Entry information : MgrCIIAA02
Entry ID 2448
Creation 2008-09-19 (Christophe Dunand)
Last sequence changes 2011-10-18 (Catherine Mathe)
Sequence status complete
Reviewer Christophe Dunand
Last annotation changes 2015-10-15 (Christophe Dunand)
Peroxidase information: MgrCIIAA02
Name MgrCIIAA02
Class Asco Class II type A     [Orthogroup: CIIAA001]*
Taxonomy Eukaryota Fungi Ascomycota Sordariomycetes Magnaporthaceae Magnaporthe
Organism Magnaporthe grisea (Pyricularia grisea)    [TaxId: 148305 ]
Cellular localisation N/D
Tissue type N/D
Inducer N/D
Repressor N/D
Best BLASTp hits
Perox score E-value MgrCIIAA02
start..stop
S start..stop
MEspCIIAA02_NRRL54901 386 2.02e-132 1..388 1..358
CfioCIIAA02_PJ7 386 2.38e-132 1..389 1..366
CfioCIIAA02_MH18 386 2.38e-132 1..389 1..366
GgrCIIAA02 376 3.3e-128 64..388 52..375
Gene structure Fichierperl './assets/cgi-bin/draw_exon.pl' '2448' 'join(1622461..1623747)' Exons
ExonStart..EndSize ExonStart..EndSize ExonStart..EndSize ExonStart..EndSize
N° 1 1622461..1623747 1285  
join(1622461..1623747)


exon

Literature and cross-references MgrCIIAA02
Literature Dean RA et al., The genome sequence of the rice blast fungus Magnaporthe grisea. Nature 434 (7036), 980-986 (2005).
Protein ref. UniProtKB:   A4R4B7 [Incorrect prediction]
DNA ref. JGI genome:   Supercontig_6.12 (1622461..1623747)
Protein sequence: MgrCIIAA02
Sequence Properties
first value : protein
second value (mature protein)
Length (aa):   %s   428 (202)
PWM (Da):   %s   46602.01 (22646.2) Transmb domain:   %s   i12-34o
PI (pH):   %s   4.6 (5.29) Peptide Signal:   %s   cut: 20 range:20-221
Sequence
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Send to Peroxiscan
*.........1 .........2 .........3 .........4 .........5 .........6 .........7 .........8 .........9 .........0 .........1 .........2
MRGSLVTKAC VAASAGGSLV LAYPGMGRMN ELIAQIKAQG SINSTIRHEG DLITSGPILA PSPLDSTEVI GDLVDIPDAG LTVVGRSVRN ILVRAPNEPA EGTDIYPSID SVPDMGTPAC  RADVCCIWWY VGYDMYDMFT ARDGSCTKAA QAAIRLGFHD AAGWSKGTAP IGGADGSIVL APEEMARRDN RGLAEIVDQM QEWYDYYNEY GVGMADLIQF GATVAAVSCP QGPRIRSFIG  RIDSRVPAPE GLLPPVEGSA EFNIELFVNK TIMPNGLAAL LGAHTTSNQR FVNADREGDA QDSSPGYWDT QFYRDTLAFP GGDPDVFTFQ SDVNLSLDPR TGPRFLDFAR MGVEQRAWNA 
EYAREYVRLS MLGVYNINNL VECTRAMPPA YDQEWWALRR RVKRKVPSRF SEPKKPREEE VAPVADSV 

Retrieve as FASTA  
Remarks Complete sequence from genomic (no intron). No EST. Incorrect prediction from UniProt
DNA
Send to BLAST
.........1 .........2 .........3 .........4 .........5 .........6 .........7 .........8 .........9 .........0 .........1 .........2
ATGCGCGGCT CGTTGGTGAC AAAGGCTTGC GTGGCCGCCT CAGCAGGCGG CAGCTTGGTG CTCGCCTATC CAGGAATGGG GCGGATGAAC GAGTTGATCG CACAAATAAA AGCCCAGGGT  TCCATCAACT CGACCATTCG ACACGAAGGC GACCTAATCA CGAGTGGTCC CATACTGGCA CCTTCACCTC TTGACTCAAC CGAGGTCATC GGTGATCTCG TCGACATCCC CGATGCTGGA  CTCACAGTTG TGGGCAGGTC CGTTCGAAAC ATTCTAGTCC GCGCCCCAAA CGAGCCCGCC GAGGGCACCG ACATTTATCC CTCCATCGAC TCGGTCCCAG ACATGGGCAC GCCCGCGTGC  AGGGCCGACG TCTGCTGCAT CTGGTGGTAT GTCGGATACG ACATGTATGA CATGTTCACG GCGAGAGATG GCAGCTGCAC AAAAGCTGCA CAGGCAGCCA TTCGTCTAGG TTTCCACGAC  GCTGCCGGCT GGTCCAAAGG CACGGCACCG ATCGGGGGTG CGGACGGTTC CATCGTGCTG GCCCCTGAGG AGATGGCTCG GCGGGACAAC CGTGGCTTGG CCGAGATCGT CGACCAAATG  CAAGAATGGT ACGACTACTA CAACGAATAC GGCGTCGGTA TGGCGGACCT GATCCAATTC GGCGCCACCG TAGCGGCCGT GTCGTGTCCA CAGGGCCCAC GCATCCGGTC CTTCATCGGC  CGTATCGACT CGCGCGTGCC CGCCCCTGAA GGACTCCTCC CGCCCGTCGA AGGCAGCGCC GAATTCAACA TTGAACTTTT TGTCAACAAA ACTATTATGC CCAACGGGCT TGCGGCGCTG  CTGGGGGCGC ACACCACGAG CAACCAGCGG TTCGTCAACG CGGACCGCGA GGGCGACGCG CAGGACAGCT CGCCGGGCTA CTGGGACACA CAATTCTACC GCGACACCCT GGCGTTCCCC  GGCGGCGATC CGGACGTCTT TACCTTCCAG AGCGACGTCA ACCTGTCACT GGACCCGCGG ACCGGACCCA GGTTTCTCGA CTTTGCACGC ATGGGCGTCG AGCAGCGCGC GTGGAACGCC  GAGTACGCCA GGGAGTACGT CCGCCTGAGC ATGCTGGGCG TCTACAACAT CAACAACCTC GTCGAGTGCA CGCGCGCCAT GCCGCCTGCC TATGACCAGG AATGGTGGGC CCTGAGGAGG 
AGGGTCAAGC GCAAGGTTCC CAGCCGCTTC AGCGAACCCA AGAAGCCAAG AGAAGAGGAG GTGGCTCCCG TTGCCGATTC GGTATAA 

Retrieve as FASTA  
CDS
Send to BLAST
.........1 .........2 .........3 .........4 .........5 .........6 .........7 .........8 .........9 .........0 .........1 .........2
ATGCGCGGCT CGTTGGTGAC AAAGGCTTGC GTGGCCGCCT CAGCAGGCGG CAGCTTGGTG CTCGCCTATC CAGGAATGGG GCGGATGAAC GAGTTGATCG CACAAATAAA AGCCCAGGGT  TCCATCAACT CGACCATTCG ACACGAAGGC GACCTAATCA CGAGTGGTCC CATACTGGCA CCTTCACCTC TTGACTCAAC CGAGGTCATC GGTGATCTCG TCGACATCCC CGATGCTGGA  CTCACAGTTG TGGGCAGGTC CGTTCGAAAC ATTCTAGTCC GCGCCCCAAA CGAGCCCGCC GAGGGCACCG ACATTTATCC CTCCATCGAC TCGGTCCCAG ACATGGGCAC GCCCGCGTGC  AGGGCCGACG TCTGCTGCAT CTGGTGGTAT GTCGGATACG ACATGTATGA CATGTTCACG GCGAGAGATG GCAGCTGCAC AAAAGCTGCA CAGGCAGCCA TTCGTCTAGG TTTCCACGAC  GCTGCCGGCT GGTCCAAAGG CACGGCACCG ATCGGGGGTG CGGACGGTTC CATCGTGCTG GCCCCTGAGG AGATGGCTCG GCGGGACAAC CGTGGCTTGG CCGAGATCGT CGACCAAATG  CAAGAATGGT ACGACTACTA CAACGAATAC GGCGTCGGTA TGGCGGACCT GATCCAATTC GGCGCCACCG TAGCGGCCGT GTCGTGTCCA CAGGGCCCAC GCATCCGGTC CTTCATCGGC  CGTATCGACT CGCGCGTGCC CGCCCCTGAA GGACTCCTCC CGCCCGTCGA AGGCAGCGCC GAATTCAACA TTGAACTTTT TGTCAACAAA ACTATTATGC CCAACGGGCT TGCGGCGCTG  CTGGGGGCGC ACACCACGAG CAACCAGCGG TTCGTCAACG CGGACCGCGA GGGCGACGCG CAGGACAGCT CGCCGGGCTA CTGGGACACA CAATTCTACC GCGACACCCT GGCGTTCCCC  GGCGGCGATC CGGACGTCTT TACCTTCCAG AGCGACGTCA ACCTGTCACT GGACCCGCGG ACCGGACCCA GGTTTCTCGA CTTTGCACGC ATGGGCGTCG AGCAGCGCGC GTGGAACGCC  GAGTACGCCA GGGAGTACGT CCGCCTGAGC ATGCTGGGCG TCTACAACAT CAACAACCTC GTCGAGTGCA CGCGCGCCAT GCCGCCTGCC TATGACCAGG AATGGTGGGC CCTGAGGAGG 
AGGGTCAAGC GCAAGGTTCC CAGCCGCTTC AGCGAACCCA AGAAGCCAAG AGAAGAGGAG GTGGCTCCCG TTGCCGATTC GGTATAA 

Retrieve as FASTA