGTTTGGATTTTTGTTCTAACGAAACAGAACTGAGAATCGCGGGAGAAACCAATCAAATTCCATGTTTGACCTTTGTTTTTACCTTTTTACCGCGGTAAGTATTGAATAGTAAAAAAAGTTTGCTTCATAAAATAGGATTCGATCAAAAAAGCCGTTAAAAGAGAAAAGGATGTTCGCGCGAAGACTCTCCTCTCTATTCTCTATCGTAACCAAAAGGTTTATCAATTGATCTGAAAATTCCATAAAACAGCACCAATAGTTCCTAATTACGAAGCTGATGTAGTTTCTCTGTTTTAATTGTAGATCACAAAGTCGCTTGCTTTCGTGTCCGACAACTTCTGCTCAAAATTGGGTATTTGCTGAGTTTCGTCAGACTATACAAGCAACTCGATTTTATGCAAGTGGAAGAGGAAAAGACTACAATCTATTTGGTAATGTGAAACCAGGTGATGATGACTTTAGAAAAACATGGGAGAAAGAAATGGAGGATGATGATACTCTATGGTCAGGAAGTGAAGACGAAAGCAATGATAAGACAAAACAAGAAAGCGGAAGAAACCGTCTTGAAAAAGAGATTAAGAAAGCTAGACAACAAGCTAAGGATAGCACCGATCAAATTGATGGAGATGATAGTGATGAATTGTACAGCGTTTGGTCAGGAAGTGATGAGGAAAAAACGCTGTGGACTGGCGATGAAGGTGATGATGACGACGATATTCCAACAGAGCCACGCCCGAACGAGGCATCTGATAAATACTTAGATAAGTTGTTTGAGTTTGAGGAGAAACCAAAGTACAGGACAATCTCAGAGTTGTTGAAATCTGAAAATGAACCTGAGGAGCTTTCACCCGGTAAAAAGGCGAGGAAGCTTGCTGTTGAGAACGCGTTGAAGAAACTGAATAAAGGGCCTGATGGGCGCTACACAAACGTGTGGGAAGTAATGAGTGATGTTGACATTCTGATTGGAGCATTTGAAAACATTATCTCGGGACCTGAGTATGAAGAGCTAAGAAAAGGTGGACCCAAGAGACTGAACATGCAGTTCTTCAAGGATATACAAACTCGAATGAGAGATCCAAACTTCAAGTTCACACCTGAAATAAAGTTGAAGCCAAAGAGTAAACTAGTGCCTAGGAAGAAATGGCAGAAGGCACAGTCCAGAATAAGGAAAGCGAAGAAGCGGTAAAAGCTCCACGCTAGTTCAACGATTTCGATAGATTTAACAGGTTTAAAGCATGCTTAGAGAACACCAAACAGCCTCCAAAAATATCCACTCAAGTCTTATTTCATCGTAAATTTGTAATGCGGTACCGTGAGTAAACAGCTTTCCTTTACCGTGATTCTGGTCTTTATGATTCCTTCTTCTAAAGAAAGAAGCTTTGAAAGAAAAGCTAAAGATGCTTTGGTCCCTCTTGGACATTTTTTTGGGGAAGAAGAATACAGCTTTTTGCATTCTTTTGATCTTCAAAAGTTTTCTTTTTTTCCTTTGGTGTTAAAAAGATTGGAACTTGTAAATGTGACACTCTCTTGCCCTTTGAAGCTTATTCTAGTCAAAATAGTAAAAATGAAGCAATTTGCCTAACAAATCACATGATTCTGATTTT - >AT5G17460.1
TAGTAACACACTGACCCTACGTGGAAACAAGAAAGATATTAAAAAAACTCATATGATTCGTCTCTATAAAAGATCCAACTCTCACAAATCAAACAAATCACATTTCCACTCTCCTTGAATCTGATTTCTCCACAAAAAAACTACATCGATCATCGATAATAGATCGTACTACAATACTATATTCTCAAAACGATGGTGTTTCCGGCGTGTGTACAGTGCGGAACAAGACAAAACCCCTGTCGGTGCAAAGTGGTTGGACCAACTTTAGGGTTCGTGGCTTTTCTGATAACCGGAATCATCGAGTGGCCAGTTGGTGCGGTGGTGTATATCTTTAAACACGCCAAGGGTCGTCGTATAATGGGTCATCCGGCCAGAAAAGTTTATCCCAAAGTCTCTCGATCTATTCCCATTTGACTTTCTTGTCATTAATTATAATCATGCTTTGTATTTGCTTGACAAATAATGATTCCACTTTTTAGATATATGTGATCACATAAGGTATCTAAGTCCAGAATTAGTATCCGTTATAATGACCAAATAATGTTATGTTAAAATTGATACTTTGTTTCTTGTCTTTTCAATTTGATTTACTTGATGTGTACCTTTTGTTTTGTTTTGTAATATACTTGTGCAAGCTAATAAAGTTTCATGAAAGATATTCTTATGATTGAGAAAAGTATTAGCTGCATCGTAAAACCCTAAATCTTTGAATCAAAGCTATCCAATCCATTGTATAACGAGTAAGATTGGTACGGATGAATTATTTTTAGAACACGAGAATGTTTGGATTTTTGTTCTAACGAAACAGAACTGAGAATCGCGGGAGAAACCAATCAAATTCCATGTTTGACCTTTGTTTTTACCTTTTTACCGCGGTAAGTATTGAATAGTAAAAAAAGTTTGCTTCATAAAATAGGATTCGATCAAAAAAGCCGTTAAAAGAGAAAAGGATGTTCGCGCGAAGACTCTCCTCTCTATTCTCTATCGTAACCAAAAGGTTTATCAATTGATCTGAAAATTCCATAAAACAGCACCAATAGTTCCTAATTACGAAGCTGATGTAGTTTCTCTGTTTTAATTGTAGATCACAAAGTCGCTTGCTTTCGTGTCCGACAACTTCTGCTCAAAATTGGGTATTTGCTGAGTTTCGTCAGACTATACAAGCAACTCGATTTTATGCAAGTGGAAGAGGAAAAGACTACAATCTATTTGGTAATGTGAAACCAGGTGATGATGACTTTAGAAAAACATGGGAGAAAGAAATGGAGGATGATGATACTCTATGGTCAGGAAGTGAAGACGAAAGCAATGATAAGACAAAACAAGAAAGCGGAAGAAACCGTCTTGAAAAAGAGATTAAGAAAGCTAGACAACAAGCTAAGGATAGCACCGATCAAATTGATGGAGATGATAGTGATGAATTGTACAGCGTTTGGTCAGGAAGTGATGAGGAAAAAACGCTGTGGACTGGCGATGAAGGTGATGATGACGACGATATTCCAACAGAGCCACGCCCGAACGAGGCATCTGATAAATACTTAGATAAGTTGTTTGAGTTTGAGGAGAAACCAAAGTACAGGACAATCTCAGAGTTGTTGAAATCTGAAAATGAACCTGAGGAGCTTTCACCCGGTAAAAAGGCGAGGAAGCTTGCTGTTGAGAACGCGTTGAAGAAACTGAATAAAGGGCCTGATGGGCGCTACACAAACGTGTGGGAAGTAATGAGTGATGTTGACATTCTGATTGGAGCATTTGAAAACATTATCTCGGGACCTGAGTATGAAGAGCTAAGAAAAGGTGGACCCAAGAGACTGAACATGCAGTTCTTCAAGGATATACAAACTCGAATGAGAGATCCAAACTTCAAGTTCACACCTGAAATAAAGTTGAAGCCAAAGAGTAAACTAGTGCCTAGGAAGAAATGGCAGAAGGCACAGTCCAGAATAAGGAAAGCGAAGAAGCGGTAAAAGCTCCACGCTAGTTCAACGATTTCGATAGATTTAACAGGTTTAAAGCATGCTTAGAGAACACCAAACAGCCTCCAAAAATATCCACTCAAGTCTTATTTCATCGTAAATTTGTAATGCGGTACCGTGAGTAAACAGCTTTCCTTTACCGTGATTCTGGTCTTTATGATTCCTTCTTCTAAAGAAAGAAGCTTTGAAAGAAAAGCTAAAGATGCTTTGGTCCCTCTTGGACATTTTTTTGGGGAAGAAGAATACAGCTTTTTGCATTCTTTTGATCTTCAAAAGTTTTCTTTTTTTCCTTTGGTGTTAAAAAGATTGGAACTTGTAAATGTGACACTCTCTTGCCCTTTGAAGCTTATTCTAGTCAAAATAGTAAAAATGAAGCAATTTGCCTAACAAATCACATGATTCTGATTTT - >AT5G17460.5
TAGTAACACACTGACCCTACGTGGAAACAAGAAAGATATTAAAAAAACTCATATGATTCGTCTCTATAAAAGATCCAACTCTCACAAATCAAACAAATCACATTTCCACTCTCCTTGAATCTGATTTCTCCACAAAAAAACTACATCGATCATCGATAATAGATCGTACTACAATACTATATTCTCAAAACGATGGTGTTTCCGGCGTGTGTACAGTGCGGAACAAGACAAAACCCCTGTCGGTGCAAAGTGGTTGGACCAACTTTAGGGTTCGTGGCTTTTCTGATAACCGGAATCATCGAGTGGCCAGTTGGTGCGGTGGTGTATATCTTTAAACACGCCAAGGGTCGTCGTATAATGGGTCATCCGGCCAGAAAAGTTTATCCCAAAGTCTCTCGATCTATTCCCATTTGACTTTCTTGTCATTAATTATAATCATGCTTTGTATTTGCTTGACAAATAATGATTCCACTTTTTAGATATATGTGATCACATAAGGTATCTAAGTCCAGAATTAGTATCCGTTATAATGACCAAATAATGTTATGTTAAAATTGATACTTTGTTTCTTGTCTTTTCAATTTGATTTACTTGATGTGTACCTTTTGTTTTGTTTTGTAATATACTTGTGCAAGCTAATAAAGTTTCATGAAAGATATTCTTATGATTGAGAAAAGTATTAGCTGCATCGTAAAACCCTAAATCTTTGAATCAAAGCTATCCAATCCATTGTATAACGAGTAAGATTGGTACGGATGAATTATTTTTAGAACACGAGAATGTTTGGATTTTTGTTCTAACGAAACAGAACTGAGAATCGCGGGAGAAACCAATCAAATTCCATGTTTGACCTTTGTTTTTACCTTTTTACCGCGGTAAGTATTGAATAGTAAAAAAAGTTTGCTTCATAAAATAGGATTCGATCAAAAAAGCCGTTAAAAGAGAAAAGGATGTTCGCGCGAAGACTCTCCTCTCTATTCTCTATCGTAACCAAAAGGTTTATCAATTGATCTGAAAATTCCATAAAACAGCACCAATAGTTCCTAATTACGAAGCTGATGTAGTTTCTCTGTTTTAATTGTAGATCACAAAGTCGCTTGCTTTCGTGTCCGACAACTTCTGCTCAAAATTGGGTATTTGCTGAGTTTCGTCAGACTATACAAGCAACTCGATTTTATGCAAGTGGAAGAGGAAAAGACTACAATCTATTTGGTAATGTGAAACCAGGTGATGATGACTTTAGAAAAACATGGGAGAAAGAAATGGAGGATGATGATACTCTATGGTCAGGAAGTGAAGACGAAAGCAATGATAAGACAAAACAAGAAAGCGGAAGAAACCGTCTTGAAAAAGAGATTAAGAAAGCTAGACAACAAGCTAAGGATAGCACCGATCAAATTGATGGAGATGATAGTGATGAATTGTACAGCGTTTGGTCAGGAAGTGATGAGGAAAAAACGCTGTGGACTGGCGATGAAGGTGATGATGACGACGATATTCCAACAGAGCCACGCCCGAACGAGGCATCTGATAAATACTTAGATAAGTTGTTTGAGTTTGAGGAGAAACCAAAGTACAGGACAATCTCAGAGTTGTTGAAATCTGAAAATGAACCTGAGGAGCTTTCACCCGGTAAAAAGGCGAGGAAGCTTGCTGTTGAGAACGCGTTGAAGAAACTGAATAAAGGGCCTGATGGGCGCTACACAAACGTGTGGGAAGTAATGAGTGATGTTGACATTCTGATTGGAGCATTTGAAAACATTATCTCGGGACCTGAGTATGAAGAGCTAAGAAAAGGTGGACCCAAGAGACTGAACATGCAGTTCTTCAAGGATATACAAACTCGAATGAGAGATCCAAACTTCAAGTTCACACCTGAAATAAAGTTGAAGCCAAAGAGTAAACTAGTGCCTAGGAAGAAATGGCAGAAGGCACAGTCCAGAATAAGGAAAGCGAAGAAGCGGTAAAAGCTCCACGCTAGTTCAACGATTTCGATAGATTTAACAGGTTTAAAGCATGCTTAGAGAACACCAAACAGCCTCCAAAAATATCCACTCAAGTCTTATTTCATCGTAAATTTGTAATGCGGTACCGTGAGTAAACAGCTTTCCTTTACCGTGATTCTGGTCTTTATGATTCCTTCTTCTAAAGAAAGAAGCTTTGAAAGAAAAGCTAAAGATGCTTTGGTCCCTCTTGGACATTTTTTTGGGGAAGAAGAATACAGCTTTTTGCATTCTTTTGATCTTCAAAAGTTTTCTTTTTTTCCTTTGGTGTTAAAAAGATTGGAACTTGTAAATGTGACACTCTCTTGCCCTTTGAAGCTTATTCTAGTCAAAATAGTAAAAATGAAGCAATTTGCCTAACAAATCACATGATTCTGATTTT
CDS Sequence
Protein Sequence