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NCBI: 26-AUG-2013

Summary[edit source | edit]

  • organism: Staphylococcus aureus N315
  • locus tag: SA1964 [new locus tag: SA_RS11270 ]
  • pan locus tag?: SAUPAN005501000
  • symbol: fmtB
  • pan gene symbol?: fmtB
  • synonym:
  • product: FmtB protein

Genome View[edit source | edit]

Gene[edit source | edit]

General[edit source | edit]

  • type: CDS
  • locus tag: SA1964 [new locus tag: SA_RS11270 ]
  • symbol: fmtB
  • product: FmtB protein
  • replicon: chromosome
  • strand: -
  • coordinates: 2218145..2225590
  • length: 7446
  • essential: no DEG other strains

Accession numbers[edit source | edit]

Phenotype[edit source | edit]

  • Share your knowledge and add information here. [edit]

DNA sequence[edit source | edit]

  • 1
    61
    121
    181
    241
    301
    361
    421
    481
    541
    601
    661
    721
    781
    841
    901
    961
    1021
    1081
    1141
    1201
    1261
    1321
    1381
    1441
    1501
    1561
    1621
    1681
    1741
    1801
    1861
    1921
    1981
    2041
    2101
    2161
    2221
    2281
    2341
    2401
    2461
    2521
    2581
    2641
    2701
    2761
    2821
    2881
    2941
    3001
    3061
    3121
    3181
    3241
    3301
    3361
    3421
    3481
    3541
    3601
    3661
    3721
    3781
    3841
    3901
    3961
    4021
    4081
    4141
    4201
    4261
    4321
    4381
    4441
    4501
    4561
    4621
    4681
    4741
    4801
    4861
    4921
    4981
    5041
    5101
    5161
    5221
    5281
    5341
    5401
    5461
    5521
    5581
    5641
    5701
    5761
    5821
    5881
    5941
    6001
    6061
    6121
    6181
    6241
    6301
    6361
    6421
    6481
    6541
    6601
    6661
    6721
    6781
    6841
    6901
    6961
    7021
    7081
    7141
    7201
    7261
    7321
    7381
    7441
    ATGAATTTATTCAGACAACAAAAATTTAGTATCAGAAAATTTAATGTCGGTATTTTTTCA
    GCTTTAATTGCCACTGTTACTTTTATATCTACTAACCCGACAACAGCGTCTGCAGCAGAG
    CAAAATCAGCCTGCACAAAATCAACCAGCACAACCAGCTGATGCCAATACACAGCCTAAC
    GCAAATGCTGGTGCTCAAGCTAATCCTGCAGCACAGCCAGCAAACCAAGGTGGACAGGCT
    AATCCAGCAGGAGGAGCAGCACAACCAGCTGGACAAGGTAATCAAGCTGATCCGAATAAC
    GCTGCACAAGCACAACCTGGAAATCAAGCAGCACCGGCAAACCAAGCAGGTCAAGGAAAT
    AACCAAGCAACACCTAATAATAATGCAACACCGGCAAATCAAACACAGCCAGCGAATGCT
    CCAGCAGCAGCGCAACCAGCAGCACCTGTAGCAGCAAACGCACAAACTCAAGATCCAAAT
    GCTAGCAATACTGGTGAAGGCAGTATTAATACGACATTAACATTTGATGATCCTGCCATA
    TCAACAGATGAGAATAGACAGGATCCAACTGTAACTGTTACAGATAAAGTAAATGGTTAT
    TCATTAATTAACAACGGTAAGATTGGTTTCGTTAACTCAGAATTAAGACGAAGCGATATG
    TTTGATAAGAATAACCCTCAAAACTATCAAGCTAAAGGAAACGTGGCTGCATTAGGTCGT
    GTGAATGCAAATGATTCTACAGATCATGGTAACTTTAACGGTATTACAAAAACTGTAAAT
    GTAAAACCAGATTCAGAATTAATTATTAACTTTACTACTATGCAAACGAATAGTAAGCAA
    GGTGCAACAAATTTAGTTATTAAAGATGCTAAGAAAAATACTGAATTAGCAACTGTAAAT
    GTTGCTAAGACTGGTACTGCACATTTATTTAAAGTACCAACTGATGCTGATCGTTTAGAT
    TTACAATTTATTCCTGACAATACAGCAGTTGCTGATGCTTCAAGAATTACAACAAATAAA
    GATGGTTATAAATACTATTCATTCATTGATAATGTAGGTCTATTCTCAGGATCACATTTA
    TATGTCAAAAATAGAGATTTAGCACCGAAAGCAACTAACAATAAAGAATATACTATTAAT
    ACTGAAATCGGTAACAATGGTAATTTTGGTGCTTCATTAAAAGCAGATCAATTTAAATAT
    GAAGTAACATTACCACAAGGTGTAACTTACGTTAATGATTCATTAACTACAACATTCCCT
    AATGGTAATGAAGACAGTACAGTATTGAAAAATATGACTGTTAATTATGATCAAACTGCA
    AATAAAGTTACATTTACAAGCCAAGGTGTGACAACGGCACGTGGTACACACACTAAAGAA
    GTTTTATTCCCAGATAAATCTTTAAAATTATCATATAAAGTTAATGTTGCGAATATCGAT
    ACACCTAAAAATATTGATTTTAATGAAAAATTAACATATCGTACTGCTTCAGATGTTGTA
    ATTAATAATGCGCAACCAGAAGTTACACTAACTGCAGATCCATTTTCAGTAGCGGTTGAA
    ATGAACAAAGATGCGTTGCAACAACAAGTAAACTCACAAGTTGATAATAGTCATTACACA
    ACAGCATCAATTGCAGAATACAATAAACTTAAACAACAAGCAGACACTATTTTAAATGAA
    GATGCGAATCACGTTGAAACTGCAAATCGTGCATCTCAAGCGGATATTGACGGTTTAGTA
    ACTAAATTACAAGCTGCATTAATTGATAATCAAGCAGCAATTGCTGAATTAGATACTAAA
    GCTCAAGAAAAGGTTACAGCAGCACAACAAAGTAAAAAAGTTACGCAAGATGAAGTTGCA
    GCGCTTGTGACTAAAATTAACAATGATAAAAATAATGCAATCGCAGAAATTAATAAACAA
    ACAACATCACAAGGTGTCACAACTGAAAAAGATAATGGTATCGCAGTGTTAGAACAAGAT
    GTGATTACACCAACAGTTAAACCTCAAGCGAAACAAGATATTATCCAAGCAGTTACAACT
    CGTAAACAACAAATTAAAAAGTCAAATGCATCATTACAAGATGAAAAAGATGTAGCAAAT
    GATAAAATTGGTAAAATTGAAACAAAGGCAATTAAAGATATTGATGCAGCAACAACAAAT
    GCACAAGTAGAAGCCATTAAAACAAAAGCAATCAATGATATTAATCAAACTACACCTGCT
    ACAACAGCTAAAGCAGCAGCTCTTGAAGAATTTGACGAAGTTGTTCAAGCACAAATTGAT
    CAAGCACCTTTAAATCCTGATACAACAAATGAAGAAGTAGCGGAAGCTATTGAACGTATT
    AATGCAGCTAAAGTTTCTGGTGTTAAAGCAATTGAAGCGACAACGACTGCACAAGATTTA
    GAACGCGTTAAAAACGAAGAAATATTCAAAATTGAGAATATTACGGATTCAACTCAAACT
    AAAATGGATGCTTATAAAGAAGTTAGACAAGCAGCTACAGCTAGAAAAGCGCAAAATGCT
    ACAGTTTCAAATGCAACTGATGAAGAAGTAGCAGAGGCAAATGCAGCAGTAGATGCAGCT
    CAAACAGAAGGTTTACATGACATCCAAGTTGTTAAATCACAACAAGAAGTGGCTGATACT
    AAAGCAAAAGTATTAGATAAAATCAATGCAATTCAAACACAAGCAAAAGTTAAACCTGCA
    GCTGATACAGAAGTAGAAAACGCATATAATACACGTAAACAAGAAATCCAAAATAGCAAT
    GCTTCAACTACAGAAGAAAAAGAAGCTGCATATACAGAATTAGATGCTAAAAAGCAAGAA
    GCAAGAACAAATCTTGATGCTGCAAATACAAACAGTGATGTAACAACAGCTAAAGACAAT
    GGTATTGCTGCAATTAATCAAGTGCAAGCTGCCACAACTAAGAAATCGGATGCTAAAGCG
    GAAATCGCTCAAAAAGCAAGTGAACGTAAAACTGCAATTGAAGCAATGAATGATTCGACT
    ACTGAAGAACAACAAGCTGCAAAAGATAAAGTTGATCAAGCAGTAGTTACTGCAAACGCT
    GATATAGATAATGCTACAGCAAATACAGATGTAGATAATGCAAAAACTACTAATGAAGCT
    ACAATAGCTGCAATTACGCCAGATGCAAATGTTAAACCAGCAGCAAAACAAGCAATTGCA
    GATAAAGTACAAGCTCAAGAAACAGCAATTGATGCTAATAACGGTTCAACAACAGAAGAA
    AAAGAAGCTGCTAAACAACAAGTTCAAACTGAAAAAACGGCTGCTGATGCAGCAATAGAT
    GCAGCTCATTCAAATGTGGAAGTTGAAGCGGCTAAAAATGCAGAAATTGCTAAAATTGAA
    GCGATTCAGCCAGCAACAACAACTAAAGATAATGCGAAACAAGCAATTGCTACGAAAGCG
    AATGAACGTAAAACAGCAATCGCTCAAACGCAAGATATTACTGCTGAAGAAATTGCAGCG
    GCTAATGCGGACGTAGATAATGCTGTGACACAAGCAAATAGCAACATTGAAGCTGCTAAT
    AGTCAAAATGATGTAGACCAAGCGAAAACGACAGGTGAAACTAGTATTGATCAAGTAACA
    CCAACAGTTAATAAAAAAGCAACTGCACGTAATGAAATCACAGCAATTTTAAATAACAAA
    TTGCAAGAGATTCAAGCTACACCAGATGCAACAGATGAAGAAAAACAAGCAGCTGATGCA
    GAAGCAAATACTGAAAATGGTAAAGCAAATCAAGCCATTTCAGCAGCAACTACTAACGCA
    CAAGTTGATGAAGCGAAAGCTAATGCAGAAGCAGCAATTAATGCGGTAACACCAAAAGTT
    GTTAAGAAACAAGCGGCTAAAGATGAGATTGATCAATTACAAGCAACGCAAACAAATGTT
    ATCAATAATGATCAGAACGCTACAAATGAAGAAAAAGAAGCAGCTATTCAACAATTAGCA
    ACAGCAGTTACAGACGCGAAAAATAATATTACAGCTGCAACTGATGATAATGGTGTAGAT
    ACAGCGAAAGACGCTGGAAAGAATTCAATTCAAAGCACACAACCAGCAACAGCAGTTAAA
    TCGAATGCGAAAAATGAAGTTGATCAAGCTGTGACAACTCAAAATCAAGCAATTGATAAT
    ACAACTGGCGCTACAACTGAAGAGAAAAATGCAGCAAAAGATTTAGTTTTAAAAGCTAAA
    GAAAAAGCGTATCAAGATATCTTAAATGCACAAACAACTAATGATGTTACGCAAATTAAA
    GATCAAGCAGTTGCTGATATTCAAGGTATTACTGCAGATACAACAATTAAAGATGTTGCG
    AAAGATGAATTAGCAACAAAAGCAAACGAACAAAAAGCGCTTATTGCACAAACTGCAGAT
    GCGACTACTGAAGAAAAAGAACAAGCAAATCAACAAGTAGACGCACAATTAACACAAGGT
    AATCAAAATATTGAAAATGCACAGTCAATCGATGATGTAAACACTGCAAAAGATAATGCA
    ATTCAAGCAATTGACCCAATTCAAGCATCAACAGATGTTAAAACGAATGCAAGAGCAGAA
    TTGCTAACTGAAATGCAAAATAAAATAACTGAAATACTTAATAATAATGAGACTACTAAT
    GAAGAAAAAGGTAACGATATTGGACCAGTTAGAGCAGCATATGAAGAAGGTTTAAATAAT
    ATTAATGCAGCAACTACTACAGGTGATGTAACTACTGCTAAAGATACAGCAGTACAAAAA
    GTTCAACAACTTCATGCAAATCCTGTTAAGAAACCAGCAGGTAAAAAAGAATTAGATCAA
    GCTGCAGCTGATAAGAAAACACAAATAGAACAAACACCAAATGCATCACAACAAGAAATT
    AATGATGCAAAACAAGAAGTTGATACTGAATTAAATCAAGCGAAAACAAATGTCGATCAA
    TCATCAACAAATGAATATGTTGATAATGCAGTTAAAGAAGGAAAAGCTAAAATTAATGCA
    GTTAAAACATTTAGTGAGTACAAAAAAGATGCTTTAGCTAAAATTGAAGATGCATATAAT
    GCTAAAGTAAACGAAGCGGATAACTCTAACGCATCGACTTCAAGTGAAATTGCTGAAGCG
    AAACAAAAACTTGCTGAATTAAAACAAACTGCGGATCAAAATGTTAATCAAGCTACTTCT
    AAAGATGACATTGAAGTTCAAATTCATAATGACTTAGATAATATTAACGATTACACAATT
    CCAACAGGTAAAAAAGAATCAGCTACAACAGATTTATATGCTTATGCAGATCAGAAGAAA
    AATAATATTTCAGCTGACACTAATGCAACACAAGATGAAAAGCAACAAGCAATTAAGCAA
    GTTGACCAAAATGTTCAAACTGCATTAGAAAACATTAATAATGGTGTGGATAATGGTGAC
    GTTGATGATGCATTAACACAAGGTAAAGCAGCAATTGATACTATTCAAGTAGATGCTACT
    GTTAAACCTAAAGCGAACCAAGCTATTGAAGCTAAAGCAGAAGATACGAAAGAATCAATT
    GATCATAGTGACCAGTTAACTGCTGAAGAAAAAACTGAAGCATTAGCAATGATTAAACAA
    ATTACAGATCAAGCTAAACAAGGTATTACTGATGCAACAACAACTGCTGAAGTTGAAAAA
    GCGAAAGCTCAAGGACTTGAGGCATTTGATAACATTCAAATTGACTCAACAGAAAAACAA
    AAAGCTATCGAAGAATTAGAAACTGCACTAGACCAGATTGAAGCAGGTGTAAATGTCGAC
    GCTGATGCTACAACTGAAGAAAAAGAAGCGTTTACGAATGCTTTAGAAGACATTTTATCA
    AAAGCAACTGAAGATATTTCTGATCAAACTACAAATGCAGAAATCGCTACTGTCAAAAAT
    AGTGCGCTTGAACAACTTAAAGCACAACGTATTAATCCAGTAGTTAAGAAAAATGCTTTG
    GAAGCAATTAGAGAAGTGGTTAACAAGCAAATAGAAATAATTAAAAATGCAGATGCAGAT
    GCATCGGCGAAAGAAATTGCACGTACAGATTTAGGTAGATATTTTGACAGATTTGCTGAT
    AAATTAGATAAAACACAAACAAATACAGAGGTTGCTGAATTACAAAATGTAACGATACCT
    GCAATTGAAGCGATTGTGCCTCAGAATGATCCAGATGCTAATGATACTAATAATGGTACA
    GATAATAATGATGCAACAGCAAATTCAAATGCTAATGCAACACCAGAAAACACTGGACAA
    CCTAACGTATCTGAGACGACAGATAATGGCAAAGCAGACGCTTCTCCGACAACACCAAAT
    AATAGTGATGCGGCAACAGGTGAAACAACAGTAACATCAGCAACTGATGATGCAAAGGAT
    AAACCGCAAGCTAATAACAATTCTAGTGCAGATGCATCAACAAACAGTCCGACAATGGAT
    AACGATGTAACTAGTAAACCAGAAGTAGAATCAACTAATAACGGCACAACTGATAAACCT
    GTAACAGAAACAGATAATGCAACGCCAGCAGAAAGCACAACAAATAACAATAGTACAACT
    ACAGCAACAAACGAGAATGCACCAACAGGATCAACAGCAACGGCTCCAACAACTGCGAGC
    ACAGAAGCAGCATCATCTGCTGATAGTAAAGATAATGCATCTGTAAATGATTCAAAACAA
    AATGCTGAAGTAAATAATAGTGCTGAATCTCAATCAACTAATGGCAAGGTTGCACAACCA
    AAATCTGAAAATAAAGCTAAGGCAGAAAAAGATGGTAGAGATTCAACAAATCAAAGTATG
    GTTGAATCAACAACTGAAACATTGCCTTCAGCAGACATAACAGAACCAAATGTACCTTCT
    AATACATCAAAAGATAAAGAAGAAAGTACGACAAATCAAACTGATGCAGGACAACTTAAG
    TCTGAAACTAACGTTGCATCTAACGAAGCAGATAAATCGCCAAGCAAAGCTGATACTGAA
    GTTTCGAATAAACCATCAACATCTGCATCTTCTGAAGCAAAAGATAAAATGACTTCAACT
    AATGTTAGCCAAAAAGATGATACGGCAACAGCAGATACTAATGATACGCAAAAATCAGTT
    GGCCCAGTTGCAAACAATAAAGCTAAAGATATGCAAACTAATGATACGCAAAAATCAGTT
    GGTTCAGCTGCAAACAATAAAGCTACGCAAAACGACGGTGCCAATGCATCTCCAGCAACA
    GTTTCAAATGGTAGTCATAGTATGCATCAAGATATGCTTAATGTAACTAAGCCTGAAGAA
    AACAAAGCAAATGCAAAATCAGACCAACAAGGAAAAGTTAATAAGCCTAAACAACAAGCT
    AAAACTTTACCAGATACTGGTATGTCACATAATGACGATTTACCATATGCTGAATTAGCT
    CTAGGTGCAGGTATGGCATTCTTAATTAGAAGATTCACTAAGAAAGACCAACAAACTGAA
    GAATAA
    60
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    7446

Protein[edit source | edit]

General[edit source | edit]

  • locus tag: SA1964 [new locus tag: SA_RS11270 ]
  • symbol: FmtB
  • description: FmtB protein
  • length: 2481
  • theoretical pI: 4.32215
  • theoretical MW: 263765
  • GRAVY: -0.822048

Function[edit source | edit]

  • reaction:
  • TIGRFAM:
    SasC/Mrp/FmtB intercellular aggregation domain (TIGR04263; HMM-score: 399)
    gram-positive signal peptide, YSIRK family (TIGR01168; HMM-score: 41.6)
    Cell structureCell envelopeOtherLPXTG cell wall anchor domain (TIGR01167; HMM-score: 14.9)
  • TheSEED:  
    FmtB (Mrp) protein involved in methicillin resistance and cell wall biosynthesis 
  • PFAM:
    B_GA (CL0598) DUF1542; Domain of Unknown Function (DUF1542) (PF07564; HMM-score: 814.6)
    no clan definedYSIRK_signal; YSIRK type signal peptide (PF04650; HMM-score: 33)
    GRP; Glycine rich protein family (PF07172; HMM-score: 11.1)

Structure, modifications & interactions[edit source | edit]

  • domains:
  • modifications:
  • cofactors:
  • effectors:
  • protein partners:

Localization[edit source | edit]

  • PSORTb: Cellwall
    • Cytoplasmic Score: 0
    • Cytoplasmic Membrane Score: 0
    • Cellwall Score: 10
    • Extracellular Score: 0
    • Internal Helices: 0
  • LocateP: LPxTG Cell-wall anchored
    • Prediction by SwissProt Classification: Cell Wall
    • Pathway Prediction: Sec-(SPI)
    • Intracellular Possibility: -0.17
    • Signal Peptide Possibility: 1
    • N-terminally Anchored Score: -2
    • Predicted Cleavage Site: found LPxTG motif :LPDTG
  • SignalP: Signal peptide length 39 aa
    • Ymax: 0.852
    • Ymax_pos: 39
    • Cmax: 0.867
    • Cmax_pos: 39
    • Smax: 0.936
    • Smax_pos: 26
    • Smean: 0.842
    • D: 0.848
  • predicted transmembrane helices (TMHMM): 0

Accession numbers[edit source | edit]

  • GI: 15927741 NCBI
  • RefSeq: NP_375274 NCBI
  • UniProt:

Protein sequence[edit source | edit]

  • MNLFRQQKFSIRKFNVGIFSALIATVTFISTNPTTASAAEQNQPAQNQPAQPADANTQPNANAGAQANPAAQPANQGGQANPAGGAAQPAGQGNQADPNNAAQAQPGNQAAPANQAGQGNNQATPNNNATPANQTQPANAPAAAQPAAPVAANAQTQDPNASNTGEGSINTTLTFDDPAISTDENRQDPTVTVTDKVNGYSLINNGKIGFVNSELRRSDMFDKNNPQNYQAKGNVAALGRVNANDSTDHGNFNGITKTVNVKPDSELIINFTTMQTNSKQGATNLVIKDAKKNTELATVNVAKTGTAHLFKVPTDADRLDLQFIPDNTAVADASRITTNKDGYKYYSFIDNVGLFSGSHLYVKNRDLAPKATNNKEYTINTEIGNNGNFGASLKADQFKYEVTLPQGVTYVNDSLTTTFPNGNEDSTVLKNMTVNYDQTANKVTFTSQGVTTARGTHTKEVLFPDKSLKLSYKVNVANIDTPKNIDFNEKLTYRTASDVVINNAQPEVTLTADPFSVAVEMNKDALQQQVNSQVDNSHYTTASIAEYNKLKQQADTILNEDANHVETANRASQADIDGLVTKLQAALIDNQAAIAELDTKAQEKVTAAQQSKKVTQDEVAALVTKINNDKNNAIAEINKQTTSQGVTTEKDNGIAVLEQDVITPTVKPQAKQDIIQAVTTRKQQIKKSNASLQDEKDVANDKIGKIETKAIKDIDAATTNAQVEAIKTKAINDINQTTPATTAKAAALEEFDEVVQAQIDQAPLNPDTTNEEVAEAIERINAAKVSGVKAIEATTTAQDLERVKNEEIFKIENITDSTQTKMDAYKEVRQAATARKAQNATVSNATDEEVAEANAAVDAAQTEGLHDIQVVKSQQEVADTKAKVLDKINAIQTQAKVKPAADTEVENAYNTRKQEIQNSNASTTEEKEAAYTELDAKKQEARTNLDAANTNSDVTTAKDNGIAAINQVQAATTKKSDAKAEIAQKASERKTAIEAMNDSTTEEQQAAKDKVDQAVVTANADIDNATANTDVDNAKTTNEATIAAITPDANVKPAAKQAIADKVQAQETAIDANNGSTTEEKEAAKQQVQTEKTAADAAIDAAHSNVEVEAAKNAEIAKIEAIQPATTTKDNAKQAIATKANERKTAIAQTQDITAEEIAAANADVDNAVTQANSNIEAANSQNDVDQAKTTGETSIDQVTPTVNKKATARNEITAILNNKLQEIQATPDATDEEKQAADAEANTENGKANQAISAATTNAQVDEAKANAEAAINAVTPKVVKKQAAKDEIDQLQATQTNVINNDQNATNEEKEAAIQQLATAVTDAKNNITAATDDNGVDTAKDAGKNSIQSTQPATAVKSNAKNEVDQAVTTQNQAIDNTTGATTEEKNAAKDLVLKAKEKAYQDILNAQTTNDVTQIKDQAVADIQGITADTTIKDVAKDELATKANEQKALIAQTADATTEEKEQANQQVDAQLTQGNQNIENAQSIDDVNTAKDNAIQAIDPIQASTDVKTNARAELLTEMQNKITEILNNNETTNEEKGNDIGPVRAAYEEGLNNINAATTTGDVTTAKDTAVQKVQQLHANPVKKPAGKKELDQAAADKKTQIEQTPNASQQEINDAKQEVDTELNQAKTNVDQSSTNEYVDNAVKEGKAKINAVKTFSEYKKDALAKIEDAYNAKVNEADNSNASTSSEIAEAKQKLAELKQTADQNVNQATSKDDIEVQIHNDLDNINDYTIPTGKKESATTDLYAYADQKKNNISADTNATQDEKQQAIKQVDQNVQTALENINNGVDNGDVDDALTQGKAAIDTIQVDATVKPKANQAIEAKAEDTKESIDHSDQLTAEEKTEALAMIKQITDQAKQGITDATTTAEVEKAKAQGLEAFDNIQIDSTEKQKAIEELETALDQIEAGVNVDADATTEEKEAFTNALEDILSKATEDISDQTTNAEIATVKNSALEQLKAQRINPVVKKNALEAIREVVNKQIEIIKNADADASAKEIARTDLGRYFDRFADKLDKTQTNTEVAELQNVTIPAIEAIVPQNDPDANDTNNGTDNNDATANSNANATPENTGQPNVSETTDNGKADASPTTPNNSDAATGETTVTSATDDAKDKPQANNNSSADASTNSPTMDNDVTSKPEVESTNNGTTDKPVTETDNATPAESTTNNNSTTTATNENAPTGSTATAPTTASTEAASSADSKDNASVNDSKQNAEVNNSAESQSTNGKVAQPKSENKAKAEKDGRDSTNQSMVESTTETLPSADITEPNVPSNTSKDKEESTTNQTDAGQLKSETNVASNEADKSPSKADTEVSNKPSTSASSEAKDKMTSTNVSQKDDTATADTNDTQKSVGPVANNKAKDMQTNDTQKSVGSAANNKATQNDGANASPATVSNGSHSMHQDMLNVTKPEENKANAKSDQQGKVNKPKQQAKTLPDTGMSHNDDLPYAELALGAGMAFLIRRFTKKDQQTEE

Experimental data[edit source | edit]

  • experimentally validated: no data available

Expression & Regulation[edit source | edit]

Operon[edit source | edit]

Regulation[edit source | edit]

  • sigma factor:
  • regulator:

Transcription pattern[edit source | edit]

Protein synthesis (provided by Aureolib)[edit source | edit]

Protein stability[edit source | edit]

  • half-life: no data available

Biological Material[edit source | edit]

Mutants[edit source | edit]

Expression vector[edit source | edit]

lacZ fusion[edit source | edit]

GFP fusion[edit source | edit]

two-hybrid system[edit source | edit]

FLAG-tag construct[edit source | edit]

Antibody[edit source | edit]

Other Information[edit source | edit]

You are kindly invited to share additional interesting facts.

Literature[edit source | edit]

References[edit source | edit]

Relevant publications[edit source | edit]