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Entry information : GgaPOX02 (GgaMPO)
Entry ID 4040
Creation 2007-02-02 (Marcel Zamocky)
Last sequence changes 2011-02-01 (Christophe Dunand)
Sequence status complete
Reviewer Not yet reviewed
Last annotation changes 2011-02-01 (Christophe Dunand)
Peroxidase information: GgaPOX02 (GgaMPO)
Name (synonym) GgaPOX02 (GgaMPO)
Class Non mammalian vertebrate peroxidase    [Orthogroup: POX001]
Taxonomy Eukaryota Metazoa Chordata Aves Phasianidae Gallus
Organism Gallus gallus    [TaxId: 9031 ]
Cellular localisation N/D
Tissue types Mixed tissues
Ovaries
Inducer N/D
Repressor N/D
Best BLASTp hits
Perox score E-value GgaPOX02
start..stop		 S start..stop
OgaMPO 895 0 45..736 20..716
MmMPO 886 0 55..736 30..716
HsEPO 886 0 35..736 10..713
PtroEPO 885 0 35..736 10..713
Gene structure Fichierperl './assets/cgi-bin/draw_exon.pl' '4040' 'join(1..73,582..659,1276..1369,2266..2441,3205..3328,4164..4293,4491..4697,5632..5947,7427..7587,7907..8153,8654..8824,9831..10068,10248..10471,10875..10897) ' Exons
ExonStart..EndSize ExonStart..EndSize ExonStart..EndSize ExonStart..EndSize
N° 1 1..73 71 N° 2 582..659 76 N° 3 1276..1369 92 N° 4 2266..2441 174
N° 5 3205..3328 122 N° 6 4164..4293 128 N° 7 4491..4697 205 N° 8 5632..5947 314
N° 9 7427..7587 159 N° 10 7907..8153 245 N° 11 8654..8824 169 N° 12 9831..10068 236
N° 13 10248..10471 222 N° 14 10875..10897 21  
join(1..73,582..659,1276..1369,2266..2441,3205..3328,4164..4293,4491..4697,5632. .5947,7427..7587,7907..8153,8654..8824,9831..10068,10248..10471,10875..10897)


exon

Literature and cross-references GgaPOX02 (GgaMPO)
Literature Zamocky M. et al. (2007) Phylogenetic relationship in the peroxidase-cyclooxygenase superfamily (in preparation). This record is predicted by automated computational analysis. This record is derived from an annotated genomic sequence (NW_060634) using gene prediction method: GNOMON, supported by EST evidence.
DNA ref. GenBank:   NW_001471508.1 (425469..414166)
mRNA ref. GenBank:   XM_415716.2
Cluster/Prediction ref. UniGene:   Gga.23215
Protein sequence: GgaPOX02 (GgaMPO)
Sequence Properties
first value : protein
second value (mature protein)
Length (aa):   %s   753 (673)
PWM (Da):   %s   84936.09 (76072.4)  
PI (pH):   %s   9.55 (7.08) Peptide Signal:   %s   cut: 26 range:23-695
Sequence
Send to BLAST
Send to Peroxiscan
.........1.........2.........3.........4.........5.........6.........7.........8.........9.........0.........1.........2
MGSDEQISPGAAASNPETFSAFESGMKAETCFLVLLAKIILFRGSASSSYDLPEKLSDAFLLSSVDEAKQLVDSAYKDTRDRIKKNLENDALNPIELLRYFKQPVAGTRAAIRAADYMGTTLTLLKEKLSRVVKGDFNVDMLTP
AQMGLLFKVTGCEEQNKKVNCEFSSRYRTITGKCNNRRNPLLGASNRALARWLPADYEDGVSIPHGWTNRRCSFGYPFPVRRVSNEIVRFPPGQLKFDQQRSLMFMQWGQFIDHDLDFSP
ESPARVTFNGRVDCHTSCAKLPPCFPIQIPPNDPRIKNTRDCIPFFRSAPACDSGRATREQINALTSFLDGSMVYGSEQHLANRLRNWNNQLGLLAVNQNFTDNGMAYLPFVRMSKDPCL
KVSGSANIPCFLAGDSRASEMLELACMHTLFVREHNRLAIGLKRLNPHWNGERIYQEARKIVGAMIIITYRDYLPLLLGRNLQRWIPSYKGYKESVDPRISNVFTLAFRFAHASIPPSVG
RLNQNYQSTYPKLKLSKTFFGVWHIVKGGGIDPFLRNLMASKAKLMTQDQMMVDELRDHLSEQIERIGLDLAALNMQRGRDHGLPGYVSWRKFCGLPQPYDVRSLGQVLKNKNLARKFMK
LYGTPRNIDIWVGALAEPFVDGGRVGPLMACLIGTQFRNTRDGDRFWWENTGVFTAQQRSSLAKISLSRIICDNTHITKVSRNIFQANSYPHSFVSCSSIPKLDLRAWKSNCMEESTEEE
TPGDQ

Retrieve as FASTA  
Remarks Complete sequence from genomic (chromo 19), 1 mRNA and 8 ESTs. Annotated as "similar to myeloperoxidase precursor". Fused protein, positions: 284-836 heme peroxidase domain, good structural correlation with myeloperoxidase (contrast to GgaPOX01); 930-1058 acyltransferase (pfam01553)
DNA
Send to BLAST
.........1.........2.........3.........4.........5.........6.........7.........8.........9.........0.........1.........2
ATGGGGAGTGATGAGCAGATCTCCCCCGGAGCTGCTGCCTCCAATCCTGAGACTTTTTCAGCCTTTGAGAGCGCGGTAAAGGGTGAAGCCGGGGAGAGGAATCCTATTCCCATCAGACAT
CCCCAGTGGGAGCCCATGACCCCCAAACCATTGCAAGGTGCTGCCTCATCCTGGTGGGTGTGCAGGGCCATTTGTGGGGCACACGGAGTCCCTGCTGGGAGCTGGGCTGGGCAGCAGGCG
CTGCTCTGCTTTGGCCCCACCAACCCAGGGGGCAGTTCCCCATGGCTCAGATATCCCGTGGCAGATAACAACGCGCTGCAGATAAAAGCATGGCCACAGAGGGGGGCACAGGGAGGACAG
CAGAAGACAGCAGGTGAGAATCTGGCTCGTTGCACACTTGCTTTTGCTTTCATGGAAGATGCTGCTGCTGCAGGGGAAGGCCTTGCTGGGCAGTGTGCATGCTGGGGGAGCATTGCATTG
GGAAGGGGGCACTCTGTATGCTCCCTTAATGTGTTCCATCTGCACCACTCATGGTCAGATCCATGGCTTCCCGACTTTCCTCGTTCCTTACCTTTCTTTGCAGGGATGAAGGCAGAAACC
TGCTTCCTGGTGTTGCTGGCGAAGATCATCCTGTTCCGGGGATCTGCATCTTCTTCCTATGTGGTATTGTCTCTTTCTCAGATTTTGCAGATCAGGGGCCTTTATGTTCTGAGTAGGAAA
AAGAATAAAGTTAAGTCTAAGAGAATCTGATCTCTTGTAAGCTAGCTGAGTCCCATACGGTGAGAAGAGTAATCAGTTTGTATCTATAGGGCCAGCAATGCTGACAATTTCAGGTTTTTT
CAGTAAATTTCCTGTCTGATTTCCTAAAACCACATTAAAGGAGAGCTCAGTTCTCAAAGCAGCTCCATCCCCAGCGTGCAGCAGTTCTCCCAGCCCAACTCAGATCAACTCTTGGTCAAT
CAGAGATGACAGTTCAAAGAATATTGGGAGGATTTGGAGATTTTTGTCCCCTTTGTGTCGTTTCTGAAGCTTTCTGTTCTCCTGGAGGTGATCCCACTCAGAGAAGCACTGTAGGGGCCT
CCCCCGCTGTTCTGTAGCCACAGCCGGCCAATGATGGGCATACCCAGAGGGGCTGTGTTATGTGCCCCCGAAGAACTTATTTATACATGGATGTATTGGCACTGCAATGCCAGTACCCCT
GGCTCTGGAGGTGCAAAGTGAAGCCCCCCGTGGCACAGGGAAGTGCTCTCACCTCTGCTCTTTCCTTTCCCCCAATGAGATTTGCCTGAGAAGCTGTCGGATGCGTTCCTGCTGAGCAGT
GTGGACGAGGCCAAGCAGCTCGTGGATTCAGCCTACAAGGACACACGTGATCGCGGTGAGCGTTGGGGTTGGACACTGCTCTCGTGGGCGTGAGCCACAGCCACGCTCTGGTCTTCTCTG
TCACGTTCTGGAGGTGCCACAGCCCTTCTTTAGAGTCACTGAATGGCTTAGGTTGGAAGAGATCTCAAAGCCCCATCCAGCTCCAACCCCTGCCACGGGCTGGTTGCTACCCTCTAGATC
AGATTGCACAAAGCCTCATTCGTGTTGGCTTTGAACACCTCCCGTCTCCCTTTCAGACACTGCTGAGGTTCCCATTCCCTTCCTTTCTGCCCGTGCTCAGAGGGAGCAAACCGCTGTGGG
CTGTGGTCAGAACATTCTGAGGGATCTGACCAGCTTTAGCCACTGTGCTGTGAGAGCGTTTGGCTTCCTACCAACCCATAAACCTCCTCCTTCAGCAGCCATCCTCCAAAAGCCCCTCGG
TACCTCAGGACCTGTCCATCTGAGAGCTCTTCGGAGCTCCAGGTTAAGGTAGGGTGACCTGGAAAGTTTGGGACCTCTGTATGGAAACAGATGCCTGCAGGCGTTTATGAGTTGGGGTCC
TCAGCAGAACGAGGTTTGATTGCCCCAAGGACACAAAGACCACGAGCTCAGCCATTTTCTGGCAGATAGAGCTGGGAAACTGAGATTTCAGCCCTGCTCCTCTGCCAAGGCTGGTGCGGG
CTGTGAGATCACAGGATAACAGGACCAGGGATTGGAAGGGACCTCCAGAGATGCTCGAGCCCAACCCTAAAATCAGGTTCCCTACAGTAGGTTGAGATGACCGCTCTGTAGGCAGCTCAA
ATAGCACTCCAGGAGCTCCGTGCTGCCCGAGGTCGGTGTGTGACCCGCAGGACCCACCCGTGGCTTCGGCCCATCTCAGTCCTGCAGAAGTTGCTTTGTTCTCCCTTGCAGCATTAAGAA
GAACCTGGAGAACGATGCCTTGAACCCCATAGAGCTCCTGAGGTACTTCAAGCAGCCCGTGGCGGGGACGCGGGCTGCCATCCGGGCTGCGGATTACATGGGAACCACCCTGACCCTCCT
GAAGGAGAAGCTGAGCCGGGTCGTGAAAGGGGACTTCAATGTCACAGAGGTCGGGACGTCGCTGTGCCGGGAGCGGTGCTGTTGCGGGGAGATGCGGGGATCTGTGGGGCGCGGGGGGGC
AGAGAGGGAGGGGCTGAGGGGGTCCGGGCTCCCATCCCGCTCACCCCACCTGAGCGCCCCGTGCCGTGCTGAGGAGCGCTGTCCCCGGGAGGTGGCAGTCCTGCCCTCCTGCGGGAGCAC
TCGCAGTGCGGTGGTGATGCATTCTGGAGGCGGCTTCCATAGGGGAAGAATTGTTAAGGCTTGGCTGGCTGTAACCGCTATATCAGTGGTGGAGATAATAGGAGGAAGAGAGGAAAGGAA
GAAGATGGCTTAATGCTAGAGGCTCATTCCTCTTCTGCACAAGCTCGGCATGTAATTATATGTCAGATTTGACCATAACTTTGTTAGTTTAAATGCTTTCATAGTATCATAGAATCACCA
AGGTTGGAAAAGAGCTCTAAGATCATCCGTCCAACCGTCCACCCATCACCAATATTTCCCACTAAACCACATCCCTCAGTACAACACGTAAACCTTTCTTGAGCACAAATGGTCAATGAT
ACAATAGAAGTGCAAACTGCCACTCCAGGGAGCATCCCCAGCACAGCTCTGAGCAGGATGACCCTAAATGACATTCCCCTGTGCTCCTCCACAAGAGATAAAAGATGTGCCAAGGGGACA
AGAAGGGAAACCTTTTCCTGATCTGGGAGACGACCCAAACCCAACGGAGCCGGTATGTGCCAACACACTGATCCCACGTGGTTACCTTGCAGACATGCTCACACCAGCTCAGATGGGGCT
GCTTTTCAAGGTGACAGGATGTGAGGAGCAGAATAAGAAAGTGAACTGTGAATTTTCTAGCCGGTACCGAACAATCACAGGGAAGTGCAACAACAGAGGTGAGGGGGGATGCGTGGGTCA
TCAGTAGAAGCAAAACCATGGCCCCAAAAATGATCCATGTATAGGATGCCTTATTTAGTTTTACAGCTCACGGAGTTGGTTCCTGGATGCTTGGATATTTTAATTACAGCTTTGTTTCAC
GGCTTCTTGGTGTCATATGTGAATGAGCTAGCTGGCCTTTTGGCCAACAGTTCTGTGTTGGGAACTGACCCTTCAGCATAGGATCTCTGTCATCAGACTGCATCTTTCTGCTTTCTCCTG
GGTTTTGGCTAGCTCTTCCCCTTTGCAGGGTGTCAGTGCTCTTTTGGGCTTCCTGGCTGGGTACATGATGTGAGCACACCAGAACCCAACTGGGCCACTGGACTCATGGGCTGGCAAGAC
TACCTTGTGCAGCTTTGGGGTATATGGAGGGATGTGACTTACACGGAACGTAAAAGCTATTTCTCAGCCCTTCCAGAATTTTCTCAGTGTAGTAAAGGGAAAACTGCCAGACAGTGGTGT
GTTTTCAAATGAACAACATGTGAGAGTTGTCCATCCCTCCCCATTTACCAAGCACCTGTCAGGCAGAGCGTGTCCTGGCAGCTGTGGCCATAAGGTCCCTTGGGAGGAAGAAGGAGGTCA
GATGGGATGATCATTCTCTGCCTGCCCAAGGGATGAGTGAGCCTTCAGTCCGTGTAAGAAGTAGGGAGAGGGCCACCTGTCTCCTTCCATTCTCAGAAGGTGATGGCTGCAGTCAGGAGG
AGGGTCCAGATTCTGGGATAATGATGGGTCCATCACACCCGAGCCAGACCTGATGCCACTAATATTTTGCTGTCCTTTCATTTGCTGGTGCAGGAGAAACCCATTACTAGGAGCTTCCAA
CAGAGCCTTGGCCAGATGGTTGCCAGCAGACTATGAAGACGGTGTGTCGATCCCCCACGGGTGGACAAACAGAAGGTGTTCCTTTGGATACCCTTTCCCACTGTGGTAATATTTGGAGCA
CATCTGAAAAAAAAACAGGGACAGGATTTAGGGATTTTCGGGGCTTGAACAGATTGCAGGCTGAGGTTGCAAAACACAAGTCCAGCAATGCATGCCTCATGATTTTATGCTGATGATCTT
GCAGATGCATCCATTCCTATGGGCGTTTTCTGACACACGCGTTCTGCCTTCATCCCCCGCAGGTTCGAAGGGTGTCAAACGAGATCGTCCGCTTCCCCCCTGGGCAGCTCAAGTTTGACC
AGCAGCGGTCGCTCATGTTCATGCAGTGGGGTCAGTTTATTGACCACGATCTGGATTTCAGTCCTGAATCCCCAGCCAGAGTCACCTTCAATGGCAGAGTGGACTGTCACACCAGCTGCG
CCAAGCTGCCCCCCTGCTTTCCCATCCAGAGGTACAGCCAACCTTCTCTGTCCCCCACGTCACCAGCCAGCCTGGTGATGTGGGGAACAGGGTGTCTGCCCTCCAGCTGGAGATGGTGAC
AGCTCTTCCTGTCCCTGCCTACCAGGGCGCAGCTCCTAGAGCATCCCAATGGGTTGGACTGCTCTCAGGTGGTGCTGCTGAGTCCTGGGGATGCCCCCAGATGCCAGACATAGCCCATCT
TTCCCCCCCTTTTCAGCCTTGAACCACATCTCCTTCAAGGACACGGCTTTGCTTCAGAGGTGCAATGCAATGGCAACATGGATGGTACCCAGCTTACAGCAAATGGATCAGAGATGAGAG
TTAGTGGGTGCTAGTGTCTCATTGGTAGCCCAGAAAATCCATGCCCATCTGATGGTTGACTGCTTATGGGGTGAGAAAGTGGTGAGCACCTCTCACTAGTGGCTAAGCATTGTGCTGGAA
AACACAACAGTCATGTTGCAATCTCTGCTCTAGTAAATACATCCAAGGAAGGGATAAGACTTCATCGAGTATTTGCCCAGTGCATGTTTGAGAATGCAGCCAGCACCACAAGTTCTGGAT
GGCGGCTGTCCAGAACATAGGGTAGATGTTGACACTAGACCACAACGTGAGATGGGAACACATGGGCTTCTTGGGTTTCATCCAATATGTACTTTCAAGGGAAAAAAGGGGAGGTATCCA
TAGGACTTTCTTTGAGAAGATTCAGGCACCTGTAGTCTTTCTTGAATATTTAGGACTTGATCTCCAAAACCCATCTCTGCTGTCGGTCTGAGCCCTTACAGCTGGGACTTGGGACTGGTC
TCCATACTGCCTACCATGAAAACTCTCTGAAATCGCTCCTGTTGGCTTTTCTTGTGGCTGTAGCACCACAGTGCAGGTTCTGAGCTCCTGAGGTGACGATGAATTATTCACTTATCTTTC
TGCAGATCCCACCCAACGACCCAAGGATTAAAAACACAAGAGATTGCATTCCTTTCTTCCGCTCAGCTCCTGCTTGTGACAGCGGAAGAGCCACTCGAGAGCAGATCAACGCGCTCACAT
CCTTCCTCGATGGCAGTATGGTGTATGGCAGTGAACAGCATTTGGCCAACAGGCTGAGGAATTGGAACAACCAGCTGGGCTTGTTGGCTGTTAATCAGAATTTCACAGACAATGGGATGG
CATATTTGCCCTTTGTCAGGATGTCAAAGGACCCCTGTCTCAAGGTCAGCGGGAGTGCAAATATCCCTTGCTTTTTGGCAGAGGTAAGTTGGCTGCTGACACCCTGGTAAATTCCATAGA
GAACAATTCCATCGGCTCTGTTTTTTTTCTTTGCTTGCTTGCTTGTTGTATTTAAGTAGAAAATAGCAGAACGAGGTGACCTCAGCACTGACAGCATGCTGTATGGGACATCAGCACAGG
CTGTTATCCATTGGCAGGGCCTTCTGCTCCATTCACACTTTGACATCCTCTTGAGCACTTTTTCACCTCAGGCTAACATGACATGAATCATGATTCATGATTCTTTGTTAAAAAAAATTA
AGATCCAGTGGCAAGCTATGGCAAGAGTGGTTTTGGCAAGGACTAAACTTTGTTGCACAGCTACAACTCAAAACTGAAGTATCATAGAGTCATTAGGGCTGGAAAAGACTTCTCAGATCC
CCAAGTCCAACCCCAGCCCACCCCACCATGCCCATAACCACGTCCCTCAGTGCCACATCCCCATGTCTCTGCAACACCTGCAGGGATGGTGACCCCACCACTCCCTGGGCAGCTGTGCCA
CTGCAGTACTGCTCTTTTGGAGAAAAACTTTTCTTAATATCCAACCTAAGTAATATTTCAGTGCTTTAGGCCTTTCAGACTACGTTCCTGAATGGGCCTTATAAATTTATAGACAGAAAT
CAGCTGGAGATGAATTTACAAACTCACAGCTCCATGCAGACTCCATTGAAAATTCAGTGTTTGGGTCTTTCCGGTCCCTGGGAGCTGAGGAAGTGGTCCATGTGCTGCTGCCCAACAGGG
CCGAGTGATTTCGGACTGGAGCTCCTTTGGCAGTGCCGGGTGGGTGCCGTCTGCTGGAAGAGCCACAGTGCTCGTTTTGTCCGTCCTTCCGCAGCCTCTCACAGCCAGGCTTTGATCGTT
AGTGAAAGGGGCTCTGTGCTGAATGCGTGAGCAAATCCCTCTGTTCACTGCGGAACTAAATGCCACACATTTACTCCTCTCTGAGTGCCCCTTTATTCCATCATCACCTGCTCGCTCTCA
GGTTTCCTGCCCTGGGTGTTTGAAGTTGGACTTAATATTTCATCGTGATGCTTTTGCAACTTACTCCTTCAAGTTGTGAGTCATTTTGCTTTTATTTTAACTTTCCAAAGAGCTTGACTG
TGACTGCCCTCTTGCTTAGTCCATGGTTTCAGCTGATTTGAAGGACAACTTCCGACCTACAGACCTCCCTTGGCCATCTAGACATCCCTCTGCCCATTTTCACTTCTTTCTTGAGCTGTG
AGTCTCTCTGCTACGGGAGCCTGAAGGAGGACTCCACGTAGTGAACTCCTCAAGTGTCCCTTCCTAGCCTCCAAAACAAAAAGCTTCCCCATTTCTTGTCCATCTCTCTTTGTGATGCTC
GGTACAACCATGCTTGACTTGAATCAATAGTCAAGACAATACTGCTTCAGCAGGAAATGGCTTTCCACGGGACCTCCGCAGCCCTTGAGCAGTACAAGTAAGTGCACTTGTGATGCCCTT
AGGTGACTCTAGAGCAAGCGAGATGCTGGAGCTGGCATGCATGCACACACTCTTTGTGAGGGAGCACAACCGCCTGGCCATAGGGCTGAAGAGATTGAATCCGCACTGGAATGGGGAGAG
GATCTACCAGGAGGCACGGAAGATTGTGGGTGCAATGATCCAGAGGTACCACCATGTCACCCCCCAGCTCTGCTGCCTTGTCCTGTGGTCTCACAGTTATCCTGGTGGGCTTTGTCAGCA
AGAGGTTTCCATTGGGTGGTGGGTTTTTTTGAGTTGCATTTTTCAGCCTCCTCATTAATATCCCAAAGACACATGAAATCAGGGCTGGAAACCTCTGCTGTATGGACTAACACAACTGCC
CACAGGAGTTTATATGATCTGTGTCAGCACCATAGATGTGAGCAGCAGATCTCCCATTACTTTGTTGACTAGGAACTTGATGATTAAGCAATTAATCATTCACACTTTCTCGGTTTCCCT
TTAGATTATAACCTACAGGGACTACTTGCCTCTTCTCCTGGGAAGAAATTTACAGAGATGGATTCCTTCCTACAAGGGCTACAAGGAGTCAGTGGATCCTCGCATATCCAATGTCTTCAC
TCTGGCTTTTCGTTTTGCTCATGCTTCAATTCCCCCATCTGTGGGCCGATTAAACCAAAATTATCAGTCCACATATCCCAAGTTGAAATTGAGCAAAACCTTTTTTGGTGTTTGGCATAT
TGTGAAAGGAGAGGTAAGTCCTATGTTGGAATCATTGAAATCACAGGGTCGTTGAGGTTGGAAAAAACCTCTAAGATCATCCAGTCCATCTGCCAACTACTGCCAACATTGTCCACTTAC
TCATGTGAGCCATCTTGCACTTCTGGGGTGTAACTTTATTTTGTTAAGCCTTTCCAGCCCACACTGGATGAGCTCCTGCTTCATCCAAACTTAAAAGCAATTTGCATTAGATGTATTCAC
TCACCTTTATCACCAGGCAGACTTTTCCCAACACAGCTGTTCTCTGCAGTCAAATGCCACCCATCTTATTATGACGTATGCAACCTGATTGTTTAATTGCTGTAGTTTTTAATAACTACA
GTTTTTTCTTTTTAATGCTTTATGTGCAGGAAAATCGATTCTCCTGCACTGGAATCCCGTAATGAGCTATAAGCCATGCTCTGCTCTCTGGAACCTTTTTCCCATGTGCTTTCCATCCTA
CCTTGCTCAACAGCTGCTGTGAATCCATTGCAGGTGGCATTGACCCCTTCCTGCGGAACCTGATGGCCAGCAAGGCCAAGCTGATGACACAGGATCAGATGATGGTGGATGAGCTCCGGG
ATCACCTCTCTGAGCAGATAGAAAGGATTGGGCTTGATTTAGCTGCTCTTAACATGCAGCGTGGCAGAGACCATGGCCTCCCAGAGGTAAGTTGGCTGTAGCATCAGAGCTTCCAAAGGA
AAACAAGTGAAAATCAGGCACTCATGGAATTGAACACTGGGAAACATCTCCAGCCTGTGCTTGGCTGAAACTCCTCAGAAAAGCACAGTGCACGACATAAAAAAGAAAATCTCACTCTAT
TTTCTCTCCAAAGACTGTGTCCCAGAAAGAAAAAGAAAAAAAAAAAAGAGAGAGAGAGAAAGGCATGTCAAAGCCACTCATGGGACTCTGCAACACGAAAAACCAGTGTGATGGCATTGC
ATGATGGTCTTGAGAAACAGGTTGTTGATCCAACTGGATCAAGGGTGTGCTGTTGCCTAACAGTGTTATTAGGCTGATGCAAGTGCCTGCAACTGCTGTGCCACTGACACCCTGGGAGCT
GCAATGTGGTTCACTTTGAAACAGTGATGAGGAGCTCCGGATTCACAGGTTTTAAGTCAAGACAGAGGCTTTGCATGAGATGCAGATGTGTGGTCAGGTTTTGCTGGGATTGCTCTGCCT
CTCTCTCAATGGGACGTTTTGATTTTCCATGCTGCCTCTGGGAACATTGGTGTGCAGAATCCTGAATTTCTAGTTTTTGGGTCTGGCAGGAAGGAGAACGCATGAGTTCTCTGTAGGCTT
TTCCTTTCCTTAAGCAGTCATTTGGTAAAACACAGAGAGAACTGAGCTGTACGCTGACTTCTGCCGTCTATGTGCCCTGTCCATCAGGATGCAGTTATTCTGCCAGTTGAGGTCTAGCAA
ATTTCCATCTATTTGCTGCACGCAAAAATGGGCCAGTTGACAACATCCAGTGTTCCTCTTCCACCTGTAGAAACCGGCTCTGGAGCAGGGAAAGGCAATGGCATTAACAGCAATACAGAA
TAGTTTAGAAAGAATATTTAAGCACAAGTAGGAACCTACCTGTGTCCAGACTTCGGGAAAGGGGGGAAAAATCTTTCCAGGGAGGGGAAGTGTTGCTGACCTGTCTTTGCTCTGATATGC
AACAACTTGCAGGTTATGTCTCCTGGAGAAAATTCTGTGGGCTCCCCCAGCCTTATGATGTGAGGTCACTTGGTCAAGTATTGAAGAATAAGAATCTCGCAAGGAAGTTCATGAAGCTGT
ATGGGACACCGAGGAACATTGACATTTGGGTTGGGGCACTTGCAGAGCCTTTTGTGGATGGAGGAAGGGTTGGGCCTCTCATGGCTTGTCTCATTGGCACGCAGTTCAGGAACACACGTG
ATGGGGACAGAGGTAAGAGAGGAGATGTCCAGTGTCTGCTGATGCAGTGGTGAATGCTTTGAATAGCTGGAAGATTTGCCTTGGGAAAAAAATATGTTGGTTTTAATGGGAAATAATGTT
GCTAGGATCTTGAATGAGAAAAAGCCAAGAGGGAAAAAAATCTATTGTGCCATTCATTATGTCTCCTGCAGGTTTTGGTGGGAGAATACAGGAGTATTCACTGCCCAGCAGCGCAGTTCA
CTGGCCAAAATCTCCTTGTCACGAATAATATGTGACAACACCCACATCACTAAAGTGTCAAGAAATATCTTCCAGGCCAACAGCTATCCTCACTCCTTTGTGAGCTGCAGCAGTATCCCA
AAGCTGGACCTCAGAGCCTGGAAGTCAAATTGTATGGAAGAAAGTACGGAGCAAGAGGTATCAGCCTCAAAGAGCAGACAGTTTCTGCCTGCAAGCAAGTATAAATCTCTGCAATCATTA
ACAGCTCAGACAATCCCAGCTGAGCTCTGCTCCCATTTCCCTTGAGGATGTTAAGTCACGTTCTCCACAGGGCTGTGGCAGTATCAGATTGAAGGTGTGAGAAGGTGCCTCCATAAATGC
CACCCTCATAGGGCCAGAAGAAGTAGGGTTTGTTGGGCTGCAGGCAGCTGTCAGCAGGGAGGGATGTCCAGAGCATTCTCCTGCTCAGTGCGAGGGCAACGCCTGAGCTGTTGGGCCCTC
CTTTCCAGCTTAACCCATGGAAATGAATCACACAAGACAGCGGGGAGCCATGGCATGCCCTTTTCTGCTTTGTTAACACATGTTTTTTTATGTCCTGCAGAAGAAACACCTGGTGACCAA
TAA

Retrieve as FASTA