Entry information : DviPxd01
Entry ID 7657
Creation 2010-10-25 (Marcel Zamocky)
Last sequence changes 2015-12-05 (Christophe Dunand)
Sequence status complete
Reviewer Achraf Jemmat
Last annotation changes 2015-12-07 (Achraf Jemmat)
Peroxidase information: DviPxd01
Name DviPxd01
Class Peroxidasin    [Orthogroup: Pxd001]
Taxonomy Eukaryota Metazoa Arthropoda Insecta Drosophilidae Drosophila
Organism Drosophila virilis    [TaxId: 7244 ]
Cellular localisation N/D
Tissue type N/D
Inducer N/D
Repressor N/D
Best BLASTp hits
Perox score E-value DviPxd01
start..stop
S start..stop
DgrPxd01 1735 0 9..887 645..1526
DmoPxd01 1724 0 10..887 690..1564
DyaPxd01 1662 0 9..887 646..1527
DmPxd-A 1662 0 9..887 645..1526
Gene structure Fichier Exons
ExonStart..EndSize ExonStart..EndSize ExonStart..EndSize ExonStart..EndSize
N° 1 5152810..5152835 26 N° 2 5155179..5157831 2653  
join(5152810..5152835,5155179..5157831)


exon

Literature and cross-references DviPxd01
Literature Drosophila 12 genomes consortium (2007) Evolution of genes and genomes on the Drosophila phylogeny. Nature 450:203-218.
Protein ref. UniProtKB:   B4LDU4
DNA ref. GenBank:   CH940647.1 (5152810..5157831)
mRNA ref. GenBank:   XM_002046589.1
Protein sequence: DviPxd01
Sequence Properties
first value : protein
second value (mature protein)
Length (aa):   %s   892 (1383)
PWM (Da):   %s   100684.12 (155287.3)  
PI (pH):   %s   6.7 (7.26) Peptide Signal:   %s   cut: 24 range:24-1406
Sequence 1005
Send to BLAST
Send to Peroxiscan
.........1.........2.........3.........4.........5.........6.........7.........8.........9.........0.........1.........2
MSKQKPHKRNNVDLAPGDRYVRIAFAEAAKEIDLAINNTLDMLFSNRSTRGPPNYGELLRVFRFPTGQARQLARAAEIYERTLVNIRKHVQRGDNLTMESEQYEFRDLLSREHLHLVAELSGCMEHREMPNCTDMCFHSRYRSIEGTCNNLMHPTWGASLTAFRRLAPPIYENGFSMPVGWTKGLMYAGHPKPSARLVSTSLVATKDITPDARITHMVMQWGQFLDHDLDHAIPSVSSESWDGVDCKKTCEFAPPCYPIEVPPNDPRVKNRRCIDVVRSSAICGSGMTSLFFDSVQHREQINQLTSYIDASQMYGYNTAFAQELRNLSSDEGLLRVGVHFPNQKDMLPFAAPQDGMDCRRNLDENQMNCFVSGDIRVNEQVGLLAMHTVWMREHNRIAIKLREINPHWDGDTLYQEARKIVGAQMQHITYKQWLPLIIGESGMAQLGEYRGYDPQVNPSIANEFATAALRFGHTIINPVLHRLNSSFQPIPQGHLQLHKAFFAPWRLAYEGGVDPLMRGMLAVPAKLKKPDQNLNTELTEKLFQTAHAVALDLAAINIQRGRDHGIPGYNVYRKFCNLTVAADFEDLAGEITNADIRQKLRELYGHPDNIDVWLGGILEDQVEGGKVGPLFQCLLVEQFRRLRDGDRFYYENPGVFLPEQLVQIKQANLGRVLCDVGDNFDQVTENVFILAKHQGGYKPCEDIPGINLYLWQECGNCNSLPPLFESFVPQTYTKRSQRRKRDAEQEVPTAESYDSPLEALYEVNEERVSGLEDLIGSFQKELKKLHKKLRKLEDSCNAVDAEPVAQVVQLAPAPQPAVVKPKRSHCVDDKGTTRLNNEVWTPDVCSKCNCFHGQVNCLRQQCGEVSCPPGIEPLTPPEACCPHCPVMSKPVD

Retrieve as FASTA  
Remarks complete from genomic (1 intron), no EST found. Strain="TSC#15010-1051.87"
DNA
Send to BLAST
.........1.........2.........3.........4.........5.........6.........7.........8.........9.........0.........1.........2
ATGAGCAAGCAAAAGCCGCACAAACGGTAAGCCAAAGCAAGCCCACAAATCTTCCAGTCGAGCCGAAACCCAACCGAACTGTGGCACAGAAAAAAGGCGTGTCGCTTACGCAGCACAAAA
TTTTTAAATGCATAATGCAAAAAGCAGAGCTCCTCAACCGGAGCAATCTTCCGGTCTTCCATATGACCTGCTTGCCTCTCTATATGAGTCCGGGTGTGCATGTTGTGCGTGTGTGTGTGT
GTGTGTGTGTGTGTACGCATCATTTAGTTCGCAGCAGCTGTGGGCGCTTTGGCAGGGCCAGGGGCTGCTGGGGCGGGACGGCTTACGTTGTTGCGCCAGCAGCATTAGAAACTTTACTCA
TTACGCCTGGGCCCAGCCTCAGTCGCAAGACCGCAGTAAAGCGCCGCCAAAGAAGGCAGCAAAATTGAAAAAAAAATAAGGAAAACAACAACAAAAATGTAGAAATAAAACGAAAACGCA
AAACGTTAAAAGTGAAAAACTATGCTGAGTCACAGACCAAGAATGGCTACCGGAATTGAGGCAGCGAACAGGGGAGGGAGCAATGGTAACCTAGCTGGCAGCCAACAACAAAAAGTGAGC
GGAAACCGCTGAAAGCCAGCAGCAGCAACAGCAACAACAACAACAACAACAGCAAAAACAATAGCAAAAGGCAGCAGCAGCAGCAGCTACTGAAATCCGCCTAAGTTGTGGGTAATGCTG
GCGTAAAACAAAAGCTTATCCTGTTACTGCCTGCTGGGCTGCTGCAGACGTAGGTGATGGCGGGAATGCTGGCCACGGAAATACGTTGCCATTGCCGCAGCATGTGGCAAACACACACAA
ACACGCACACACCCACACTGGGAGCAAAGCCAAGAAAAGACACACAAATGCATCGTTAAGTAACAAGCAGACAGACTCCTAATATACACTGCCTGTGCACAACAAATACTTTCTTACTAC
TTTTCAAAATAATAAGTTAAATGAGGAATAAATATTAAAAATATAAAAAGATTTTTAAGTCCAATATAAAACCTGATCCAATAAGGATATTTATATTAACTAAAAGGCTGGTTTTTGTGT
GTGTGTAATTTAGAAATAAGCATGTTACCAAAATGCGGCACTCAATATTATTTGGAACACTCCGAATTATGCAAAAAATCATACCAATAAAAGCAAGTAGTCAAATAATAAGCACATTAC
ATATGAAGCGAGCCAGAACCGCTTTATACCAGATCTGGCGCAAATTGGCAGCACTTTTCCTAGCTTTAAAATGCGAGCTTAGCAGATCAAATGTAAAAATGCCTGATTGGCAGCACTAAA
AGCTGCTAACTGCATGCCAATTAACTGAAACAAATTAATTGGCAGCACTGATTTACGCTCTTGCCACACTTTTGTTAATGTGGCAGCACTCTTGCTAGTTTTAAATGCCCGCATGCCGGC
TGAGAGCTGGCAGCACTGGTTTTTGAATTGCATTGCGCGAATTCAACACGCGCCTTTCTTAAATTAGTGTTTGCTATTAAAATATAGATTAATGCAAAACTTGGCAAAGCGCATGTCAAA
TTCAAGGGTGCTGTCTTAAACAATTTGTTAGAGTATTTACAAACGCGCCGGCATGCCAGAAAAAGCGCAGCCACAAAATGGCAGGGACAGAAGGGCGCAGAGAAATCGAGAGGAAAATAT
GTATGTAGTTGGCTGGCAGTGGTTGCCATTTAGTCGCAGTAGTGCGATAGTTGATAGTGGTAAGCACTGAGCCAGTGCCTGGTGGCTTTTGGCTGGTGGTTGGCGGTGCAACAGGGTGTA
TTATGGTCGTTAAGTTATTACCTACCACCACGACGACAATGGCAAAGTTTACACAGCGAAAGTTTCCAAAGGGAAATTCCTTTAACGGCGACGCCAACGCCATGGAGCAATGTGAGGCAT
GAATTGTTGTTAATGCCGCCTGTTGTTGTAGCCTGGCGCGGATTTTCCTTTCTGCAGCAACAACTAAAAAGTGTGTGGCATAATTCTGGTCGTTGCCAAGTCAGCGACTGCCGCCGGCCA
CAACCAGACGAGCACCAGAAAAACTAAACTAAAAACTAAAAAAAAAAAAAAAAAAAAAAAAAAAAAACAAATAAAAGTAAAAAGATAAGTTCACTTCTTTAGACAACGACGTTTTAAGCA
ACCTCTGACGCTTGGAGAAATTAATTGCAATTAAAGTGGGGGGAAAATGTGAAAAGTCGAGCTATTTTTTAATATTAATTACGCTATTCGGTGCCTAGCTCGAGACGCGATGAAACTTTT
CAGTTTATACTCAATCTTTATCTTCTGCAAAAGCTAATTTGGTTTTTAGAGTTTTTATTCCATACCTTTGTCTCTCTCTCTCTCTGCAGGAATAATGTGGATCTGGCGCCGGGTGATCGT
TATGTGCGCATCGCCTTCGCCGAGGCAGCCAAGGAAATCGACCTGGCCATCAATAATACCCTGGACATGCTCTTCTCCAATCGCTCGACTCGTGGCCCACCCAACTATGGCGAGCTGTTG
CGCGTCTTCCGCTTTCCCACGGGTCAGGCCAGACAACTGGCGCGTGCCGCGGAGATCTATGAGCGCACGCTGGTCAACATCCGGAAGCATGTGCAGCGCGGTGACAATCTGACCATGGAG
AGTGAACAGTACGAGTTCAGGGATCTGCTCTCGCGCGAGCATTTGCATCTGGTGGCGGAGCTATCCGGCTGCATGGAGCACCGAGAGATGCCCAACTGCACGGATATGTGCTTCCATTCG
CGGTATCGCAGCATTGAGGGCACCTGCAACAATCTGATGCATCCCACGTGGGGCGCTTCGCTGACCGCCTTTAGGCGACTGGCGCCGCCCATCTATGAGAACGGCTTCAGCATGCCCGTG
GGCTGGACCAAGGGTCTGATGTACGCGGGTCATCCCAAGCCGAGTGCACGTCTGGTGTCCACCTCGCTGGTGGCCACCAAGGACATAACGCCCGATGCCCGTATTACCCATATGGTTATG
CAGTGGGGTCAGTTCCTGGACCATGATCTGGACCATGCCATACCGTCGGTCAGTTCGGAGAGCTGGGACGGCGTCGATTGCAAAAAGACCTGCGAGTTTGCGCCGCCCTGCTACCCCATT
GAGGTGCCACCGAATGATCCGCGCGTGAAGAATCGCCGCTGCATCGATGTGGTGCGCTCCAGCGCTATTTGCGGCTCCGGCATGACCTCGCTATTCTTCGACAGCGTGCAGCACCGCGAG
CAGATCAACCAGCTGACCTCCTACATTGATGCCTCCCAGATGTATGGCTATAACACAGCCTTCGCCCAGGAGCTGCGCAACCTGAGCTCCGATGAGGGTCTGCTGCGCGTCGGTGTGCAC
TTCCCCAATCAGAAGGACATGCTGCCCTTTGCCGCACCGCAGGACGGCATGGACTGTCGCCGCAATCTCGATGAGAACCAGATGAACTGCTTCGTGTCCGGCGACATACGCGTCAACGAG
CAGGTCGGTCTACTGGCCATGCACACGGTCTGGATGCGCGAACACAATCGCATTGCCATCAAGCTGCGCGAGATTAATCCACACTGGGATGGCGACACGCTCTATCAGGAGGCGCGCAAA
ATTGTCGGCGCCCAGATGCAGCACATCACCTACAAGCAGTGGCTGCCACTGATCATCGGGGAGAGCGGCATGGCCCAGCTAGGCGAATATCGTGGCTACGATCCCCAAGTGAATCCCAGC
ATTGCCAATGAGTTTGCGACGGCTGCCTTGCGCTTTGGACATACCATCATCAATCCCGTGCTACATCGCTTGAACTCCAGCTTCCAGCCGATACCGCAGGGACATCTGCAGCTGCACAAG
GCCTTCTTTGCGCCCTGGCGTCTGGCCTATGAGGGCGGTGTGGATCCTTTGATGCGCGGCATGCTTGCTGTGCCCGCCAAGCTGAAGAAGCCCGATCAGAATCTGAATACTGAGCTCACG
GAGAAACTGTTCCAGACGGCGCACGCTGTGGCCCTGGACTTGGCTGCGATCAACATACAGCGTGGACGAGATCATGGCATACCCGGCTACAATGTCTACAGAAAGTTCTGCAATCTGACC
GTAGCTGCGGACTTTGAGGATTTGGCTGGGGAGATAACCAATGCGGATATACGGCAGAAGTTGCGTGAACTTTATGGCCATCCGGATAACATTGATGTCTGGCTGGGCGGCATACTAGAG
GATCAGGTGGAGGGCGGCAAGGTGGGTCCACTGTTCCAGTGCCTGCTGGTGGAGCAGTTCCGACGCCTGCGTGATGGCGATCGCTTCTACTACGAGAATCCGGGCGTCTTCCTGCCCGAA
CAGCTGGTCCAGATCAAGCAGGCCAATTTGGGCCGTGTGCTCTGCGATGTGGGCGACAATTTCGATCAGGTTACCGAAAACGTGTTCATTTTGGCCAAGCATCAAGGCGGCTACAAGCCA
TGCGAGGACATTCCGGGCATCAATCTCTATCTGTGGCAGGAGTGTGGCAACTGCAACAGCCTGCCGCCGCTCTTCGAATCCTTTGTGCCACAGACCTACACCAAGCGTAGCCAGCGCCGG
AAGCGTGATGCCGAGCAGGAGGTGCCCACCGCTGAGAGCTATGACAGTCCCTTGGAGGCGTTATACGAAGTGAACGAGGAGCGCGTCAGCGGCCTGGAGGATCTCATCGGCAGCTTCCAG
AAGGAGCTGAAGAAGCTGCACAAGAAACTGCGCAAACTGGAGGACTCCTGCAATGCTGTCGATGCCGAACCCGTCGCGCAGGTTGTCCAGCTGGCGCCTGCTCCACAGCCCGCTGTGGTG
AAGCCGAAGCGCAGCCACTGCGTCGATGACAAGGGCACCACGCGGCTAAACAACGAGGTCTGGACACCGGATGTGTGCAGCAAATGCAATTGTTTCCATGGCCAGGTGAACTGTCTGCGT
CAACAGTGCGGCGAGGTCAGCTGCCCGCCGGGCATCGAACCGCTGACACCGCCAGAGGCCTGTTGCCCGCACTGCCCGGTCATGAGCAAGCCGGTCGACTGA

Retrieve as FASTA