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Entry information : Ha4CxxC09 (HanXRQChr10g0312161)
Entry ID 14397
Creation 2017-11-03 (Christophe Dunand)
Last sequence changes 2017-11-03 (Christophe Dunand)
Sequence status complete
Reviewer Not yet reviewed
Last annotation changes 2017-11-23 (Catherine Mathe (Scipio))
Peroxidase information: Ha4CxxC09 (HanXRQChr10g0312161)
Name (synonym) Ha4CxxC09 (HanXRQChr10g0312161)
Class 4CxxC Grx    [Orthogroup: N/D] N/D
Taxonomy Eukaryota Viridiplantae Streptophyta Asteraceae Helianthus
Organism Helianthus annuus (Sunflower)    [TaxId: 4232 ]
Cellular localisation N/D
Tissue type N/D
Inducer N/D
Repressor N/D
Best BLASTp hits
Perox score E-value Ha4CxxC09
start..stop		 S start..stop
Ha4CxxC06 220 2.05e-71 93..261 107..290
Ha4CxxC01 199 1.8e-63 109..263 110..268
At4CxxC13 187 6.68e-59 85..261 84..265
Thas4CxxC13-1 172 3.74e-53 38..257 11..256
Gene structure Fichier Exons
ExonStart..EndSize ExonStart..EndSize ExonStart..EndSize ExonStart..EndSize
N° 1 221302083..221302886 802  
join(221302083..221302886)


exon

Literature and cross-references Ha4CxxC09 (HanXRQChr10g0312161)
DNA ref. HanXRQ genome:   HanXRQChr10 (221302083..221302886)
Protein sequence: Ha4CxxC09 (HanXRQChr10g0312161)
Sequence Properties
first value : protein
second value (mature protein)
Length (aa):   %s   267
PWM (Da):   %s   29373.56  
PI (pH):   %s   8.69
Sequence
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Send to Peroxiscan
*.........1 .........2 .........3 .........4 .........5 .........6 .........7 .........8 .........9 .........0 .........1 .........2
MCLANHFTRT LTSSRSKPKI HEKPNKAHDS TAHEKPNKVH DSIAHEKPNK AHDTIACENP SKAHNSTAHE KPNKAHDSIA LEKSSRAHDS ISSEKPNKAH NSDAQGVNIP NSEQRVVVYM  TSLGAVRPTF DACRAVRSIL QGFRVAVDER DLSMDASFKD ELQNIMLPAQ KNKQVGLPRV FIGGRYVGDA DDMRQLSETG ELKRLVEGLP AVSRAVCPGC GDFRFVICSD CNGSRKCYRE 
NGEFRSCLVC NKNGLIRCPT CWSAVKS 

Retrieve as FASTA  
Remarks
DNA
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.........1 .........2 .........3 .........4 .........5 .........6 .........7 .........8 .........9 .........0 .........1 .........2
ATGTGTCTCG CTAATCATTT CACGCGCACG CTAACATCTT CTCGATCTAA ACCAAAAATC CATGAAAAAC CTAACAAAGC GCACGATAGC ACCGCTCATG AAAAACCTAA CAAGGTGCAC  GATAGCATCG CTCATGAAAA ACCTAACAAG GCGCACGATA CCATCGCATG TGAAAACCCT AGCAAGGCGC ACAATAGCAC CGCACATGAA AAGCCTAATA AGGCGCACGA TAGCATCGCC  CTTGAAAAAT CTAGCCGAGC GCACGATAGC ATATCTTCAG AAAAACCTAA CAAGGCGCAC AATAGCGATG CTCAGGGAGT TAACATACCA AACTCCGAAC AACGCGTGGT CGTATACATG  ACAAGCCTAG GCGCCGTACG GCCAACGTTC GACGCTTGCC GAGCCGTGCG ATCAATACTG CAAGGGTTTC GTGTGGCGGT GGACGAGCGA GATCTGTCAA TGGATGCATC ATTCAAAGAT  GAGTTGCAAA ATATCATGTT ACCGGCTCAG AAGAACAAAC AGGTAGGGTT ACCTAGGGTT TTCATAGGCG GACGTTACGT CGGCGATGCG GATGACATGC GGCAGCTGAG TGAGACTGGA  GAGTTGAAGA GGTTGGTGGA AGGGCTGCCG GCGGTGTCGC GCGCTGTTTG TCCGGGATGT GGTGATTTCC GGTTTGTGAT ATGTAGTGAT TGTAATGGGA GCCGGAAGTG TTATAGGGAG 
AATGGGGAGT TTAGGAGTTG TTTGGTTTGC AATAAGAATG GGTTGATCAG GTGCCCTACT TGTTGGAGTG CTGTAAAATC TTGA 

Retrieve as FASTA  
CDS
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.........1 .........2 .........3 .........4 .........5 .........6 .........7 .........8 .........9 .........0 .........1 .........2
ATGTGTCTCG CTAATCATTT CACGCGCACG CTAACATCTT CTCGATCTAA ACCAAAAATC CATGAAAAAC CTAACAAAGC GCACGATAGC ACCGCTCATG AAAAACCTAA CAAGGTGCAC  GATAGCATCG CTCATGAAAA ACCTAACAAG GCGCACGATA CCATCGCATG TGAAAACCCT AGCAAGGCGC ACAATAGCAC CGCACATGAA AAGCCTAATA AGGCGCACGA TAGCATCGCC  CTTGAAAAAT CTAGCCGAGC GCACGATAGC ATATCTTCAG AAAAACCTAA CAAGGCGCAC AATAGCGATG CTCAGGGAGT TAACATACCA AACTCCGAAC AACGCGTGGT CGTATACATG  ACAAGCCTAG GCGCCGTACG GCCAACGTTC GACGCTTGCC GAGCCGTGCG ATCAATACTG CAAGGGTTTC GTGTGGCGGT GGACGAGCGA GATCTGTCAA TGGATGCATC ATTCAAAGAT  GAGTTGCAAA ATATCATGTT ACCGGCTCAG AAGAACAAAC AGGTAGGGTT ACCTAGGGTT TTCATAGGCG GACGTTACGT CGGCGATGCG GATGACATGC GGCAGCTGAG TGAGACTGGA  GAGTTGAAGA GGTTGGTGGA AGGGCTGCCG GCGGTGTCGC GCGCTGTTTG TCCGGGATGT GGTGATTTCC GGTTTGTGAT ATGTAGTGAT TGTAATGGGA GCCGGAAGTG TTATAGGGAG 
AATGGGGAGT TTAGGAGTTG TTTGGTTTGC AATAAGAATG GGTTGATCAG GTGCCCTACT TGTTGGAGTG CTGTAAAATC TTGA 

Retrieve as FASTA  
cDNA
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.........1 .........2 .........3 .........4 .........5 .........6 .........7 .........8 .........9 .........0 .........1 .........2
ATGTGTCTCG CTAATCATTT CACGCGCACG CTAACATCTT CTCGATCTAA ACCAAAAATC CATGAAAAAC CTAACAAAGC GCACGATAGC ACCGCTCATG AAAAACCTAA CAAGGTGCAC  GATAGCATCG CTCATGAAAA ACCTAACAAG GCGCACGATA CCATCGCATG TGAAAACCCT AGCAAGGCGC ACAATAGCAC CGCACATGAA AAGCCTAATA AGGCGCACGA TAGCATCGCC  CTTGAAAAAT CTAGCCGAGC GCACGATAGC ATATCTTCAG AAAAACCTAA CAAGGCGCAC AATAGCGATG CTCAGGGAGT TAACATACCA AACTCCGAAC AACGCGTGGT CGTATACATG  ACAAGCCTAG GCGCCGTACG GCCAACGTTC GACGCTTGCC GAGCCGTGCG ATCAATACTG CAAGGGTTTC GTGTGGCGGT GGACGAGCGA GATCTGTCAA TGGATGCATC ATTCAAAGAT  GAGTTGCAAA ATATCATGTT ACCGGCTCAG AAGAACAAAC AGGTAGGGTT ACCTAGGGTT TTCATAGGCG GACGTTACGT CGGCGATGCG GATGACATGC GGCAGCTGAG TGAGACTGGA  GAGTTGAAGA GGTTGGTGGA AGGGCTGCCG GCGGTGTCGC GCGCTGTTTG TCCGGGATGT GGTGATTTCC GGTTTGTGAT ATGTAGTGAT TGTAATGGGA GCCGGAAGTG TTATAGGGAG 
AATGGGGAGT TTAGGAGTTG TTTGGTTTGC AATAAGAATG GGTTGATCAG GTGCCCTACT TGTTGGAGTG CTGTAAAATC TTGA 

Retrieve as FASTA