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Entry information : SpolPrxII01 (Spipo14G0017900)
Entry ID 13248
Creation 2015-06-19 (Christophe Dunand)
Last sequence changes 2015-06-19 (Christophe Dunand)
Sequence status complete
Reviewer Achraf Jemmat
Last annotation changes 2016-01-07 (Achraf Jemmat)
Peroxidase information: SpolPrxII01 (Spipo14G0017900)
Name (synonym) SpolPrxII01 (Spipo14G0017900)
Class Atypical 2-Cysteine peroxiredoxin (type II)    [Orthogroup: PrxII001]
Taxonomy Eukaryota Viridiplantae Streptophyta Monocotyledons Araceae Spirodela
Organism Spirodela polyrhiza (great duckweed)    [TaxId: 29656 ]
Cellular localisation N/D
Tissue type N/D
Inducer N/D
Repressor N/D
Best BLASTp hits
Perox score E-value SpolPrxII01
start..stop		 S start..stop
ZmaPrxII01 291 7.62e-103 1..163 1..163
CsPrxII02 286 4.41e-101 1..163 1..163
CclPrxII02 286 6.34e-101 1..163 1..163
EglPrxII03 285 1.47e-100 1..163 1..163
Literature and cross-references SpolPrxII01 (Spipo14G0017900)
Protein sequence: SpolPrxII01 (Spipo14G0017900)
Sequence Properties
first value : protein
second value (mature protein)
Length (aa):   %s   162
PWM (Da):   %s   17353.01  
PI (pH):   %s   4.72
Sequence
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Send to Peroxiscan
*.........1 .........2 .........3 .........4 .........5 .........6 .........7 .........8 .........9 .........0 .........1 .........2
MAPIAVGETI PEGTLAWFDE EDELKQIAIH SLAAGKKVVL FGVPGAFTPT CSMKHVPGFI DSADELKAKG VDEILCISVN DPFVMKAWAK TYPENKAVKF LADGSGTYTH ALGLELDLSD 
KGLGTRSRRF ALLVDDLKVK VANVEEGGQF TISGAEEILK AL* 

Retrieve as FASTA  
Remarks Complete sequence from genomic.
DNA
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.........1 .........2 .........3 .........4 .........5 .........6 .........7 .........8 .........9 .........0 .........1 .........2
ATGGCTCCGA TTGCAGTGGG CGAGACGATC CCGGAGGGCA CTCTGGCGTG GTTTGATGAG GAGGACGAGC TCAAGCAGAT CGCCATCCAC TCCCTTGCCG CTGGCAAGAA GGTCGTGCTC  TTTGGTGTCC CGGGCGCGTT CACCCCTACC TGCAGGTAAT CGACTCCCCC CCCCCCCCCC AACGCCCCCT CCAGCAGCAG TTGGATTCGG TTTCCCCGAT CTCTAATCTG ATGCTAAGTT  ATTGATCCCG TATTTCGTCG GTGCGACGGG ACCATGAAAT TTCTCTGTGA AAAAATTAAT CTGTGGATCT CCATGGGCAG CATGAAGCAT GTGCCTGGGT TCATCGACAG TGCTGACGAG  CTGAAGGCCA AGGGAGTGGA TGAGATCCTG TGCATTAGCG GTACCCTTTC GTTGCTTTTC TCATGCTTTT TTTAATTTAC TTTTGGTCCC TCTCATTAGA TGCAAGTTAT TTGTCCCCAT  TTTCTGATAG GCTATGGATT GGTCAAGTCA TCTCCATGTG AATCAACCAG TTGCCCCCCC TTCATGCGTA ATATGGCTGA GTAGTAGGTC TGATCAGGCA TTCCTTTGCT GCTTTAGTAG  TTAGTACGCC ATACTGTTAT TGGCGATGCA CAACTTGACA GGAACTAAGA CAGAAGAATT ATTCAAGCGT TTTAGGGACC GGGCAGCTGG GTAGTGAGGA ATCGACTTCA TCAGGCACTT  TACCTGAGAA ACACATGAGA AACCTTTTCT TACGATTCTG GGAGATGGTT TTTGGACGTC ATATGGAAGA ACCGGAACCT ATTTGTTAGG TACTTTCGTT GGCTTGGGCA TTCCATCTCT  CGATTATTTA TGGTGAATCC TTCAAAACTT GGCGTTGCCC TGGCACTGCA GTTGGATAGA CAGTAGAAAC CAGAGGGTTT CTATAATTGG AGGTAGGTAT GAAGGGCCAA TGACTCATGC  AGGGACAGTT GGGAAGGAAA GGACTGTATT TTTCTAGCTC TCTGGCCTAG ATGCCAAAAA AGCCCTAAAA GCTGAAACAA TGGTTAAGAG AATTGGGTCT CCAAGACTTC CCCCTTGTGT  TCATCAGTCT GACTCCAACA TTGAGACCTG ACTCCAGCTA AATGTTGAGT CTTTTATTTG TTCTACTCTG TTTCACACCA TCATCTTCTT CTCTTACTGT ATTCGGGGAT TATCATCAAA  GAGCCTTCTA CGTTGGTCTC AATGGTGAGC ATCCCACCAA AAATCGTCAG TTATTATCCA TCAGTAAATC TCAAGATGTG GCATCCCATG AAGGTTTTCT GGAACGCATC CTTGGAATTT  TCTGTGAAGA TGAACAACTT TGACCTTTCT CCTCCCAGTC AAAAGAGGAT GAAAAACCCA CTACCCTTGA AAACTTACCA GTAAGTAGCT CGTGTTCGTC ATGAACAGCT TCCTTGCGCA  CGGTGGCTGT ATACCAGTTC TATAAAATAC TCTCTGGTTG GTTTGCCGAA GAACATTCAT CCATCCAGTC AAATTTTTTA TCCTTTTGAT CTAAGCATCA TTTTATCGGC TACCTTCCAA  ACAACGTTGG TTGCCTCATC CACAGATACT GTGCTCTCAT CGAAGATTTC CCTACGTATT TTTGTCCAGA TAGCAGAAGA AAAGGTAATG AGGGCTGTCG TCCTCTGATC TGACGCTGTC  AGATTGCTAT TTGCGGCTGT TCCTCCCCCA GGATAATATT TTTCAATGCC ACTAATATCA AGTTTAAGAG ATCAACTCAG CTAACCTGCG ACCCTTCTGT TTCTACCATG GGTGCTCTCA  AGTGGGCTCC ACCCCACCAA AGTCTGGACT CGGCCAACAC TGAGTACCGG TCAACGCTTT CTATGTCGGA TTACATTTTA ATAATTATTT AAAAAATATG TCCGTCTGAA AGTCACAAAA  CACCCCCCCC TTTTCTTATG ATTACGTTTA CAAATTACGC TGGTTGTTCG TGCAAATTAA GCTGCATACT GATTTCCATC AATCTTCTGA CAATCATTTA TTTCGATTGA AGTCAACGAC  CCCTTCGTGA TGAAGGCTTG GGCTAAGACC TACCCAGAGA ACAAGGCGGT GAAGTTCCTG GCCGACGGCT CAGGCACCTA CACCCACGCC CTCGGCCTGG AGCTGGACCT ATCGGACAAG  GGCCTTGGGA CCCGCTCCAG AAGGTTCGCC CTCCTGGTGG ACGACCTCAA GGTCAAAGTT GCCAACGTGG AAGAGGGCGG CCAGTTCACC ATCTCCGGCG CCGAAGAGAT CCTCAAGGCC 
CTTTGA 

Retrieve as FASTA  
CDS
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.........1 .........2 .........3 .........4 .........5 .........6 .........7 .........8 .........9 .........0 .........1 .........2
ATGGCTCCGA TTGCAGTGGG CGAGACGATC CCGGAGGGCA CTCTGGCGTG GTTTGATGAG GAGGACGAGC TCAAGCAGAT CGCCATCCAC TCCCTTGCCG CTGGCAAGAA GGTCGTGCTC  TTTGGTGTCC CGGGCGCGTT CACCCCTACC TGCAGCATGA AGCATGTGCC TGGGTTCATC GACAGTGCTG ACGAGCTGAA GGCCAAGGGA GTGGATGAGA TCCTGTGCAT TAGCGTCAAC  GACCCCTTCG TGATGAAGGC TTGGGCTAAG ACCTACCCAG AGAACAAGGC GGTGAAGTTC CTGGCCGACG GCTCAGGCAC CTACACCCAC GCCCTCGGCC TGGAGCTGGA CCTATCGGAC  AAGGGCCTTG GGACCCGCTC CAGAAGGTTC GCCCTCCTGG TGGACGACCT CAAGGTCAAA GTTGCCAACG TGGAAGAGGG CGGCCAGTTC ACCATCTCCG GCGCCGAAGA GATCCTCAAG 
GCCCTTTGA 

Retrieve as FASTA  
cDNA
Send to BLAST
.........1 .........2 .........3 .........4 .........5 .........6 .........7 .........8 .........9 .........0 .........1 .........2
ATGGCTCCGA TTGCAGTGGG CGAGACGATC CCGGAGGGCA CTCTGGCGTG GTTTGATGAG GAGGACGAGC TCAAGCAGAT CGCCATCCAC TCCCTTGCCG CTGGCAAGAA GGTCGTGCTC  TTTGGTGTCC CGGGCGCGTT CACCCCTACC TGCAGCATGA AGCATGTGCC TGGGTTCATC GACAGTGCTG ACGAGCTGAA GGCCAAGGGA GTGGATGAGA TCCTGTGCAT TAGCGTCAAC  GACCCCTTCG TGATGAAGGC TTGGGCTAAG ACCTACCCAG AGAACAAGGC GGTGAAGTTC CTGGCCGACG GCTCAGGCAC CTACACCCAC GCCCTCGGCC TGGAGCTGGA CCTATCGGAC  AAGGGCCTTG GGACCCGCTC CAGAAGGTTC GCCCTCCTGG TGGACGACCT CAAGGTCAAA GTTGCCAACG TGGAAGAGGG CGGCCAGTTC ACCATCTCCG GCGCCGAAGA GATCCTCAAG 
GCCCTTTGA 

Retrieve as FASTA