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Entry information : CreNAnPrx01
Entry ID 2803
Creation 2007-02-08 (Filippo Passardi)
Last sequence changes 2007-02-08 (Filippo Passardi)
Sequence status complete
Reviewer Christophe Dunand
Last annotation changes 2010-03-02 (Christophe Dunand)
Peroxidase information: CreNAnPrx01
Name CreNAnPrx01
Class Other non animal peroxidase    [Orthogroup: NAnPrx002]
Taxonomy Eukaryota Viridiplantae Chlorophyta Chlorophyceae Chlamydomonadaceae Chlamydomonas
Organism Chlamydomonas reinhardtii    [TaxId: 3055 ]
Cellular localisation N/D
Tissue type N/D
Inducer N/D
Repressor N/D
Best BLASTp hits
Perox score E-value CreNAnPrx01
start..stop		 S start..stop
CreNAnPrx02 1669 0 1..1252 1..1321
VcaNAnPrx 820 0 526..1249 564..1328
VcaNAnPrx 482 1.44e-148 27..559 36..528
EeAPx-R 68 0.000000000000699 151..301 8..143
MEspCIIAA01_NRRL54901 70 0.000000000000869 43..344 40..287
Literature and cross-references CreNAnPrx01
Literature Madera, M., Vogel, C., Kummerfeld, S.K., Chothia, C. and Gough, J. (2004) The SUPERFAMILY database in 2004: additions and improvements. Nucl. Acids Res., 32, D235-D239.
DNA ref. JGI genome:   chromosome_7 (2529991..2536711)
mRNA ref. JGI transcript:   344740
Protein sequence: CreNAnPrx01
Sequence Properties
first value : protein
second value (mature protein)
Length (aa):   %s   1257
PWM (Da):   %s   136796.47 Transmb domain:   %s   i7-26o36-53i60-82o
PI (pH):   %s   7.2
Sequence
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Send to Peroxiscan
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MPQKRLRGVS LALAAVALAV LLAGLLPSCP VRTVDAQLLS GLTGILGTLL NGVSSTLAAT LGLVGGTVTT VTGVVVDVTA YLSQPVQCSG SVCVKLDDYD QSHSDLADVN AKVLLWSPKV  AHVTAGKTYD PRGKDWVSVV ATCRELFQYE KRLATFFIRA SFHDSMAVDV SQCPGPNCGG ADASLLLSIE EMARPENAYD DFSLIAARAA KKIASFFDIS VADTLAVCAA VGPEVLSKGR  IKILTGTGAG VLRVGRLDNI RPSPPGNLPP NHADLTSFAK FWKERGFSEA EATALMGSHA LIDTQACFNG RRINDYCDPA TSDCSNVRMF RWENHYYKDI CSPTLSITPL TPEDMALDPV  ETPILGMSDP ELDAEARQET CKVHTCFTSK EAQAVALNNL AQVRRGARAE AVVPPETVAV TWTNKNCRAG AAYGINVTQH CPHAYLWFYT TNDAYLGQAC QGVGSAPEAV AVRNAARSYV  NNQATWDATY RSAYLKMVST FATWSQIATT NPVYINGGET CHGGYQALVT EANCCSCASL LRSTRYNATR DASGNTYVTS TTFVVRWPDV MPISQPAQPI PADQGGAVPP RPLDTTPFND  GVAPPASTSL ATVGDASSVC PSAHGTIIKV RGFPSSPFKW TPFTQTYANP PRAQIAASYV KPGTNMTVDA YEIDIFATAK NIGCPAGKPT WSLTYNGSVP GPSFRVLKGR QTLVRFNNRL  TPANLSGTPF SEFHPCEGTR SGRPISVHYH GSASLAPYDG WAEDTTCGAE SKDYYYPNWR AGFGWYHDHQ LDITSENAYF GLSGLYTTVD KAAEGGCGEP WNLDGIPEWD MQFKDAVLDS  NCQLYYDRAG PHRNNLYGDI NFVNGIPWPV ATMEPRWQRF RWLVSSVARP YKLRFVNADG TDFSGGKCQV IGGEAGTRRS PVSYPAAGLF MGVAERYEVV CDFSGLSGKT LFLVNAYDDR  RMKDVPYYCH SHLVMKINVA CNSTGCPASP PAFQPPSSSR VTPLDRVLNQ TDIDRALAMV ANKQCTRTFR FGRRHGHWVI NGESWHTARV AASDVGHNTW EVWCLETGGG WFHPIHIHLV  DFFVLARNWD VNQVHDYERW IGKDVVQLDP SAHIALLLRF GAHRGEYMFH CHNLMHEDFE MMRSFHVMPT PGSRTASTAL PMQSDPTIVT TLNYVYDLYD DPVYPAAGPK PTSTLTPLRT 
PSASTTAALS MPIDRAIHRI YYPYGSTNIT SAGAAKLANP VTNPWLVPIC KPQKAYP 

Retrieve as FASTA  
Remarks Complete sequence from genomic (chromo 7, 17 introns). The sequence contains peroxidase and a copper oxidase domains. EST sequence for the 5' end (cupredoxin part): BI527303.
cDNA
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ATGCCGCAAA AGCGACTGCG AGGCGTGAGC CTCGCGCTCG CAGCCGTGGC GCTTGCGGTG CTTCTCGCGG GCCTTCTGCC GAGCTGTCCC GTTCGCACCG TGGACGCCCA GCTGCTCAGC  GGCCTCACCG GCATTCTCGG CACCCTCCTC AACGGCGTGT CTTCCACTCT TGCAGCGACG CTGGGCCTGG TCGGTGGAAC CGTCACCACG GTCACAGGTG TGGTGGTGGA CGTGACCGCG  TATCTGTCGC AGCCCGTGCA GTGCAGTGGC TCGGTGTGTG TTAAGCTGGA TGACTATGAC CAGTCCCACA GCGACCTGGC TGACGTGAAC GCAAAGGTGC TGCTGTGGAG CCCCAAGGTA  GCCCACGTGA CGGCCGGCAA GACTTATGAT CCCCGCGGCA AGGACTGGGT CTCGGTTGTG GCTACGTGCC GCGAGCTGTT CCAGTACGAA AAGCGCCTGG CAACCTTCTT CATCCGCGCC  TCCTTCCACG ACTCCATGGC TGTGGACGTG AGCCAGTGCC CTGGCCCCAA CTGCGGCGGT GCCGACGCGT CCCTGCTGCT GAGCATCGAG GAGATGGCTC GCCCAGAGAA TGCGTATGAT  GACTTCTCAT TGATCGCTGC TCGTGCGGCC AAGAAGATTG CGTCTTTCTT TGACATCTCC GTTGCCGACA CGCTGGCGGT GTGCGCCGCG GTGGGCCCCG AGGTCCTGAG TAAGGGCCGC  ATCAAGATTC TCACTGGCAC CGGTGCTGGC GTACTCCGCG TGGGCCGCCT GGACAATATC CGACCCTCGC CGCCGGGCAA CCTGCCCCCC AACCACGCCG ACCTGACAAG TTTCGCGAAG  TTTTGGAAGG AGCGTGGTTT CTCTGAGGCG GAGGCGACTG CTCTGATGGG CTCTCACGCC CTCATCGACA CGCAGGCCTG CTTCAACGGC AGGAGAATCA ACGACTACTG CGACCCGGCC  ACCTCGGACT GCTCCAACGT GCGCATGTTC CGCTGGGAGA ACCACTACTA CAAGGACATC TGCTCGCCAA CGCTGTCCAT CACGCCCCTG ACTCCTGAGG ACATGGCACT TGATCCCGTG  GAGACCCCAA TCCTGGGCAT GTCTGATCCC GAGTTGGACG CAGAGGCCCG CCAGGAGACC TGCAAGTTCA CCAGCAAGGA GGCCCAGGCT GTGGCACTGA ACAACCTGGC CCAGGTGCGC  CGCGGCGCTC GCGCTGAGGC CGTGGTGCCC CCTGAGACGG TTGCCGTCAC CTGGACCAAC AAGAACTGCC GCGCCGGCGC CGCCTATGGC ATCAACGTCA CCCAACACTG CCCGCACGCC  TACCTTTGGT TCTACACCAC CAATGACGCC TACCTCGGCC AGGCATGCCA GGGCGTTGGC AGTGCCCCCG AGGCTGTTGC TGTGCGCAAT GCCGCGCGCT CGTATGTCAA CAACCAGGCC  ACCTGGGACG CCACCTACCG CAGCGCCTAC CTCAAGATGG TCAGCACGTT CGCCACCTGG TCCCAGATCG CCACCACGAA CCCCGTTTAC ATCAACGGTG GCGAGTGCGC TAGCGGAACC  CACCTCGAGG CGGCGTGTGC GCAGGCGTCC CCAGGACTTG CCACGGCGGA TACCAAGTCG CTCTACTCGG GCAGTTACAT CCTCCTGGGC AGCCTGTTGG GTGGCGCCTG CCGCGACTGC  GCGAAGGGCG TGTGCCCACA GCCAAGTCAA TGTGGGCAGT GCGTCAACAC TTTCAACAAC CGCCTGCTCG TGCCCAGGAA TCCCCTGGTG ACCGAGGCCA ACTGCTGCTC CTGCGCCAGC  CTGCTTCGCT CCACGCGATA CAACGCCACC AGGGACGCCA GCGGCAACAC CTACGTCACC TCCACAACCT TCGTGGTGCG CTGGCCCGAC GTCATGCCGA TCTCACAGCC GGCACAGCCC  ATCCCCGCTG ACCAGGGAGG CGCGGTGCCG CCGCGGCCGT TGGACACCAC GCCCTTCAAT GACGGCGTGG CACCACCGGC ATCCACTTCG CTGGCGACTG TTGGCGACGC GTCAAGTGTT  TGCCCCAGTG CTCATGGCAC CATTATCAAG GTCCGGGGCT TCCCTAGCAG CCCCTTCAAG TGGACACCCT TCACCCAGAC CTACGCCAAC CCGCCCCGCG CGCAGATTGC CGCCAGCTAC  GTCAAGCCCG GCACCAACAT GACCGTGGAC GCTTATGAGA TTGACATTTT TGCCACGGCC AAGAACATTG GTTGCCCCGC CGGCAAGCCG ACCTGGTCTC TGACATACAA CGGCTCCGTG  CCCGGTCCCT CATTCCGTGT GCTTAAGGGC CGTCAGACGC TGGTCCGCTT CAACAACCGC CTCACGCCCG CCAATCTGAG CGGCACGCCC TTCAGCGAGT TCCACCCCTG CGAGGGCACG  CGCTCCGGCC GCCCCATCTC CGTCCACTAC CACGGCTCCG CGTCGCTCGC GCCCTATGAT GGCTGGGCCG AGGACACCAC ATGCGGCGCT GAGAGCAAGG ACTACTACTA CCCCAACTGG  CGCGCGGGCT TCGGCTGGTA CCACGACCAC CAACTTGACA TCACCTCTGA GAATGCCTAC TTTGGTCTGA GCGGCCTGTA CACGACCGTT GACAAGGCCG CCGAGGGCGG CTGTGGTGAG  CCATGGAACC TGGACGGGAT CCCCGAGTGG GACATGCAGT TTAAGGACGC TGTCCTGGAC AGCAACTGCC AGCTCTACTA TGACCGCGCG GGCCCCCACC GCAACAACCT GTACGGCGAC  ATCAACTTCG TCAACGGCAT CCCCTGGCCC GTGGCCACCA TGGAGCCCCG CTGGCAGCGC TTCCGCTGGC TGGTCTCTTC CGTCGCCCGC CCCTACAAGC TGCGGTTTGT GAACGCCGAC  GGCACCGATT TCAGCGGCGG CAAGTGCCAG GTGATTGGCG GCGAGGCCGG TACTCGCCGC TCGCCTGTGT CGTATCCCGC CGCTGGCCTT TTTATGGGCG TGGCGGAGCG CTACGAGGTG  GTGTGCGACT TCAGCGGTCT CAGCGGCAAG ACTCTGTTCC TGGTGAACGC CTACGACGAC CGCCGCATGA AGGACGTGCC GTACTATTGC CACTCCCACC TGGTCATGAA GATCAACGTG  GCTTGTAACA GCACCGGCTG CCCGGCCAGC CCGCCTGCTT TCCAGCCTCC GTCATCCTCC AGGGTCACAC CACTGGACCG TGTGCTAAAC CAAACCGACA TCGACCGGGC GCTCGCGATG  GTCGCCAACA AGCAGTGCAC TCGCACGTTC CGCTTCGGCC GCCGCCACGG CCACTGGGTC ATCAACGGCG AGTCGTGGCA CACAGCTCGT GTGGCCGCCA GCGATGTGGG CCACAACACT  TGGGAGGTGT GGTGCCTGGA GACCGGCGGC GGCTGGTTCC ACCCCATTCA CATCCACCTG GTCGACTTCT TCGTGCTGGC CCGCAATTGG GACGTGAACC AGGTCCACGA TTACGAGCGC  TGGATTGGCA AGGACGTTGT GCAGCTTGAC CCCAGCGCGC ACATTGCGCT GCTGCTGCGC TTCGGCGCGC ACCGCGGCGA GTACATGTTC CACTGCCACA ACCTGATGCA CGAGGACTTT  GAGATGATGC GCTCCTTCCA CGTCATGCCC ACGCCCGGTT CCCGTACGGC CTCCACGGCG TTGCCGATGC AGTCCGACCC CACCATCGTG ACGACCCTGA ACTACGTGTA TGATCTGTAC  GACGACCCGG TCTATCCGGC TGCTGGCCCC AAGCCCACCA GCACCCTGAC GCCGCTGCGC ACTCCCTCGG CATCTACCAC TGCGGCGCTG TCCATGCCCA TCGACCGGGC CATCCACAGG 
ATCTACTACC CCTACGGCTC GACCAACATC ACCTCGGCTG GCGCCGCCAA GCTTGCGAAC CCCGTCACCA ACCCGTGGTT GGTGCCCATC TGCAAGCCGC AAAAAGCATA CCCATGA 

Retrieve as FASTA