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Entry information : LpnCP01_Philadelphia-1
Entry ID 2642
Creation 2006-08-22 (Christophe Dunand)
Last sequence changes 2006-08-22 (Christophe Dunand)
Sequence status complete
Reviewer Filippo Passardi
Last annotation changes 2010-03-19 (Christophe Dunand)
Peroxidase information: LpnCP01_Philadelphia-1
Name LpnCP01_Philadelphia-1
Class Catalase peroxidase    [Orthogroup: CP001]
Taxonomy Bacteria Proteobacteria Gammaproteobacteria Legionellaceae Legionella
Organism Legionella pneumophila    [TaxId: 446 ]
Cellular localisation N/D
Tissue type N/D
Inducer N/D
Repressor N/D
Best BLASTp hits
Perox score E-value LpnCP01_Philadelphia-1
start..stop		 S start..stop
LpnCP01_Paris 1518 0 1..749 1..749
LpnCP01_Lens 1518 0 1..749 1..749
GbeCP01 1041 0 1..741 18..758
NeCP01 1040 0 8..741 8..742
Literature and cross-references LpnCP01_Philadelphia-1
Literature Chien M., Morozova I., Shi S., Sheng H., Chen J., Gomez S.M., Asamani G., Hill K., Nuara J., Feder M., Rineer J., Greenberg J.J., Steshenko V., Park S.H., Zhao B., Teplitskaya E., Edwards J.R., Pampou S., Georghiou A., Chou I.-C., Iannuccilli W., Ulz M.E., Kim D.H., Geringer-Sameth A., Goldsberry C., Morozov P., Fischer S.G., Segal G., Qu X., Rzhetsky A., Zhang P., Cayanis E., De Jong P.J., Ju J., Kalachikov S., Shuman H.A., Russo J.J. The genomic sequence of the accidental pathogen Legionella pneumophila. Science 305:1966-1968(2004).
Protein ref. UniProtKB:   Q5ZZ17
DNA ref. GenBank:   AE017354.1 (225696..223447)
Protein sequence: LpnCP01_Philadelphia-1
Sequence Properties
first value : protein
second value (mature protein)
Length (aa):   %s   749 (722)
PWM (Da):   %s   82775.75 (79770.2)  
PI (pH):   %s   8.43 (7.26) Peptide Signal:   %s   cut: 28 range:28-749
Sequence
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Send to Peroxiscan
*.........1 .........2 .........3 .........4 .........5 .........6 .........7 .........8 .........9 .........0 .........1 .........2
MFKRTIPLFA AFTLAISPSI FPNYAHAQED KPKTNQYWWP KMLDLSPLRQ PNATSNPMGE KFNYAEEFNS LDLNAVIEDL KKLMTTSQDW WPADYGNYGP LFIRMSWHAA GTYRIYDGRG  GANGGFQRFA PQNSWPDNAN LDKARRLLWP IKQKYGRKIS WADLLVLAGN VAMESMGFKT IGFAGGREDA WEAININWGP EGKWLESKRQ DKDGKLEKPL AATVMGLIYV NPEGPNGVPD  PLAAAEKIRE TFGRMAMNDE ETVALIAGGH AFGKTHGAAS GKYLGPAPEA AGIEEQGFGW KNSYGSGKGK DTITSGLEGA WTVTPTHWSH NYLQNLFNFN WVKTKSPGGA IQWVPENSNA  SSMVPDAFDP SKRHAPVMLT TDLALKFDPV YSKIAKRFLD NPKEFDDAFA RAWFKLIHRD MGPRSRYLGS LVPKEAMIWQ DPVPPVDYKL VDANDIANLK GKILNSGLTT SELVKTAWAS  ASTFRGTDMR GGANGARIRL APQKDWPAND PQELAKVLKT LESIQNNFNN AQADGKKISL ADLIVLGGNA AIEQAAKQAG YDIIVPFTPG RTDATQGMTD VKSFEVLEPK ADGFRNYFDK  SNNMSPPEML VEKASLLKLS VPEMTVLVGG MRVLNANTGQ NQYGVFTDKP GTLNNDFFIN LLSMSTEWKK SSETEGIYEG YERKTGKLKW KATSVDLIFG ANSELRAVAE AYATDDAKEK 
FIQDFINAWV KVMTADRFDI KAANANINS 

Retrieve as FASTA  
Remarks Complete sequence from genomic. Strain="Philadelphia 1/ ATCC 33152 / DSM 7513". Identical sequence in Philadelphia-1 variant AM511 (Marra A., PNAS, 1992) reported in Swiss-Prot with the accession Q9WXB9. Identical sequence in AM511 isolate JR32 (Bandyopadhyay P., J.Bacteriol., 2000) reported in Swiss-Prot with the accession Q548R8).
DNA
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.........1 .........2 .........3 .........4 .........5 .........6 .........7 .........8 .........9 .........0 .........1 .........2
ATGTTCAAAC GAACAATACC TCTGTTTGCA GCATTCACTC TGGCCATCTC GCCTTCCATT TTCCCAAATT ATGCCCATGC GCAAGAAGAC AAGCCGAAAA CCAATCAATA CTGGTGGCCT  AAAATGCTCG ATCTTAGCCC GCTGCGGCAA CCCAATGCCA CTTCGAATCC CATGGGTGAA AAATTCAACT ATGCCGAAGA ATTCAATAGC TTAGATTTGA ATGCCGTGAT AGAAGATCTC  AAAAAATTAA TGACTACCTC GCAAGACTGG TGGCCTGCTG ATTATGGTAA CTATGGTCCA TTATTCATAC GCATGTCATG GCATGCGGCA GGAACTTACC GCATCTATGA TGGCCGTGGT  GGAGCAAACG GTGGCTTCCA GCGTTTCGCC CCGCAAAACA GCTGGCCGGA TAATGCCAAT CTGGACAAAG CCAGACGTTT ACTGTGGCCA ATTAAGCAGA AATATGGGCG CAAGATTTCA  TGGGCTGATT TGTTGGTACT TGCTGGAAAT GTTGCGATGG AATCTATGGG CTTCAAGACC ATTGGATTTG CTGGAGGGCG TGAAGACGCA TGGGAGGCCA TCAATATCAA TTGGGGCCCT  GAAGGCAAAT GGCTGGAAAG TAAGCGCCAG GATAAAGATG GAAAACTTGA AAAACCGCTT GCTGCGACCG TAATGGGCTT AATCTATGTG AATCCGGAAG GACCAAACGG CGTTCCAGAT  CCTCTTGCTG CGGCCGAAAA AATTCGCGAG ACTTTCGGGC GTATGGCCAT GAATGACGAA GAAACAGTTG CTTTAATTGC GGGCGGGCAC GCATTCGGAA AAACACATGG AGCCGCGTCC  GGCAAATATC TGGGGCCAGC GCCAGAAGCA GCAGGCATAG AAGAACAAGG CTTTGGTTGG AAAAACAGTT ACGGCAGCGG CAAAGGGAAA GACACGATTA CCAGTGGTTT AGAAGGTGCC  TGGACCGTAA CACCTACCCA CTGGAGCCAT AACTACTTAC AAAACCTGTT CAATTTCAAT TGGGTTAAAA CCAAGAGCCC CGGTGGAGCA ATCCAGTGGG TACCTGAGAA TTCGAATGCC  TCGTCAATGG TTCCCGATGC ATTTGACCCC AGTAAAAGGC ATGCGCCGGT CATGCTGACC ACAGACTTGG CACTAAAATT TGATCCTGTT TACAGTAAAA TTGCCAAGCG TTTTCTTGAT  AATCCTAAAG AGTTCGATGA CGCATTTGCT CGTGCCTGGT TTAAGCTGAT TCACCGAGAC ATGGGGCCAC GTTCACGTTA CCTCGGCTCT TTAGTGCCTA AAGAAGCCAT GATTTGGCAA  GATCCAGTTC CGCCAGTTGA TTACAAATTA GTTGATGCCA ATGATATTGC TAACCTCAAG GGTAAAATTC TCAACTCGGG ATTGACCACA TCCGAGCTGG TCAAAACTGC TTGGGCCTCG  GCATCCACCT TCCGTGGCAC TGATATGCGT GGAGGGGCAA ATGGTGCTCG AATTCGCCTG GCTCCCCAAA AAGACTGGCC GGCTAATGAT CCTCAGGAGC TGGCAAAAGT ATTAAAAACA  TTGGAGAGCA TTCAGAATAA CTTCAATAAT GCTCAAGCCG ATGGGAAAAA GATATCTCTT GCGGATTTGA TAGTTTTAGG TGGTAATGCC GCAATCGAAC AAGCGGCCAA GCAAGCTGGC  TACGACATCA TTGTTCCCTT CACGCCAGGA CGCACAGATG CCACACAAGG AATGACTGAT GTGAAGTCTT TTGAGGTTCT TGAACCTAAA GCAGACGGGT TTAGAAATTA CTTTGATAAA  AGCAACAATA TGTCGCCACC AGAAATGTTG GTGGAAAAAG CGAGTCTGTT GAAATTAAGT GTTCCGGAAA TGACGGTTTT AGTTGGTGGG ATGCGTGTAC TTAACGCGAA TACTGGACAA  AATCAATATG GTGTATTCAC TGACAAACCT GGAACTCTAA ATAATGACTT TTTCATCAAT CTGCTAAGCA TGTCAACAGA GTGGAAGAAA TCAAGTGAGA CAGAGGGGAT TTATGAAGGT  TATGAGCGCA AAACTGGAAA GCTGAAATGG AAAGCGACCT CGGTTGATCT CATCTTCGGC GCGAATTCTG AGTTAAGAGC AGTTGCAGAA GCCTATGCAA CCGATGACGC AAAAGAAAAA 
TTTATACAAG ATTTTATTAA TGCCTGGGTT AAGGTAATGA CAGCCGATCG CTTCGACATC AAAGCGGCAA ATGCCAACAT TAACAGTTAA 

Retrieve as FASTA