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Entry information : AfCP01 (ArchfulCP / perA)
Entry ID 1858
Creation 2006-09-04 (Christophe Dunand)
Last sequence changes 2011-07-18 (Marcel Zamocky)
Sequence status complete
Reviewer Christophe Dunand
Last annotation changes 2011-08-11 (Christophe Dunand)
Peroxidase information: AfCP01 (ArchfulCP / perA)
Name (synonym) AfCP01 (ArchfulCP / perA)
Class Catalase peroxidase    [Orthogroup: CP001]
Taxonomy Archaea Euryarchaeota Archaeoglobi Archaeoglobaceae Archaeoglobus
Organism Archaeoglobus fulgidus    [TaxId: 2234 ]
Cellular localisation Cytosolic
Tissue type N/D
Inducer N/D
Repressor N/D
Best BLASTp hits
Perox score E-value AfCP01
start..stop		 S start..stop
FplCP01 1288 0 2..740 1..744
TleCP01 1145 0 11..725 8..724
TcurCP01 917 0 19..727 42..746
SthCP01_IAM14863 909 0 18..725 18..721
Literature and cross-references AfCP01 (ArchfulCP / perA)
Literature REFERENCE #1 Zamocky M. (2004) Phylogenetic relationships in class I of the superfamily of bacterial, fungal, and plant heme peroxidases. Eur. J. Biochem. Vol.271, pp.3297-3309.

REFERENCE #2 Klenk H.P., Clayton R.A., Tomb J., White O., Nelson K.E., Ketchum K.A., Dodson R.J., Gwinn M., Hickey E.K.,Peterson J.D., Richardson D.L.,Kerlavage A.R., Graham, D.E.,,Venter J.C. (1997) The complete genome sequence of the hyperthermophilic, sulphate-reducing archaeon Archaeglobus fulgidus. Nature Vol.390, pp. 364-370.

REFERENCE #3 Singh R., Wiseman B., Deemagam T., Jha V., Switala J., Loewen P.C. (2008) Comparative studies of catalase-peroxidases (KatGs). Arch. Biochem. Biophys. 471:207-214.
Protein ref. GenBank:   AAB89022.1 UniProtKB:   O28050
DNA ref. GenBank:   AE000782.1 (1997366..1999591)
Protein sequence: AfCP01 (ArchfulCP / perA)
Sequence Properties
first value : protein
second value (mature protein)
Length (aa):   %s   741 (324)
PWM (Da):   %s   84644.76 (34221.8)  
PI (pH):   %s   5.55 (4.14) Peptide Signal:   %s   cut: 23 range:23-346
Sequence
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*.........1 .........2 .........3 .........4 .........5 .........6 .........7 .........8 .........9 .........0 .........1 .........2
MMRQGGVMVG ARKRWITDWW PNRLNLKILR QNLQNPYGED YDYVEEVENL DIDAVIRDLK ELMRSSQDWW PADFGHYGPL FIRLAWHSAG SYRIFDGRGG ARDGSIRFPP RINWPDNINL  DKAIRLLWPI KKKYGRKLSW ADLIILAGTV AMEDMGVKLF GFALGREDIF EPDESPDWGP EEEMLTAKRG EKEELERPFA ATEMGLIYVN PEGPGGNPDP LGSAQEIRVA FRRMGMNDEE  TVALIAGGHA FGKCHGAGPA DYLGPDPSSS PIEMQGLGWK YNYGKGKGSD TFTSGLEVTW SPTPTKFGIN YLRILFTYEW ELEKSPAGKN QWVAKDAPEI IPDAHDPNKK HRPRMLTADL  ALRFDPEFSK IARRFLENPE EFEKAFAIAW YKLTHRDMGP KDCYIGKYVP EETFVWQDPL PRRDYELVDE KDVEELKRRI LASGLSLSQL VYFAWASAST YRNSDRRGGA NGARIRLKPM  SVWEVNHPEE LKKVIAAYEK IQQEFNEGAK GSEKRISIAD LIVLGGIAAV EEAARRAGFS VKVPFIPGRV DAQQEHVDEE FYRVIEPFAD GFRNYFRYPE RINERDVYTT PEYFLVDKAN  LLTLTVPEMV VLIGGMRALG ANYSHSDYGV LTERPGVLSN DFFVNLLDMS VEWRAADDYR YTFEGYDRKS GELRWRATRV DLILGHHDEL RAVAEVYGCD DAKEKFVKDF AAVCAKVMHL 
DRFDLWRSNR KLYKEITAGL R 

Retrieve as FASTA  
Remarks Complete sequence from genomic. Strain="DSM 4304".
DNA
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.........1 .........2 .........3 .........4 .........5 .........6 .........7 .........8 .........9 .........0 .........1 .........2
ATGATGAGAC AGGGTGGTGT TATGGTTGGA GCAAGGAAAA GGTGGATTAC GGACTGGTGG CCCAACAGGC TGAACCTGAA AATTCTGAGA CAGAACCTCC AGAATCCCTA CGGGGAGGAT  TACGATTACG TCGAGGAGGT TGAGAATCTC GATATCGATG CTGTCATCAG GGATTTGAAG GAGCTGATGA GAAGCTCTCA GGACTGGTGG CCGGCTGACT TCGGCCATTA CGGCCCTTTG  TTCATCCGCC TTGCGTGGCA TAGCGCGGGC AGCTACCGCA TTTTTGATGG CAGAGGTGGG GCGAGGGACG GGAGCATCCG CTTTCCGCCC CGCATAAACT GGCCGGACAA CATAAACCTC  GACAAGGCGA TAAGGCTGCT CTGGCCGATA AAGAAGAAGT ACGGCAGAAA GCTGTCTTGG GCGGATCTGA TTATCCTTGC GGGCACAGTT GCAATGGAGG ACATGGGAGT GAAGCTTTTC  GGCTTCGCAC TGGGCAGGGA GGACATCTTT GAGCCTGACG AGAGCCCCGA CTGGGGGCCG GAGGAGGAGA TGCTTACAGC AAAGAGAGGG GAGAAGGAGG AGCTTGAGAG ACCTTTTGCA  GCTACCGAGA TGGGCCTGAT TTACGTAAAC CCTGAAGGGC CCGGCGGAAA TCCAGATCCG CTTGGCTCGG CTCAGGAGAT TAGGGTTGCC TTCCGCAGGA TGGGGATGAA CGACGAGGAG  ACTGTAGCAC TTATCGCCGG AGGGCATGCC TTCGGAAAGT GTCATGGCGC TGGACCCGCT GATTATCTTG GGCCAGACCC AAGCTCCTCT CCCATTGAAA TGCAGGGGCT CGGATGGAAG  TACAACTACG GCAAGGGAAA GGGCTCTGAC ACCTTCACTT CTGGTCTTGA GGTTACTTGG TCGCCCACGC CCACAAAGTT CGGCATAAAC TACCTCAGAA TTCTCTTCAC CTACGAGTGG  GAGCTGGAGA AGAGCCCAGC AGGGAAAAAC CAGTGGGTTG CCAAGGACGC TCCAGAAATC ATTCCCGATG CTCATGATCC AAACAAAAAG CACAGGCCGA GAATGCTAAC CGCTGACTTA  GCCCTCCGCT TCGACCCAGA GTTCTCGAAA ATTGCGAGGA GATTTCTCGA AAATCCTGAG GAATTTGAAA AGGCATTCGC CATCGCGTGG TACAAGCTCA CCCACAGAGA CATGGGTCCA  AAGGACTGCT ACATTGGCAA GTACGTGCCG GAGGAGACCT TTGTGTGGCA GGACCCGTTG CCAAGGAGAG ATTACGAGCT CGTTGACGAA AAGGACGTGG AGGAGCTGAA GAGGAGGATT  CTTGCGTCGG GGCTCAGCTT AAGCCAGCTC GTTTACTTTG CGTGGGCCTC AGCATCAACC TACCGCAACT CGGACAGGAG AGGAGGGGCC AACGGGGCGA GAATCAGGCT TAAGCCGATG  AGTGTGTGGG AGGTAAACCA TCCGGAAGAG CTTAAGAAGG TTATTGCTGC ATACGAGAAA ATTCAGCAGG AGTTCAACGA GGGGGCGAAG GGGAGTGAGA AGAGAATTTC AATCGCCGAC  CTCATTGTCC TTGGAGGTAT TGCAGCTGTT GAGGAGGCGG CAAGGAGGGC GGGATTCAGC GTTAAGGTTC CATTCATTCC CGGCAGAGTG GATGCGCAGC AAGAGCACGT TGACGAGGAA  TTCTACAGAG TCATTGAGCC CTTCGCCGAT GGCTTCAGGA ACTACTTCAG GTATCCAGAG AGAATCAATG AAAGGGACGT TTACACAACT CCCGAGTACT TCCTCGTCGA TAAGGCGAAC  CTGCTAACCC TCACAGTTCC CGAAATGGTG GTGCTGATTG GGGGTATGAG GGCTCTTGGA GCAAACTACA GCCACTCTGA CTACGGTGTC CTTACCGAAA GGCCCGGAGT GCTGAGCAAC  GACTTCTTCG TCAACCTTCT GGACATGTCC GTAGAGTGGA GGGCTGCTGA CGACTACAGG TACACCTTCG AAGGCTACGA TAGGAAGAGC GGAGAGCTGA GGTGGAGGGC AACGAGGGTT  GATTTAATCT TAGGCCATCA CGACGAGCTG AGGGCTGTGG CAGAGGTTTA CGGTTGCGAT GATGCAAAGG AGAAGTTCGT GAAGGACTTC GCTGCAGTGT GTGCAAAGGT TATGCACCTC 
GACCGCTTTG ATTTGTGGAG AAGCAACAGG AAGCTGTATA AGGAGATAAC CGCAGGTTTG AGGTGA 

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