Gene Details:
- Gene ID: AT5G21930
- Gene Symbol: ATHMA8, HMA8, PAA2
- Gene Name: ARABIDOPSIS HEAVY METAL ATPASE 8, HEAVY METAL ATPASE 8, P-type ATPase of Arabidopsis 2
- Description: P-type ATPase of Arabidopsis 2;(source:Araport11)
- TAIR Accession:
- Genome: Araport11_genome_release
- Species: Arabidopsis thaliana
Transcripts:
Plant Ontology Annotations:
- 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)
Germplasm Phenotype:
- CS67801 — high chlorophyll fluorescence under actinic light as a result of mildly impaired photosynthetic electron transport due to a decreased level of holoplastocyanin
Function-related keywords:
Literature:
- PAA1, a P-type ATPase of Arabidopsis, functions in copper transport in chloroplasts. DOI: 10.1105/tpc.011817 ; PMID: 12782727
- Two P-type ATPases are required for copper delivery in Arabidopsis thaliana chloroplasts. DOI: 10.1105/tpc.104.030452 ; PMID: 15772282
- P(1B)-ATPases–an ancient family of transition metal pumps with diverse functions in plants. DOI: 10.1016/j.tplants.2005.08.008 ; PMID: 16154798
- Quantitative trait locus mapping for seed mineral concentrations in two Arabidopsis thaliana recombinant inbred populations. DOI: 10.1111/j.1469-8137.2008.02544.x ; PMID: 18631293
- Gene expression profiling analysis of copper homeostasis in Arabidopsis thaliana. DOI: 10.1016/j.bbrc.2010.01.111 ; PMID: 20117084
Sequence:
cDNA Sequence
- >AT5G21930.1 ATCCGACGTGTCAACGTTTAGCGATACTCTTTTTAACGAACCATACACCAGTCCACCACTAGTTTCTTACTTGTATACATCGCGTGACTATCGTCGTCTGTCTCGCCGGAGAAAATGGCGAGCAATCTTCTCCGATTTCCTCTTCCTCCGCCATCGAGTCTTCATATTCGTCCAAGTAAGTTCCTCGTGAACCGATGCTTTCCAAGACTGCGCCGTTCTCGTATCCGGCGGCACTGTTCGCGACCTTTTTTTTTAGTATCAAACTCGGTCGAGATAAGTACTCAATCATTTGAATCTACTGAATCTTCAATCGAATCTGTGAAATCCATTACGAGCGACACGCCTATTCTCCTCGATGTGAGTGGGATGATGTGTGGTGGCTGCGTCGCCCGAGTTAAATCGGTTTTGATGTCTGATGATCGAGTCGCGTCTGCTGTGGTTAACATGCTGACTGAAACCGCGGCTGTGAAGTTTAAACCGGAGGTTGAGGTGACGGCGGATACGGCAGAGAGTTTAGCTAAGAGATTGACAGAGAGTGGTTTTGAGGCTAAGAGGAGAGTCTCGGGTATGGGAGTGGCGGAGAATGTGAAGAAGTGGAAGGAGATGGTAAGTAAGAAAGAGGACTTGCTTGTTAAGAGCAGGAACCGTGTGGCGTTTGCGTGGACATTGGTGGCTCTGTGTTGCGGGTCTCACACTTCGCATATTCTTCATTCCTTGGGAATTCACATTGCTCATGGAGGGATTTGGGATTTGCTACACAACTCTTACGTGAAAGGTGGTTTGGCCGTTGGAGCTTTGTTGGGACCAGGAAGAGAATTGCTGTTTGATGGCATAAAAGCTTTCGGGAAAAGATCACCTAATATGAACTCGTTAGTTGGATTGGGATCCATGGCTGCATTTTCCATCAGTTTGATCTCACTAGTTAATCCAGAACTGGAGTGGGATGCTTCCTTCTTCGATGAACCGGTCATGCTGCTTGGCTTTGTGCTCCTTGGTCGTTCTTTGGAAGAAAGAGCAAAGCTTCAAGCATCTACCGATATGAATGAACTATTGTCACTCATCTCCACTCAATCAAGACTTGTGATTACTTCATCAGACAATAACACCCCAGTGGATTCTGTACTTTCCTCTGATTCAATTTGCATCAATGTGTCAGTTGATGATATCCGAGTTGGAGACTCGCTATTGGTTTTGCCTGGTGAGACATTTCCTGTCGATGGGAGTGTCCTAGCTGGAAGAAGTGTTGTAGATGAATCTATGCTGACAGGAGAGTCACTTCCGGTGTTTAAAGAAGAAGGCTGCTCAGTTTCAGCGGGAACAATTAACTGGGATGGCCCTCTACGGATCAAAGCTTCTTCTACTGGTTCCAACTCAACGATATCTAAAATTGTCAGAATGGTTGAGGATGCACAAGGTAATGCAGCTCCTGTACAGAGGCTGGCAGATGCAATAGCTGGACCCTTCGTCTATACTATAATGTCTTTATCTGCAATGACGTTTGCCTTCTGGTATTATGTCGGTTCACACATATTCCCAGATGTTTTACTCAATGATATTGCTGGACCTGATGGAGATGCTTTGGCCTTAAGCTTAAAACTGGCTGTGGATGTCTTGGTAGTTTCCTGCCCCTGTGCACTGGGCCTTGCAACACCAACTGCCATATTAATTGGCACCTCTCTTGGAGCAAAGCGGGGATATCTTATCAGAGGAGGAGATGTTTTAGAACGTCTGGCATCCATAGATTGTGTGGCTTTAGACAAGACAGGTACTCTTACTGAAGGAAGACCTGTCGTCTCTGGTGTTGCTTCTCTAGGATACGAAGAACAAGAAGTTCTTAAAATGGCTGCTGCGGTGGAGAAGACAGCAACACACCCAATAGCAAAGGCTATTGTAAACGAGGCTGAATCTCTGAATTTGAAAACTCCAGAAACAAGAGGCCAATTGACAGAACCAGGCTTTGGTACTTTGGCAGAAATAGACGGACGTTTTGTTGCAGTGGGTTCACTTGAGTGGGTTTCTGATCGTTTCCTCAAAAAGAACGACTCCTCGGACATGGTGAAGCTGGAAAGTTTATTGGATCATAAATTATCAAACACATCATCAACGTCTAGATACTCAAAGACTGTTGTTTACGTTGGCCGTGAAGGAGAAGGGATCATTGGTGCTATTGCAATATCCGATTGCTTACGCCAAGATGCTGAATTTACTGTAGCCAGGCTGCAGGAGAAGGGCATCAAAACAGTCCTCTTATCAGGGGACAGGGAAGGGGCAGTGGCAACTGTGGCAAAGAATGTGGGGATTAAGAGTGAATCAACCAATTATTCCTTGTCTCCTGAAAAGAAATTTGAGTTTATATCTAATCTTCAATCCTCTGGACATCGTGTTGCTATGGTGGGTGATGGCATAAACGATGCTCCCTCGTTGGCTCAAGCTGATGTTGGAATAGCTCTAAAGATCGAGGCACAAGAAAACGCTGCATCAAATGCAGCATCAGTCATACTTGTCCGCAACAAACTTTCACATGTTGTGGATGCACTGAGTCTTGCACAAGCAACTATGTCGAAAGTATATCAGAATCTAGCGTGGGCAATTGCGTATAATGTCATCTCAATCCCTATAGCTGCAGGTGTCTTGCTTCCTCAGTATGATTTCGCCATGACACCTTCGTTATCTGGTGGACTAATGGCATTGAGCTCGATCTTTGTCGTTTCAAATTCATTACTTCTGCAGCTCCATAAGTCTGAAACAAGTAAAAATAGCTTGTGATCGGCTCCACATCTATTTTGGAGTCCAAGCAGAAGAATGAAGGTTTTGTATATTCTGCTCTTTTGGAGTTTGTTTGTTATTTAGCAGTATAGCGATTATGAACCTTGTATTGTTATTCATGAATCTGAGGTTATATCATAATTATACGTAAATATAGATAATCTTAACTTAAGCATATACTATTCCCTTCTAGGTTTCTTTGAAACTCCACGACAACATCTCACCAGCAAAATTCACTTCCAGTCTGGTGGTAACAAATCAGTTCCATAAAAAGGAGAAAAGTATGGATAAAGGCCAAATCACTTACTTTCCAAAGTTAGCTTAAAAAGAGTGGACACAAATGCATCTTCAAGTAAATGTACTTGGTGGATCAGACTCAACCCACTTATCACTAAACAACAACCTTATTAATT
- >AT5G21930.4 ATCCGACGTGTCAACGTTTAGCGATACTCTTTTTAACGAACCATACACCAGTCCACCACTAGTTTCTTACTTGTATACATCGCGTGACTATCGTCGTCTGTCTCGCCGGAGAAAATGGCGAGCAATCTTCTCCGATTTCCTCTTCCTCCGCCATCGAGTCTTCATATTCGTCCAAGTAAGTTCCTCGTGAACCGATGCTTTCCAAGACTGCGCCGTTCTCGTATCCGGCGGCACTGTTCGCGACCTTTTTTTTTAGTATCAAACTCGGTCGAGATAAGTACTCAATCATTTGAATCTACTGAATCTTCAATCGAATCTGTGAAATCCATTACGAGCGACACGCCTATTCTCCTCGATGTGAGTGGGATGATGTGTGGTGGCTGCGTCGCCCGAGTTAAATCGGTTTTGATGTCTGATGATCGAGTCGCGTCTGCTGTGGTTAACATGCTGACTGAAACCGCGGCTGTGAAGTTTAAACCGGAGGTTGAGGTGACGGCGGATACGGCAGAGAGTTTAGCTAAGAGATTGACAGAGAGTGGTTTTGAGGCTAAGAGGAGAGTCTCGGGTATGGGAGTGGCGGAGAATGTGAAGAAGTGGAAGGAGATGGTAAGTAAGAAAGAGGACTTGCTTGTTAAGAGCAGGAACCGTGTGGCGTTTGCGTGGACATTGGTGGCTCTGTGTTGCGGGTCTCACACTTCGCATATTCTTCATTCCTTGGGAATTCACATTGCTCATGGAGGGATTTGGGATTTGCTACACAACTCTTACGTGAAAGGTGGTTTGGCCGTTGGAGCTTTGTTGGGACCAGGAAGAGAATTGCTGTTTGATGGCATAAAAGCTTTCGGGAAAAGATCACCTAATATGAACTCGTTAGTTGGATTGGGATCCATGGCTGCATTTTCCATCAGTTTGATCTCACTAGTTAATCCAGAACTGGAGTGGGATGCTTCCTTCTTCGATGAACCGGTCATGCTGCTTGGCTTTGTGCTCCTTGGTCGTTCTTTGGAAGAAAGAGCAAAGCTTCAAGCATCTACCGATATGAATGAACTATTGTCACTCATCTCCACTCAATCAAGACTTGTGATTACTTCATCAGACAATAACACCCCAGTGGATTCTGTACTTTCCTCTGATTCAATTTGCATCAATGTGTCAGTTGATGATATCCGAGTTGGAGACTCGCTATTGGTTTTGCCTGGTGAGACATTTCCTGTCGATGGGAGTGTCCTAGCTGGAAGAAGTGTTGTAGATGAATCTATGCTGACAGGAGAGTCACTTCCGGTGTTTAAAGAAGAAGGCTGCTCAGTTTCAGCGGGAACAATTAACTGGGATGGCCCTCTACGGATCAAAGCTTCTTCTACTGGTTCCAACTCAACGATATCTAAAATTGTCAGAATGGTTGAGGATGCACAAGGTAATGCAGCTCCTGTACAGAGGCTGGCAGATGCAATAGCTGGACCCTTCGTCTATACTATAATGTCTTTATCTGCAATGACGTTTGCCTTCTGGTATTATGTCGGTTCACACATATTCCCAGATGTTTTACTCAATGATATTGCTGGACCTGATGGAGATGCTTTGGCCTTAAGCTTAAAACTGGCTGTGGATGTCTTGGTAGTTTCCTGCCCCTGTGCACTGGGCCTTGCAACACCAACTGCCATATTAATTGGCACCTCTCTTGGAGCAAAGCGGGGATATCTTATCAGAGGAGGAGATGTTTTAGAACGTCTGGCATCCATAGATTGTGTGGCTTTAGACAAGACAGGTACTCTTACTGAAGGAAGACCTGTCGTCTCTGGTGTTGCTTCTCTAGGATACGAAGAACAAGAAGTTCTTAAAATGGCTGCTGCGGTGGAGAAGACAGCAACACACCCAATAGCAAAGGCTATTGTAAACGAGGCTGAATCTCTGAATTTGAAAACTCCAGAAACAAGAGGCCAATTGACAGAACCAGGCTTTGGTACTTTGGCAGAAATAGACGGACGTTTTGTTGCAGTGGGTTCACTTGAGTGGGTTTCTGATCGTTTCCTCAAAAAGAACGACTCCTCGGACATGGTGAAGCTGGAAAGTTTATTGGATCATAAATTATCAAACACATCATCAACGTCTAGATACTCAAAGACTGTTGTTTACGTTGGCCGTGAAGGAGAAGGGATCATTGGTGCTATTGCAATATCCGATTGCTTACGCCAAGATGCTGAATTTACTGTAGCCAGGCTGCAGGAGAAGGGCATCAAAACAGTCCTCTTATCAGGGGACAGGGAAGGGGCAGTGGCAACTGTGGCAAAGAATGTGGGGATTAAGAGTGAATCAACCAATTATTCCTTGTCTCCTGAAAAGAAATTTGAGTTTATATCTAATCTTCAATCCTCTGGACATCGTGTTGCTATGGTGGGTGATGGCATAAACGATGCTCCCTCGTTGGCTCAAGCTGATGTTGGAATAGCTCTAAAGATCGAGGCACAAGAAAACGCTGCATCAAATGCAGCATCAGTCATACTTGTCCGCAACAAACTTTCACATGTTGTGGATGCACTGAGTCTTGCACAAGCAACTATGTCGAAAGTATATCAGAATCTAGCGTGGGCAATTGCGTATAATGTCATCTCAATCCCTATAGCTGCAGGTGTCTTGCTTCCTCAGTATGATTTCGCCATGACACCTTCGTTATCTGGTGGACTAATGGCATTGAGCTCGATCTTTGTCGTTTCAAATTCATTACTTCTGCAGCTCCATAAGTCTGAAACAAGTAAAAATAGCTTGTGATCGGCTCCACATCTATTTTGGAGTCCAAGCAGAAGAATGAAGGTTTTGTATATTCTGCTCTTTTGGAGTTTGTTTGTTATTTAGCAGTATAGCGATTATGAACCTTGTATTGTTATTCATGAATCTGAGGTTATATCATAATTATACGTAAATATAGATAATCTTAACTTAAGCATATACTATTCCCTTCTAGGTTTCTTTGAAACTCCACGACAACATCTCACCAGCAAAATTCACTTCCAGTCTGGTGGTAACAAATCAGTTCCATAAAAAGGAGAAAAGTATGGATAAAGGCCAAATCACTTACTTTCCAAAGTTAGCTTAAAAAGAGTGGACACAAATGCATCTTCAAGTAAATGTACTTGGTGGATCAGACTCAACCCACTTATCACTAAACAACAACCTTATTAATT
- >AT5G21930.3 ATCCGACGTGTCAACGTTTAGCGATACTCTTTTTAACGAACCATACACCAGTCCACCACTAGTTTCTTACTTGTATACATCGCGTGACTATCGTCGTCTGTCTCGCCGGAGAAAATGGCGAGCAATCTTCTCCGATTTCCTCTTCCTCCGCCATCGAGTCTTCATATTCGTCCAAGTAAGTTCCTCGTGAACCGATGCTTTCCAAGACTGCGCCGTTCTCGTATCCGGCGGCACTGTTCGCGACCTTTTTTTTTAGTATCAAACTCGGTCGAGATAAGTACTCAATCATTTGAATCTACTGAATCTTCAATCGAATCTGTGAAATCCATTACGAGCGACACGCCTATTCTCCTCGATGTGAGTGGGATGATGTGTGGTGGCTGCGTCGCCCGAGTTAAATCGGTTTTGATGTCTGATGATCGAGTCGCGTCTGCTGTGGTTAACATGCTGACTGAAACCGCGGCTGTGAAGTTTAAACCGGAGGTTGAGGTGACGGCGGATACGGCAGAGAGTTTAGCTAAGAGATTGACAGAGAGTGGTTTTGAGGCTAAGAGGAGAGTCTCGGGTATGGGAGTGGCGGAGAATGTGAAGAAGTGGAAGGAGATGGTAAGTAAGAAAGAGGACTTGCTTGTTAAGAGCAGGAACCGTGTGGCGTTTGCGTGGACATTGGTGGCTCTGTGTTGCGGGTCTCACACTTCGCATATTCTTCATTCCTTGGGAATTCACATTGCTCATGGAGGGATTTGGGATTTGCTACACAACTCTTACGTGAAAGGTGGTTTGGCCGTTGGAGCTTTGTTGGGACCAGGAAGAGAATTGCTGTTTGATGGCATAAAAGCTTTCGGGAAAAGATCACCTAATATGAACTCGTTAGTTGGATTGGGATCCATGGCTGCATTTTCCATCAGTTTGATCTCACTAGTTAATCCAGAACTGGAGTGGGATGCTTCCTTCTTCGATGAACCGGTCATGCTGCTTGGCTTTGTGCTCCTTGGTCGTTCTTTGGAAGAAAGAGCAAAGCTTCAAGCATCTACCGATATGAATGAACTATTGTCACTCATCTCCACTCAATCAAGACTTGTGATTACTTCATCAGACAATAACACCCCAGTGGATTCTGTACTTTCCTCTGATTCAATTTGCATCAATGTGTCAGTTGATGATATCCGAGTTGGAGACTCGCTATTGGTTTTGCCTGGTGAGACATTTCCTGTCGATGGGAGTGTCCTAGCTGGAAGAAGTGTTGTAGATGAATCTATGCTGACAGGAGAGTCACTTCCGGTGTTTAAAGAAGAAGGCTGCTCAGTTTCAGCGGGAACAATTAACTGGGATGGCCCTCTACGGATCAAAGCTTCTTCTACTGGTTCCAACTCAACGATATCTAAAATTGTCAGAATGGTTGAGGATGCACAAGGTAATGCAGCTCCTGTACAGAGGCTGGCAGATGCAATAGCTGGACCCTTCGTCTATACTATAATGTCTTTATCTGCAATGACGTTTGCCTTCTGGTATTATGTCGGTTCACACATATTCCCAGATGTTTTACTCAATGATATTGCTGGACCTGATGGAGATGCTTTGGCCTTAAGCTTAAAACTGGCTGTGGATGTCTTGGTAGTTTCCTGCCCCTGTGCACTGGGCCTTGCAACACCAACTGCCATATTAATTGGCACCTCTCTTGGAGCAAAGCGGGGATATCTTATCAGAGGAGGAGATGTTTTAGAACGTCTGGCATCCATAGATTGTGTGGCTTTAGACAAGACAGGTACTCTTACTGAAGGAAGACCTGTCGTCTCTGGTGTTGCTTCTCTAGGATACGAAGAACAAGAAGTTCTTAAAATGGCTGCTGCGGTGGAGAAGACAGCAACACACCCAATAGCAAAGGCTATTGTAAACGAGGCTGAATCTCTGAATTTGAAAACTCCAGAAACAAGAGGCCAATTGACAGAACCAGGCTTTGGTACTTTGGCAGAAATAGACGGACGTTTTGTTGCAGTGGGTTCACTTGAGTGGGTTTCTGATCGTTTCCTCAAAAAGAACGACTCCTCGGACATGGTGAAGCTGGAAAGTTTATTGGATCATAAATTATCAAACACATCATCAACGTCTAGATACTCAAAGACTGTTGTTTACGTTGGCCGTGAAGGAGAAGGGATCATTGGTGCTATTGCAATATCCGATTGCTTACGCCAAGATGCTGAATTTACTGTAGCCAGGCTGCAGGAGAAGGGCATCAAAACAGTCCTCTTATCAGGGGACAGGGAAGGGGCAGTGGCAACTGTGGCAAAGAATGTGGGGATTAAGAGTGAATCAACCAATTATTCCTTGTCTCCTGAAAAGAAATTTGAGTTTATATCTAATCTTCAATCCTCTGGACATCGTGTTGCTATGGTGGGTGATGGCATAAACGATGCTCCCTCGTTGGCTCAAGCTGATGTTGGAATAGCTCTAAAGATCGAGGCACAAGAAAACGCTGCATCAAATGCAGCATCAGTCATACTTGTCCGCAACAAACTTTCACATGTTGTGGATGCACTGAGTCTTGCACAAGCAACTATGTCGAAAGTATATCAGAATCTAGCGTGGGCAATTGCGTATAATGTCATCTCAATCCCTATAGCTGCAGGTGTCTTGCTTCCTCAGTATGATTTCGCCATGACACCTTCGTTATCTGGTGGACTAATGGCATTGAGCTCGATCTTTGTCGTTTCAAATTCATTACTTCTGCAGCTCCATAAGTCTGAAACAAGTAAAAATAGCTTGTGATCGGCTCCACATCTATTTTGGAGTCCAAGCAGAAGAATGAAGGTTTTGTATATTCTGCTCTTTTGGAGTTTGTTTGTTATTTAGCAGTATAGCGATTATGAACCTTGTATTGTTATTCATGAATCTGAGGTTATATCATAATTATACGTAAATATAGATAATCTTAACTTAAGCATATACTATTCCCTTCTAGGTTTCTTTGAAACTCCACGACAACATCTCACCAGCAAAATTCACTTCCAGTCTGGTGGTAACAAATCAGTTCCATAAAAAGGAGAAAAGTATGGATAAAGGCCAAATCACTTACTTTCCAAAGTTAGCTTAAAAAGAGTGGACACAAATGCATCTTCAAGTAAATGTACTTGGTGGATCAGACTCAACCCACTTATCACTAAACAACAACCTTATTAATT
- >AT5G21930.2 ATCCGACGTGTCAACGTTTAGCGATACTCTTTTTAACGAACCATACACCAGTCCACCACTAGTTTCTTACTTGTATACATCGCGTGACTATCGTCGTCTGTCTCGCCGGAGAAAATGGCGAGCAATCTTCTCCGATTTCCTCTTCCTCCGCCATCGAGTCTTCATATTCGTCCAAGTAAGTTCCTCGTGAACCGATGCTTTCCAAGACTGCGCCGTTCTCGTATCCGGCGGCACTGTTCGCGACCTTTTTTTTTAGTATCAAACTCGGTCGAGATAAGTACTCAATCATTTGAATCTACTGAATCTTCAATCGAATCTGTGAAATCCATTACGAGCGACACGCCTATTCTCCTCGATGTGAGTGGGATGATGTGTGGTGGCTGCGTCGCCCGAGTTAAATCGGTTTTGATGTCTGATGATCGAGTCGCGTCTGCTGTGGTTAACATGCTGACTGAAACCGCGGCTGTGAAGTTTAAACCGGAGGTTGAGGTGACGGCGGATACGGCAGAGAGTTTAGCTAAGAGATTGACAGAGAGTGGTTTTGAGGCTAAGAGGAGAGTCTCGGGTATGGGAGTGGCGGAGAATGTGAAGAAGTGGAAGGAGATGGTAAGTAAGAAAGAGGACTTGCTTGTTAAGAGCAGGAACCGTGTGGCGTTTGCGTGGACATTGGTGGCTCTGTGTTGCGGGTCTCACACTTCGCATATTCTTCATTCCTTGGGAATTCACATTGCTCATGGAGGGATTTGGGATTTGCTACACAACTCTTACGTGAAAGGTGGTTTGGCCGTTGGAGCTTTGTTGGGACCAGGAAGAGAATTGCTGTTTGATGGCATAAAAGCTTTCGGGAAAAGATCACCTAATATGAACTCGTTAGTTGGATTGGGATCCATGGCTGCATTTTCCATCAGTTTGATCTCACTAGTTAATCCAGAACTGGAGTGGGATGCTTCCTTCTTCGATGAACCGGTCATGCTGCTTGGCTTTGTGCTCCTTGGTCGTTCTTTGGAAGAAAGAGCAAAGCTTCAAGCATCTACCGATATGAATGAACTATTGTCACTCATCTCCACTCAATCAAGACTTGTGATTACTTCATCAGACAATAACACCCCAGTGGATTCTGTACTTTCCTCTGATTCAATTTGCATCAATGTGTCAGTTGATGATATCCGAGTTGGAGACTCGCTATTGGTTTTGCCTGGTGAGACATTTCCTGTCGATGGGAGTGTCCTAGCTGGAAGAAGTGTTGTAGATGAATCTATGCTGACAGGAGAGTCACTTCCGGTGTTTAAAGAAGAAGGCTGCTCAGTTTCAGCGGGAACAATTAACTGGGATGGCCCTCTACGGATCAAAGCTTCTTCTACTGGTTCCAACTCAACGATATCTAAAATTGTCAGAATGGTTGAGGATGCACAAGGTAATGCAGCTCCTGTACAGAGGCTGGCAGATGCAATAGCTGGACCCTTCGTCTATACTATAATGTCTTTATCTGCAATGACGTTTGCCTTCTGGTATTATGTCGGTTCACACATATTCCCAGATGTTTTACTCAATGATATTGCTGGACCTGATGGAGATGCTTTGGCCTTAAGCTTAAAACTGGCTGTGGATGTCTTGGTAGTTTCCTGCCCCTGTGCACTGGGCCTTGCAACACCAACTGCCATATTAATTGGCACCTCTCTTGGAGCAAAGCGGGGATATCTTATCAGAGGAGGAGATGTTTTAGAACGTCTGGCATCCATAGATTGTGTGGCTTTAGACAAGACAGGTACTCTTACTGAAGGAAGACCTGTCGTCTCTGGTGTTGCTTCTCTAGGATACGAAGAACAAGAAGTTCTTAAAATGGCTGCTGCGGTGGAGAAGACAGCAACACACCCAATAGCAAAGGCTATTGTAAACGAGGCTGAATCTCTGAATTTGAAAACTCCAGAAACAAGAGGCCAATTGACAGAACCAGGCTTTGGTACTTTGGCAGAAATAGACGGACGTTTTGTTGCAGTGGGTTCACTTGAGTGGGTTTCTGATCGTTTCCTCAAAAAGAACGACTCCTCGGACATGGTGAAGCTGGAAAGTTTATTGGATCATAAATTATCAAACACATCATCAACGTCTAGATACTCAAAGACTGTTGTTTACGTTGGCCGTGAAGGAGAAGGGATCATTGGTGCTATTGCAATATCCGATTGCTTACGCCAAGATGCTGAATTTACTGTAGCCAGGCTGCAGGAGAAGGGCATCAAAACAGTCCTCTTATCAGGGGACAGGGAAGGGGCAGTGGCAACTGTGGCAAAGAATGTGGGGATTAAGAGTGAATCAACCAATTATTCCTTGTCTCCTGAAAAGAAATTTGAGTTTATATCTAATCTTCAATCCTCTGGACATCGTGTTGCTATGGTGGGTGATGGCATAAACGATGCTCCCTCGTTGGCTCAAGCTGATGTTGGAATAGCTCTAAAGATCGAGGCACAAGAAAACGCTGCATCAAATGCAGCATCAGTCATACTTGTCCGCAACAAACTTTCACATGTTGTGGATGCACTGAGTCTTGCACAAGCAACTATGTCGAAAGTATATCAGAATCTAGCGTGGGCAATTGCGTATAATGTCATCTCAATCCCTATAGCTGCAGGTGTCTTGCTTCCTCAGTATGATTTCGCCATGACACCTTCGTTATCTGGTGGACTAATGGCATTGAGCTCGATCTTTGTCGTTTCAAATTCATTACTTCTGCAGCTCCATAAGTCTGAAACAAGTAAAAATAGCTTGTGATCGGCTCCACATCTATTTTGGAGTCCAAGCAGAAGAATGAAGGTTTTGTATATTCTGCTCTTTTGGAGTTTGTTTGTTATTTAGCAGTATAGCGATTATGAACCTTGTATTGTTATTCATGAATCTGAGGTTATATCATAATTATACGTAAATATAGATAATCTTAACTTAAGCATATACTATTCCCTTCTAGGTTTCTTTGAAACTCCACGACAACATCTCACCAGCAAAATTCACTTCCAGTCTGGTGGTAACAAATCAGTTCCATAAAAAGGAGAAAAGTATGGATAAAGGCCAAATCACTTACTTTCCAAAGTTAGCTTAAAAAGAGTGGACACAAATGCATCTTCAAGTAAATGTACTTGGTGGATCAGACTCAACCCACTTATCACTAAACAACAACCTTATTAATT
CDS Sequence
Protein Sequence