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Entry information : AbraPGHS
Entry ID 10745
Creation 2012-03-12 (Christophe Dunand)
Last sequence changes 2012-03-12 (Christophe Dunand)
Sequence status complete
Reviewer Not yet reviewed
Last annotation changes 2012-04-23 (Catherine Mathe (Scipio))
Peroxidase information: AbraPGHS
Name AbraPGHS
Class H synthase    [Orthogroup: PGHS001]
Taxonomy Eukaryota Fungi Ascomycota Dothideomycetes Pleosporaceae Alternaria
Organism Alternaria brassicicola    [TaxId: 29001 ]
Cellular localisation N/D
Tissue type N/D
Inducer N/D
Repressor N/D
Best BLASTp hits
Perox score E-value AbraPGHS
start..stop		 S start..stop
PnoPGHS01 857 0 200..763 36..623
RrufPGHS 769 0 205..763 38..624
NcPGHS01 684 0 205..763 63..651
NtetPGHS01_2509 683 0 205..764 62..651
Gene structure Fichier Exons
ExonStart..EndSize ExonStart..EndSize ExonStart..EndSize ExonStart..EndSize
N° 1 377067..377081 13 N° 2 377137..377223 85 N° 3 377374..377395 20 N° 4 377673..377940 266
N° 5 378004..378134 129 N° 6 378623..378654 30 N° 7 378991..379047 55 N° 8 379507..380352 844
N° 9 380446..381214 767 N° 10 381270..381334 63  
join(377067..377081,377137..377223,377374..377395,377673..377940,378004..378134, 378623..378654,378991..379047,379507..380352,380446..381214,381270..381334)


exon

Literature and cross-references AbraPGHS
DNA ref. JGI genome:   Contig16 (377067..381334)
Cluster/Prediction ref. JGI gene:   10059
Protein sequence: AbraPGHS
Sequence Properties
first value : protein
second value (mature protein)
Length (aa):   %s   763 (749)
PWM (Da):   %s   85016.88 (83500.1) Transmb domain:   %s   o59-81i88-110o (o45-67i74-96o)
PI (pH):   %s   7.54 (7.57) Peptide Signal:   %s   cut: 15 range:15-763
Sequence
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Send to Peroxiscan
.........1.........2.........3.........4.........5.........6.........7.........8.........9.........0.........1.........2
MAVALLLTWGLCACNHYQFFFGSGAQNLSEIISKTALTFGKDKGAGHCFDLKIVFYWQAGWSMGSDIVILLLPMPVLFSLRMRRAKRLSIVAVFAVSLLIPIASGVRLWGLYLWANSGRH
ARDYGGYIIFWSQVEINTAIICASAPTIQPLFKRVFSRICCYQPSRSPSYYHGGPLHHYARQPKKAEGDPLGRLREHVRELKDGIGVLNVAAFRYELRQKNLHDVYPSPNDQGTLGCPHL
SDEQYLHTRHSNGLFNDLSAPKMGCTGMRFGRNVPGEHTAKPSEEELMTPNPRLISEQLLKRDTFKPATSLNLLAAAWIQFQVHDWFQHENSASETYNVPISQGDKWSSSDGKMKIEQTQ
PDIALNETDKTAPAYKNINTHWWDGSQIYGSSEIRTTKLRGQAKNGKLTVDAQKIATFLPRDENGIPQTGFMTNWWLALEMLHTLFVLEHNAICDALVATYPSWSSEEIFDTARLVNCAL
MAKIHTLLGRVSATSEAISGIPGSDVEHHAAPYALTEGFASVYRMHALIPDTVAFFSAQSGEHKITHPIRDIAFESARAPLEIDAMDFADVFYSFGVNYPGAVTLNNTPDFLRDLHTPDG
RHMDLSTVDVLRDRERGVPRYNAFRRLFHLQAASSFLDLTGGNEVIARKLAAVYEDDVAKVDLLVGCIAEPLPAGFGFSDTAVRVFILMASRRPKSDRFIAGGWNEETYSKVGMRWAQDD
GMKNVLGRHFPGLEGVLGRSGDSFAPWTMLDASKRYGGKETNA*

Retrieve as FASTA  
Remarks Complete sequence from genomic (9 introns). Splicing prediction need to be verified.
DNA
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.........1.........2.........3.........4.........5.........6.........7.........8.........9.........0.........1.........2
ATGGCGGTTGCACTGTGGTGAGTAAGGGACCCCGTTGGCGATATAAGCCTGGATGAAGCTAATGGATTGAAGCTTTTGACCTGGGGCCTCTGCGCTTGTAACCATTACCAATTTTTCTTC
GGTTCTGGTGCTCAGAATTTATCAGAGATTATATCAAAGAGGTGAGCACAAGTGCCTTCCCCACTACAGTATCCCGTGGTGCCATGCTAACGGATAACTGAAGCCTGTACAAGAGAAGAA
CAATGCATACTTGGAGTACTGGTTGTTTGGCTCTGTAGCATCTTGTGAGCAACTGTCCTAACCTGAGGTAGACTGCGCTAACCTTCGGAAAGGGGGTACGCATACCACATCGGCTACTTA
TTTATAATGGGCCTCATAAAACTCTCGATCCTTTTTTGTGAGTAACACGGCAAGAATATTCATCCAATACGTGCACTAACCTAGTCATTCCATCCATAGTTTATCTTGGTTTCGCGACAC
AACGAGCCTTTCGAAGACTTGTTAAAACATCGATCGTCATCATTGCCGTGATCAGCATCTGCTGCATCTTTATCATCGCCTTTCAATGCCCCAAGGTCCCTTCTTACGCCTTCTCCACTA
CGATGCTCATAGACAAAGGTGCTGGCCACTGTTTTGATCTGAAGATCGTCTTCTACTGGCAAGCAGGCTGGAGTATGGGGTCTGACATCGTCATCCTGCTTCTTCCTATGCCGGTTTTGT
TTTCATTGCGCATGAGAAGAGCCAAGCGATTATCCATCGTTGCGGTCTTTGCGGTGAGTCTACTCATTCCGATAGCGTCTGGAGTTCGACTTTGGGGCCTGTACCTCTGGGCAAATAGCG
GGAGACACGCTAGGGACTACGGCGGATACATCATCTTCTGTGGTGAGCAAGCTCGTCTACGACGTAAACACTAGGCCGATACTGATACTCTGTTCTTACATATAGGTCCCAGGTTGAGAT
CAACACAGCAATTATCTGCGCCTCCGCTCCAACTATTCAGCCACTCTTCAAACGCGTGTTCAGCAGAATATGTTGCTACCAACCATCTCGCAGCCCGTCTTACTACCACGGAGGACACGT
ACGTCTCTGCCCGGACTCCCCCCTGCGGAGATGGAGAGGAATTTGCGAAGAGACAGCATTAGTACCTTGGGGACACCAGATCGGGCCTACTGCCCTTCCAGAAATCAAGGAAACGTTGAA
TTCGAGGATCGAGGGATCTCCGCATATACTGCGGAGGAGGAAATTAGAGCACGAATCCGCGCGCTTTCACATCCACCGTCTACACACCTACTTCCGGCTTGCCCATCTTCCGTATACTCA
GCCTCTCCAGTTGCTCTGCATCCAAGCAGCCTGCTAAGGTGTGGCTGATACTTCACACCATACCGTGTGCTCTCACCTAGGAGCGCCTCCCACTGTCGGGCACATGCGAGATTTTAGCAC
AGTAACATGTGCATATTGAACAGAGACAAGGAAAGCGCAAGGCTCTTCGCACTTGCTTTAAATAGCAGTAAGAGCCTTTCCATTTTGTGCAATTATACGACTAGAATCTTAACTGTTAGA
ACGCAGCCCTGCACCACTACGCCAGGCAACCCAAAAAGAGGTACGTATGATCAGTAGACTACTGATCAGGGTGCAGGATAGTAAATATCGTCAGTTGGACCTAACATTAACGAGCTTCGG
AGTGGGTCACATAGGCATCTACTTAGTTACAGAGTGTATACGTCCGATTCAGCCACCAAGTGCGACTCGAGAGTTGATTTGAGTACTTGTTGCATGGATCCTTGCTGGTTCGTCAGCTGC
CAACACCACTCGTTCGAGCGAAACTCGGTTCAAGGATGAGGTAAGCCGCTTCCGAAAACCCAGTACTATGGGACCTGGAGACATGTAATTGATCTACACAGCCCGGCCAATGTAAGATTG
TTCGAAACCGCCGCAGGCTGAGGGCGATCCATTGGGAAGACTGCGCGAACATGTCCGCGAGCTGAAAGACGGAGAGTAAGATGGATGTATAGGATCTTGCATGTCTTGCAGCTTTGGTGT
TGCGAAGACGATCAATTATTGGATGAGCTGATGTATGTATTACGCTCTCTCTTGAAAAAGCGAATCATTGATTCGAACACGCGGTTACGATTGGCATGTCTTGCTTTGGGGCTGAGAAAG
GACCTCAGTCCTATCGTCCCGGATGCGACGCCAACTGTGCGAATATTGTAAGCCTCTATTATGTTTTAACTGAGCCCTTCCGACATATCTCGTCATTTTCTCTCTTGTTTCATAAATGTC
CAAAGGACACGGAGCTACCAAGAACTCAACTTTCTACGTGTCACAGCCATGGGTCTCTCAAAGGAACCTGGGCACAAAGCCTACACTTACATGCCAGGCCTTCCCCAACGCGCACTCATA
GCCATCTTTCATAGCGTGCATAACATCATTCCATGGCACAAGCTGCCCACCTAGATCGGTGTCCTCAATGTCGCCGCCTTCCGTTACGAACTACGCCAAAAGAACCTACACGATGTCTAT
CCATCTCCCAACGACCAAGGTACTCTTGGATGTCCACACTTATCCGATGAGCAGTACTTGCACACTCGCCACTCCAATGGCCTGTTCAACGATCTCTCGGCTCCAAAGATGGGCTGCACA
GGTATGCGATTCGGCCGTAATGTACCTGGCGAACACACCGCAAAGCCAAGCGAGGAGGAACTCATGACCCCAAATCCCCGACTCATCAGTGAGCAGCTATTGAAGAGAGACACATTCAAG
CCTGCTACGAGTTTGAATCTACTTGCCGCAGCGTGGATTCAATTCCAAGTCCACGACTGGTTTCAGCACGAAAACTCTGCCTCCGAAACGTACAATGTCCCCATTTCTCAAGGCGACAAA
TGGAGTTCATCAGACGGAAAGATGAAGATTGAACAGACACAGCCGGATATCGCACTCAACGAGACGGACAAGACAGCTCCAGCATACAAAAACATCAACACACACTGGTGGGACGGCAGT
CAAATCTATGGCAGCAGCGAAATCCGCACAACCAAACTACGCGGTCAAGCCAAAAACGGTAAACTCACCGTGGACGCCCAGAAGATAGCCACATTCCTTCCCCGAGACGAAAACGGGATC
CCCCAGACCGGCTTCATGACAAACTGGTGGCTAGCCCTAGAAATGCTGCACACGCTCTTCGTCCTCGAGCACAACGCCATCTGCGACGCACTCGTAGCCACCTACCCATCCTGGAGCAGC
GAGGAAATCTTCGACACAGCCCGCCTAGTCAACTGCGCATTAATGGCCAAGATACACACGCGGTAGAGTGGACACTGGCCATCCTCGCGCACCCCATCCTCGAGATAAGCATGAGCGCAA
ACTGATGGGGTGTCCTAGGCGAGCGTTTATACAAGCTACTCGGCCGCGTATCCGCCACTTCAGAAGCCATCTCTGGGATTCCGGGGTCGGACGTGGAGCACCACGCCGCGCCCTATGCAC
TTACCGAGGGGTTTGCAAGCGTGTATCGTATGCACGCCCTCATCCCCGATACCGTCGCCTTCTTCTCTGCGCAGAGTGGCGAACACAAGATCACGCATCCCATCCGCGACATTGCCTTCG
AAAGCGCCAGAGCGCCCTTGGAAATCGACGCCATGGATTTCGCAGACGTGTTCTACAGCTTCGGAGTAAACTACCCGGGTGCTGTTACGCTGAACAACACACCTGATTTCCTACGCGATT
TGCATACACCGGATGGCCGGCACATGGATCTGAGCACCGTTGATGTGCTGAGAGATAGGGAGAGGGGTGTACCGCGATATAATGCCTTTCGTCGGCTTTTCCACCTACAAGCCGCTTCCT
CGTTTCTCGACCTCACGGGCGGGAACGAGGTTATTGCGCGCAAACTGGCAGCCGTCTACGAGGACGATGTTGCGAAGGTGGATTTACTGGTTGGCTGTATTGCGGAGCCACTGCCGGCGG
GCTTTGGGTTTAGCGATACGGCGGTTCGTGTGTTTATCCTAATGGCTAGTCGGAGGCCGAAGAGTGATCGTTTTATTGCGGGAGGCTGGAATGAGGAGACGTACAGTAAGGTTGGTATGC
GGTGGGCGCAAGACGATGGGATGAAGAATGTGCTGGGGAGACATTTTCCAGGGTTGGAGGGTGTGTTGGGGAGGAGTGGGGATTTTGTAAGTTTTACCATGTCTTGGGCAAGGGCGGAGA
TGATGCTAACACGGGAAACAGCTTTTGCGCCTTGGACTATGTTGGACGCGAGTAAGAGGTATGGAGGAAAGGAGACGAATGCGTAG

Retrieve as FASTA  
CDS
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.........1.........2.........3.........4.........5.........6.........7.........8.........9.........0.........1.........2
ATGGCGGTTGCACTGCTTTTGACCTGGGGCCTCTGCGCTTGTAACCATTACCAATTTTTCTTCGGTTCTGGTGCTCAGAATTTATCAGAGATTATATCAAAGACTGCGCTAACCTTCGGA
AAGGACAAAGGTGCTGGCCACTGTTTTGATCTGAAGATCGTCTTCTACTGGCAAGCAGGCTGGAGTATGGGGTCTGACATCGTCATCCTGCTTCTTCCTATGCCGGTTTTGTTTTCATTG
CGCATGAGAAGAGCCAAGCGATTATCCATCGTTGCGGTCTTTGCGGTGAGTCTACTCATTCCGATAGCGTCTGGAGTTCGACTTTGGGGCCTGTACCTCTGGGCAAATAGCGGGAGACAC
GCTAGGGACTACGGCGGATACATCATCTTCTGGTCCCAGGTTGAGATCAACACAGCAATTATCTGCGCCTCCGCTCCAACTATTCAGCCACTCTTCAAACGCGTGTTCAGCAGAATATGT
TGCTACCAACCATCTCGCAGCCCGTCTTACTACCACGGAGGACCCCTGCACCACTACGCCAGGCAACCCAAAAAGGCTGAGGGCGATCCATTGGGAAGACTGCGCGAACATGTCCGCGAG
CTGAAAGACGGAATCGGTGTCCTCAATGTCGCCGCCTTCCGTTACGAACTACGCCAAAAGAACCTACACGATGTCTATCCATCTCCCAACGACCAAGGTACTCTTGGATGTCCACACTTA
TCCGATGAGCAGTACTTGCACACTCGCCACTCCAATGGCCTGTTCAACGATCTCTCGGCTCCAAAGATGGGCTGCACAGGTATGCGATTCGGCCGTAATGTACCTGGCGAACACACCGCA
AAGCCAAGCGAGGAGGAACTCATGACCCCAAATCCCCGACTCATCAGTGAGCAGCTATTGAAGAGAGACACATTCAAGCCTGCTACGAGTTTGAATCTACTTGCCGCAGCGTGGATTCAA
TTCCAAGTCCACGACTGGTTTCAGCACGAAAACTCTGCCTCCGAAACGTACAATGTCCCCATTTCTCAAGGCGACAAATGGAGTTCATCAGACGGAAAGATGAAGATTGAACAGACACAG
CCGGATATCGCACTCAACGAGACGGACAAGACAGCTCCAGCATACAAAAACATCAACACACACTGGTGGGACGGCAGTCAAATCTATGGCAGCAGCGAAATCCGCACAACCAAACTACGC
GGTCAAGCCAAAAACGGTAAACTCACCGTGGACGCCCAGAAGATAGCCACATTCCTTCCCCGAGACGAAAACGGGATCCCCCAGACCGGCTTCATGACAAACTGGTGGCTAGCCCTAGAA
ATGCTGCACACGCTCTTCGTCCTCGAGCACAACGCCATCTGCGACGCACTCGTAGCCACCTACCCATCCTGGAGCAGCGAGGAAATCTTCGACACAGCCCGCCTAGTCAACTGCGCATTA
ATGGCCAAGATACACACGCTACTCGGCCGCGTATCCGCCACTTCAGAAGCCATCTCTGGGATTCCGGGGTCGGACGTGGAGCACCACGCCGCGCCCTATGCACTTACCGAGGGGTTTGCA
AGCGTGTATCGTATGCACGCCCTCATCCCCGATACCGTCGCCTTCTTCTCTGCGCAGAGTGGCGAACACAAGATCACGCATCCCATCCGCGACATTGCCTTCGAAAGCGCCAGAGCGCCC
TTGGAAATCGACGCCATGGATTTCGCAGACGTGTTCTACAGCTTCGGAGTAAACTACCCGGGTGCTGTTACGCTGAACAACACACCTGATTTCCTACGCGATTTGCATACACCGGATGGC
CGGCACATGGATCTGAGCACCGTTGATGTGCTGAGAGATAGGGAGAGGGGTGTACCGCGATATAATGCCTTTCGTCGGCTTTTCCACCTACAAGCCGCTTCCTCGTTTCTCGACCTCACG
GGCGGGAACGAGGTTATTGCGCGCAAACTGGCAGCCGTCTACGAGGACGATGTTGCGAAGGTGGATTTACTGGTTGGCTGTATTGCGGAGCCACTGCCGGCGGGCTTTGGGTTTAGCGAT
ACGGCGGTTCGTGTGTTTATCCTAATGGCTAGTCGGAGGCCGAAGAGTGATCGTTTTATTGCGGGAGGCTGGAATGAGGAGACGTACAGTAAGGTTGGTATGCGGTGGGCGCAAGACGAT
GGGATGAAGAATGTGCTGGGGAGACATTTTCCAGGGTTGGAGGGTGTGTTGGGGAGGAGTGGGGATTCTTTTGCGCCTTGGACTATGTTGGACGCGAGTAAGAGGTATGGAGGAAAGGAG
ACGAATGCGTAG

Retrieve as FASTA