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PangenomeCOLN315NCTC8325NewmanUSA300_FPR375704-0298108BA0217611819-97685071193ECT-R 2ED133ED98HO 5096 0412JH1JH9JKD6008JKD6159LGA251M013MRSA252MSHR1132MSSA476MW2Mu3Mu50RF122ST398T0131TCH60TW20USA300_TCH1516VC40

NCBI: 06-JUL-2013

Summary[edit | edit source]

  • organism: Staphylococcus aureus Newman
  • locus tag: NWMN_1344
  • pan locus tag?: SAUPAN003872000
  • symbol: ebh2
  • pan gene symbol?: ebh2
  • synonym:
  • product: cell wall associated fibronectin-binding protein

Genome View[edit | edit source]

Gene[edit | edit source]

General[edit | edit source]

  • type: CDS
  • locus tag: NWMN_1344
  • symbol: ebh2
  • product: cell wall associated fibronectin-binding protein
  • replicon: chromosome
  • strand: -
  • coordinates: 1476047..1486435
  • length: 10389
  • essential: unknown

Accession numbers[edit | edit source]

Phenotype[edit | edit source]

Share your knowledge and add information here. [edit]

DNA sequence[edit | edit source]

  • 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
    7501
    7561
    7621
    7681
    7741
    7801
    7861
    7921
    7981
    8041
    8101
    8161
    8221
    8281
    8341
    8401
    8461
    8521
    8581
    8641
    8701
    8761
    8821
    8881
    8941
    9001
    9061
    9121
    9181
    9241
    9301
    9361
    9421
    9481
    9541
    9601
    9661
    9721
    9781
    9841
    9901
    9961
    10021
    10081
    10141
    10201
    10261
    10321
    10381
    TTGGTACAACAATCGACTACTGTTGCAGAAGCACAAGGTAATGAGCAAAAAGCAAACAAT
    GTTGATGCAGCAATGGACAAATTACGTCAAAGTATTGCAGATAATGCGACAACAAAACAA
    AACCAAAATTATACTGATGCAAGTCAGAATAAAAAGGATGCGTACAATAATGCTGTCACA
    ACTGCACAAGGTATTATTGATCAAACTACAAGTCCAACTTTAGATCCGACTGTTATCAAT
    CAAGCTGCTGGACAAGTAAGCACAACTAAAAATGCATTAAATGGTAATGAAAACCTAGAG
    GCAGCGAAACAACAAGCGTCACAATCATTAGGTTCATTAGATAACTTAAATAATGCGCAA
    AAACAAACAGTTACTGATCAAATTAATGGCGCGCATACTGTTGATGAAGCAAATCAAATT
    AAGCAAAATGCGCAAAACTTAAATACAGCGATGGGTAACTTGAAACAAGCGATAGCTGAC
    AAAGATGCTACGAAAGCGACAGTTAACTTCACTGATGCAGATCAAGCAAAACAACAAGCA
    TATAACACTGCTGTTACAAATGCTGAAAATATCATTTCAAAAGCTAATGGCGGCAATGCA
    ACACAAGCTGAAGTTGAACAAGCAATCAAACAAGTTAATGCTGCAAAACAAGCATTAAAT
    GGTAATGCCAACGTTCAACATGCAAAAGACGAAGCAACAGCATTAATTAATAGCTCTAAT
    GACCTTAACCAAGCACAAAAAGACGCATTAAAACAACAAGTTCAAAATGCAACTACTGTA
    GCTGGTGTAAACAATGTTAAACAAACAGCACAAGAGTTAAACAATGCTATGACACAATTA
    AAACAAGGCATTGCAGATAAAGAACAAACAAAAGCTGATGGTAACTTTGTCAATGCAGAT
    CCTGATAAGCAAAATGCATATAATCAAGCAGTAGCGAAAGCTGAAGCATTAATTAGTGCT
    ACGCCTGATGTTGTCGTTACACCTAGCGAAATTACTGCAGCGTTAAATAAAGTTACGCAA
    GCTAAAAATGATTTAAATGGTAATACAAACTTAGCAACGGCGAAACAAAATGTTCAACAT
    GCTATTGATCAATTGCCAAACTTAAACCAAGCGCAACGTGATGAATACAGCAAACAAATC
    ACGCAAGCAACACTTGTACCAAACGTCAATGCTATTCAACAAGCGGCGACAACGCTTAAT
    GACGCGATGACACAATTGAAACAAGGTATTGCGAATAAAGCACAAATTAAAGGTAGCGAG
    AACTATCACGATGCTGATACTGACAAGCAAACAGCATATGATAATGCAGTAACAAAAGCA
    GAAGAATTGTTAAAACAAACAACAAATCCAACAATGGATCCAAATACAATTCAACAAGCA
    TTAACTAAAGTGAATGACACAAATCAAGCACTTAACGGTAATCAAAAATTAGCTGATGCC
    AAACAAGATGCTAAGACAACACTTGGTACACTAGATCATTTAAATGATGCTCAAAAACAA
    GCGCTAACAACTCAAGTTGAACAAGCACCAGATATTGCAACAGTTAATAATGTTAAGCAA
    AATGCTCAAAATCTGAATAATGCTATGACTAACTTAAACAATGCATTACAAGATAAAACT
    GAGACATTAAATAGCATTAACTTTACTGATGCAGATCAAGCTAAGAAAGATGCTTATACT
    AATGCGGTTTCACATGCAGAAGGTATTTTATCTAAAGCAAATGGCAGCAATGCAAGTCAA
    ACTGAAGTGGAACAAGCGATGCAACGTGTGAACGAAGCGAAACAAGCATTGAATGGTAAT
    GACAATGTACAACGTGCAAAAGATGCAGCGAAACAAGTGATTACAAATGCAAATGATTTA
    AATCAAGCGCAAAAAGATGCATTAAAACAACAAGTCGATGCTGCGCAAACTGTTGCAAAT
    GTAAACACGATTAAGCAAACAGCACAAGATTTAAATCAAGCAATGACACAATTGAAACAA
    GGTATTGCAGATAAAGACCAAACTAAAGCAAGTGGTAACTTTGTCAATGCTGATACTGAT
    AAGCAAAATGCTTACAACAATGCGGTAGCACATGCTGAACAAATAATTAGTGGTACACCA
    AATGCAAACGTGGATCCACAACAAGTGGCTCAAGCGTTACAACAAGTGAATCAAGCTAAG
    GGTGATTTAAACGGTAACCATAACTTACAAGTTGCTAAAGACAATGCAAATACAGCCATT
    GATCAGTTACCAAACTTAAATCAACCACAAAAAACAGCATTAAAAGACCAAGTGTCGCAT
    GCAGAACTTGTTACAGGTGTTAATGCTATTAAGCAAAATGCTGATGCGTTAAATAATGCA
    ATGGGTACATTGAAACAACAAATTCAAGCGAACAGTCAAGTACCACAGTCAGTTGACTTT
    ACACAAGCGGATCAAGACAAACAACAAGCATATAACAATGCGGCTAACCAAGCGCAACAA
    ATCGCAAATGGCATACCAACACCTGTATTGACGCCTGATACAGTAACACAAGCAGTGACA
    ACTATGAATCAAGCGAAAGATGCATTAAACGGTGATGAAAAATTAGCACAAGCGAAACAA
    GAAGCTTTAGCAAATCTTGATACGTTACGCGATTTAAATCAACCACAACGTGATGCATTA
    CGTAACCAAATCAATCAAGCACAAGCGTTAGCTACAGTTGAACAAACTAAACAAAATGCA
    CAAAATGTGAATACAGCAATGAGTAACTTGAAACAAGGTATTGCAAACAAAGATACTGTC
    AAAGCAAGTGAGAACTATCATGATGCTGATGCCGATAAGCAAACAGCATATACAAATGCA
    GTGTCTCAAGCGGAAGGTATTATCAATCAAACGACAAATCCAACGCTTAACCCAGATGAA
    ATAACACGTGCATTAACTCAAGTGACTGATGCTAAAAATGGCTTAAACGGTGAAGCTAAA
    TTGGCAACTGAAAAGCAAAATGCTAAAGATGCCGTAAGTGGGATGACGCATTTAAACGAT
    GCTCAAAAACAAGCATTAAAAGGTCAAATCGATCAATCGCCTGAAATTGCTACAGTGAAC
    CAAGTTAAACAAACAGCAACGAGCCTAGATCAAGCAATGGATCAATTATCACAAGCTATT
    AATGATAAAGCTCAAACATTAGCGGACGGTAATTACTTAAATGCAGATCCTGACAAACAA
    AATGCGTATAAACAGGCAGTAGCAAAAGCTGAAGCATTATTGAATAAACAAAGTGGTACT
    AATGAAGTACAAGCACAAGTTGAAAGCATCACTAATGAAGTGAACGCAGCGAAACAAGCA
    TTAAATGGTAATGACAATTTGGCAAATGCAAAACAACAAGCAAAACAACAATTGGCGAAC
    TTAACACACTTAAATGATGCACAAAAACAATCATTTGAAAGTCAAATTACACAAGCGCCA
    CTTGTTACAGATGTCACTACGATTAATCAAAAAGCACAAACGTTAGATCATGCGATGGAA
    TTATTAAGAAATAGTGTTGCGGATAATCAAACGACATTAGCGTCTGAAGATTATCATGAT
    GCAACTGCGCAAAGACAAAATGACTATAACCAAGCTGTAACAGCTGCTAATAATATCATT
    AATCAAACTACATCGCCTACGATGAATCCAGATGATGTTAATGGTGCAACGACACAAGTG
    AATAATACGAAAGTTGCATTAGATGGTGATGAAAACCTTGCAGCAGCTAAACAACAAGCA
    AACAACAGACTTGATCAATTAGATCATTTGAATAATGCGCAAAAGCAACAGTTACAATCA
    CAAATTACGCAATCATCTGATATTGCTGCAGTTAATGGTCACAAACAAACAGCAGAATCT
    TTAAATACTGCGATGGGTAACTTAATTAATGCGATTGCAGATCATCAAGCCGTTGAACAA
    CGTGGTAACTTCATCAATGCTGATACTGATAAACAAACTGCTTATAATACAGCGGTAAAT
    GAAGCAGCAGCAATGATTAACAAACAAACTGGTCAAAATGCGAACCAAACAGAAGTAGAA
    CAAGCTATTACTAAAGTTCAAACAACACTTCAAGCGTTAAATGGAGACCATAATTTACAA
    GTTGCTAAAACAAATGCGACGCAAGCAATTGATGCTTTAACAAGCTTAAATGATCCTCAA
    AAAACAGCATTAAAAGACCAAGTTACAGCTGCAACTTTAGTAACTGCAGTTCATCAAATT
    GAACAAAATGCGAATACGCTTAACCAAGCAATGCATGGTTTAAGACAGAGCATTCAAGAT
    AACGCAGCAACTAAAGCAAATAGCAAATATATCAACGAAGATCAACCAGAGCAACAAAAC
    TATGATCAAGCTGTTCAAGCCGCAAATAATATTATCAATGAACAAACTGCAACATTAGAT
    AATAATGCGATTAATCAAGCAGCGACAACTGTGAATACAACGAAAGCAGCATTACATGGT
    GATGTGAAGTTACAAAATGATAAAGATCATGCTAAGCAAACGGTTAGTCAATTAGCACAT
    CTAAACAATGCACAAAAACATATGGAAGATACGTTAATTGATAGTGAAACAACTAGAACA
    GCAGTTAAGCAAGATTTGACTGAAGCACAAGCATTAGATCAACTTATGGATGCATTACAA
    CAAAGTATTGCTGACAAAGATGCAACACGTGCGAGCAGTGCATATGTCAATGCAGAACCG
    AATAAAAAACAATCCTATGATGAAGCAGTTCAAAATGCTGAGTCTATCATTGCAGGATTA
    AATAATCCAACTATCAATAAAGGTAATGTATCAAGTGCGACTCAAGCAGTAATATCATCT
    AAAAATGCATTAGATGGTGTTGAACGATTAGCTCAAGATAAGCAAACTGCTGGAAATTCT
    CTAAATCATTTAGATCAATTAACACCAGCTCAACAACAAGCGCTAGAAAATCAAATTAAT
    AATGCAACAACTCGTGGCGAAGTAGCACAAAAATTAACTGAAGCACAAGCACTTAACCAA
    GCAATGGAAGCTTTACGTAATAGCATTCAAGATCAACAGCAAACGGAAGCGGGTAGCAAG
    TTTATCAATGAAGATAAACCACAAAAAGATGCTTACCAAGCAGCAGTTCAAAATGCAAAA
    GATTTAATTAATCAAACTAACAATCCAACGCTTGATAAAGCACAAGTTGAACAATTGACA
    CAAGCTGTTAACCAAGCTAAAGATAACCTACACGGTGATCAAAAACTTGCAGACGATAAA
    CAACATGCGGTTACTGATTTAAATCAATTAAATGGTTTGAATAATCCGCAACGTCAAGCA
    CTTGAAAGCCAAATAAACAACGCAGCAACTCGTGGCGAAGTAGCACAAAAATTAGCTGAA
    GCAAAAGCGCTTGATCAAGCAATGCAAGCATTACGTAATAGTATTCAAGATCAACAACAA
    ACAGAATCTGGTAGCAAGTTTATCAATGAAGATAAACCGCAAAAAGATGCTTACCAAGCA
    GCAGTTCAAAATGCAAAAGATTTAATTAACCAAACAGGTAATCCAACACTCGACAAATCA
    CAAGTAGAACAATTGACACAAGCAGTAACAACTGCAAAAGATAATCTACATGGTGATCAA
    AAACTTGCTCGTGATCAACAACAAGCAGTAACAACTGTAAATGCATTGCCAAACTTAAAT
    CATGCACAACAACAAGCATTAACTGATGCTATAAATGCAGCGCCTACAAGAACAGAGGTT
    GCACAACATGTTCAAACTGCTACTGAACTTGATCACGCGATGGAAACATTGAAAAATAAA
    GTTGATCAAGTGAATACAGATAAGGCTCAACCAAATTACACTGAAGCGTCAACTGATAAA
    AAAGAAGCAGTAGATCAAGCGTTACAAGCTGCAGAAAGCATTACAGATCCAACTAATGGT
    TCAAATGCGAATAAAGACGCTGTAGACCAAGTATTAACTAAGCTTCAAGAAAAAGAAAAT
    GAGTTAAATGGTAATGAGAGAGTCGCTGAAGCTAAAACACAAGCGAAACAAACTATTGAC
    CAATTAACACATTTAAATGCTGATCAAATTGCAACTGCTAAACAAAACATTGATCAAGCG
    ACGAAACTTCAACCAATTGCTGAATTAGTAGATCAAGCAACGCAATTGAATCAATCTATG
    GATCAATTACAACAAGCAGTTAATGAACATGCTAACGTTGAGCAAACTGTAGATTACACA
    CAAGCAGATTCAGATAAACAAAATGCTTATAAACAAGCTATTGCTGATGCTGAAAATGTA
    TTGAAACAAAATGCGAATAAGCAACAAGTGGATCAAGCACTTCAAAATATTTTAAATGCA
    AAACAAGCATTAAATGGTGATGAACGTGTAGCACTTGCTAAAACAAATGGTAAACATGAC
    ATCGACCAATTGAATGCATTAAACAATGCTCAACAAGATGGATTTAAAGGTCGCATCGAT
    CAATCAAACGATTTAAATCAAATCCAACAAATTGTAGATGAGGCTAAGGCACTTAATCGT
    GCAATGGATCAATTGTCACAAGAAATCACTGACAATGAAGGACGCACGAAAGGTAGCACG
    AACTATGTCAATGCAGATACACAAGTCAAACAAGTATATGATGAAACGGTTGATAAAGCG
    AAACAAGCACTTGATAAATCGACTGGTCAAAACTTAACTGCAAAACAAGTTATCAAATTA
    AATGATGCAGTCACTGCAGCTAAGAAAGCATTAAATGGTGAAGAAAGACTTAATAATCGT
    AAAGCTGAAGCATTACAAAGATTGGATCAATTAACACATCTAAACAATGCTCAAAGACAA
    TTAGCAATCCAACAAATTAATAATGCTGAAACGCTAAATAAAGCATCTCGAGCAATTAAT
    AGAGCAACTAAATTAGATAATGCAATGGGTGCAGTACAACAATATATTGACGAACAGCAC
    CTTGGTGTTATCAGCAGCACAAATTACATCAATGCAGATGACAATTTGAAAGCAAATTAT
    GATAATGCAATTGCGAATGCAGCACATGAGTTAGATAAAGTGCAAGGTAATGCAATTGCA
    AAAGCTGAAGCAGAGCAATTGAAACAAAATATTATCGATGCTCAAAATGCATTAAATGGA
    GACCAAAACCTTGCAAATGCCAAAGATAAAGCAAATGCGTTTGTTAATTCGTTAAATGGA
    TTAAATCAACAGCAACAAGATCTTGCACATAAAGCAATTAACAATGCCGATACTGTATCA
    GATGTAACAGATATTGTTAATAATCAAATTGACTTAAATGATGCAATGGAAACATTGAAA
    CATTTAGTTGACAATGAAATTCCAAATGCAGAGCAAACTGTCAATTACCAAAACGCTGAC
    GATAATGCTAAAACAAACTTCGATGATGCCAAACGTCTAGCAAATACATTGCTAAATAGT
    GATAACACAAATGTGAATGATATCAATGGCGCAATCCAAGCAGTCAATGATGCAATCCAT
    AATCTTAATGGTGATCAACGACTACAAGATGCTAAAGACAAGGCAATTCAATCTATTAAT
    CAAGCTTTAGCTAATAAGCTAAAAGAAATCGAAGCTTCAAATGCGACGGATCAAGACAAG
    CTTATTGCGAAAAATAAAGCAGAAGAATTGGCAAACAGCATCATCAACAACATTAATAAA
    GCAACAAGTAATCAGGCTGTATCTCAAGTTCAAACAGCAGGCAACCACGCGATTGAACAA
    GTGCATGCCAATGAAATACCAAAAGCAAAAATTGATGCCAATAAAGACGTTGATAAGCAA
    GTTCAAGCATTAATTGACGAAATTGATCGAAATCCAAATCTAACAGATAAGGAAAAACAA
    GCACTTAAAGATCGTATTAATCAAATACTTCAACAAGGTCATAACGGCATTAACAATGCG
    ATGACTAAAGAAGAAATTGAACAAGCCAAAGCACAACTTGCGCAAGCATTACAAGACATC
    AAAGATTTAGTGAAAGCTAAAGAAGATGCGAAACAAGATGTTGATAAACAAGTTCAAGCT
    TTAATTGACGAAATCGATCAAAATCCAAATCTAACAGATAAGGAAAAACAAGCACTTAAA
    GATCGTATTAATCAAATACTTCAACAAGGTCATAACGACATTAACAATGCGATGACAAAA
    GAAGCAATTGAACAAGCAAAAGAACGTTTAGCGCAAGCATTGCAAGACATCAAAGATTTA
    GTGAAAGCTAAAGAAGATGCGAAAAATGATATTGATAAACGTGTACAAGCTTTAATTGAC
    GAAATCGATCAAAATCCAAATCTAACAGATAAGGAAAAACAAGCACTTAAAGATCGAATT
    AATCAAATACTTCAACAAGGTCATAACGACATTAACAATGCGCTGACTAAAGAAGAAATT
    GAGCAGGCAAAAGCACAACTTGCACAAGCATTGCAAGACATCAAAGATTTAGTGAAAGCT
    AAAGAAGATGCGAAAAATGCAATAAAAGCCTTAGCTAATGCGAAGCGTGATCAAATCAAT
    TCAAATCCAGATTTAACACCTGAGCAAAAAGCAAAAGCGCTCAAAGAAATTGACGAAGCT
    GAAAAACGAGCACTACAAAACGTTGAGAATGCTCAAACTATAGATCAATTAAATCGAGGA
    TTAAACTTAGGTTTAGATGACATTAGAAATACACATGTATGGGAGGTTGATGAACAACCT
    GCTGTAAATGAAATTTTTGAAGCAACACCTGAGCAAATCCTAGTTAATGGTGAACTCATT
    GTACATCGTGATGACATCATTACAGAACAAGATATTCTTGCACACATAAACTTAATTGAT
    CAGCTTTCAGCAGAAGTCATCGATACACCATCAACTGCAACGATTTCTGATAGCTTAACA
    GCAAAAGTTGAAGTTACATTGCTTGATGGATCAAAAGTGATTGTTAATGTTCCTGTAAAA
    GTTGTAGAAAAAGAATTGTCAGTAGTCAAACAACAGGCAATTGAATCAATCGAAAATGCG
    GCACAACAAAAGATTAATGAAATCAATAATAGTGTGACATTAACACTGGAACAAAAAGAA
    GCTGCAATTGCAGAAGTTAATAAGCTTAAACAACAAGCAATTGATCATGTTAACAATGCA
    CCTGATGTTCATTCAGTTGAAGAAATTCAACAACAAGAACAAGCGCATATTGAACAATTT
    AATCCAGAACAATTTACGATTGAACAAGCAAAATCAAATGCAATTAAATCGATTGAAGAT
    GCAATTCAACATATGATTGATGAAATCAAAGCTCGTACTGATCTAACAGATAAAGAGAAG
    CAAGAAGCTATTGCTAAGTTAAATCAATTAAAAGAACAAGCAATTCAAGCGATTCAACGT
    GCGCAAAGCATCGATGAAATAAGTGAGCAATTGGAACAATTTAAAGCTCAAATGAAAGCA
    GCTAATCCAACAGCAAAAGAACTAGCTAAACGCAAGCAAGAAGCTATTAGTAGAATTAAA
    GACTTTTCAAATGAAAAAATAAATAGTATTCGAAATAGTGAAATTGGCACAGCTGATGAA
    AAACAAGCAGCAATGAATCAAATTAACGAAATTGTGCTTGAAACAATTAGAGATATTAAT
    AATGCGCATACATTACAGCAAGTTGAGGCTGCATTGAACAATGGTATTGCTCGAATTTCA
    GCAGTACAAATTGTAACATCTGATCGTGCTAAACAATCGTCAAGTACTGGAAATGAATCT
    AATAGCCATTTAACAATTGGTTATGGAACTGCAAATCATCCATTTAACAGTTCGACTATT
    GGACATAAAAAGAAACTTGATGAAGATGATGACATTGATCCACTTCATATGCGTCACTTT
    AGTAATAATTTCGGTAATGTTATTAAAAACGCTATTGGTGTGGTGGGTATCTCTGGTTTA
    CTAGCTAGTTTCTGGTTCTTCATTGCCAAACGTCGTCGTAAAGAAGATGAAGAGGAAGAA
    TTAGAAATAAGAGATAATAATAAAGATTCAATAAAAGAGACTTTAGACGATACAAAACAT
    TTACCACTTTTATTTGCGAAACGTCGCAGAAAAGAAGATGAAGAAGATGTTACTGTTGAA
    GAAAAAGATTCGCTAAATAATGGCGAGTCACTCGATAAAGTTAAACATACGCCGTTCTTC
    TTACCAAAACGTCGTCGTAAAGAAGATGAAGAAGATGTGGAAGTTACAAATGAAAACACA
    GATGAAAAAGTGTTGAAAGATAACGAACATTCACCACTCTTATTCGCAAAACGACGCAAA
    GATAAAGAGGAAGATGTTGAAACAACAACTAGTATTGAATCTAAAGATGAGGACGTTCCT
    TTATTATTGGCTAAAAAGAAAAATCAAAAAGATAACCAATCCAAAGACAAAAAGTCAGCA
    TCAAAAAATACTTCTAAAAAGGTAGCAGCTAAAAAGAAGAAAAAGAAAGCTAAGAAAAAT
    AAAAAATAA
    60
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    10389

Protein[edit | edit source]

General[edit | edit source]

  • locus tag: NWMN_1344
  • symbol: Ebh2
  • description: cell wall associated fibronectin-binding protein
  • length: 3462
  • theoretical pI: 4.80041
  • theoretical MW: 378163
  • GRAVY: -0.838619

Function[edit | edit source]

  • TIGRFAM:
  • TheSEED:
  • PFAM:
    B_GA (CL0598) GA; GA module (PF01468; HMM-score: 926.9)
    FIVAR; FIVAR domain (PF07554; HMM-score: 746.7)
    and 1 more
    DUF1542; Domain of Unknown Function (DUF1542) (PF07564; HMM-score: 317.4)

Structure, modifications & cofactors[edit | edit source]

  • domains:
  • modifications:
  • cofactors:
  • effectors:

Localization[edit | edit source]

  • PSORTb: Cellwall
    • Cytoplasmic Score: 0
    • Cytoplasmic Membrane Score: 0
    • Cellwall Score: 9.39
    • Extracellular Score: 0.61
    • Internal Helix: 1
  • LocateP: Intracellular /TMH start AFTER 60
    • Prediction by SwissProt Classification: Cytoplasmic
    • Pathway Prediction: Possibly Sec-
    • Intracellular possibility: 0.17
    • Signal peptide possibility: -1
    • N-terminally Anchored Score: -1
    • Predicted Cleavage Site: No CleavageSite
  • SignalP: no predicted signal peptide
    • SP(Sec/SPI): 0.04651
    • TAT(Tat/SPI): 0.005185
    • LIPO(Sec/SPII): 0.011001
  • predicted transmembrane helices (TMHMM): 1

Accession numbers[edit | edit source]

Protein sequence[edit | edit source]

  • MVQQSTTVAEAQGNEQKANNVDAAMDKLRQSIADNATTKQNQNYTDASQNKKDAYNNAVTTAQGIIDQTTSPTLDPTVINQAAGQVSTTKNALNGNENLEAAKQQASQSLGSLDNLNNAQKQTVTDQINGAHTVDEANQIKQNAQNLNTAMGNLKQAIADKDATKATVNFTDADQAKQQAYNTAVTNAENIISKANGGNATQAEVEQAIKQVNAAKQALNGNANVQHAKDEATALINSSNDLNQAQKDALKQQVQNATTVAGVNNVKQTAQELNNAMTQLKQGIADKEQTKADGNFVNADPDKQNAYNQAVAKAEALISATPDVVVTPSEITAALNKVTQAKNDLNGNTNLATAKQNVQHAIDQLPNLNQAQRDEYSKQITQATLVPNVNAIQQAATTLNDAMTQLKQGIANKAQIKGSENYHDADTDKQTAYDNAVTKAEELLKQTTNPTMDPNTIQQALTKVNDTNQALNGNQKLADAKQDAKTTLGTLDHLNDAQKQALTTQVEQAPDIATVNNVKQNAQNLNNAMTNLNNALQDKTETLNSINFTDADQAKKDAYTNAVSHAEGILSKANGSNASQTEVEQAMQRVNEAKQALNGNDNVQRAKDAAKQVITNANDLNQAQKDALKQQVDAAQTVANVNTIKQTAQDLNQAMTQLKQGIADKDQTKASGNFVNADTDKQNAYNNAVAHAEQIISGTPNANVDPQQVAQALQQVNQAKGDLNGNHNLQVAKDNANTAIDQLPNLNQPQKTALKDQVSHAELVTGVNAIKQNADALNNAMGTLKQQIQANSQVPQSVDFTQADQDKQQAYNNAANQAQQIANGIPTPVLTPDTVTQAVTTMNQAKDALNGDEKLAQAKQEALANLDTLRDLNQPQRDALRNQINQAQALATVEQTKQNAQNVNTAMSNLKQGIANKDTVKASENYHDADADKQTAYTNAVSQAEGIINQTTNPTLNPDEITRALTQVTDAKNGLNGEAKLATEKQNAKDAVSGMTHLNDAQKQALKGQIDQSPEIATVNQVKQTATSLDQAMDQLSQAINDKAQTLADGNYLNADPDKQNAYKQAVAKAEALLNKQSGTNEVQAQVESITNEVNAAKQALNGNDNLANAKQQAKQQLANLTHLNDAQKQSFESQITQAPLVTDVTTINQKAQTLDHAMELLRNSVADNQTTLASEDYHDATAQRQNDYNQAVTAANNIINQTTSPTMNPDDVNGATTQVNNTKVALDGDENLAAAKQQANNRLDQLDHLNNAQKQQLQSQITQSSDIAAVNGHKQTAESLNTAMGNLINAIADHQAVEQRGNFINADTDKQTAYNTAVNEAAAMINKQTGQNANQTEVEQAITKVQTTLQALNGDHNLQVAKTNATQAIDALTSLNDPQKTALKDQVTAATLVTAVHQIEQNANTLNQAMHGLRQSIQDNAATKANSKYINEDQPEQQNYDQAVQAANNIINEQTATLDNNAINQAATTVNTTKAALHGDVKLQNDKDHAKQTVSQLAHLNNAQKHMEDTLIDSETTRTAVKQDLTEAQALDQLMDALQQSIADKDATRASSAYVNAEPNKKQSYDEAVQNAESIIAGLNNPTINKGNVSSATQAVISSKNALDGVERLAQDKQTAGNSLNHLDQLTPAQQQALENQINNATTRGEVAQKLTEAQALNQAMEALRNSIQDQQQTEAGSKFINEDKPQKDAYQAAVQNAKDLINQTNNPTLDKAQVEQLTQAVNQAKDNLHGDQKLADDKQHAVTDLNQLNGLNNPQRQALESQINNAATRGEVAQKLAEAKALDQAMQALRNSIQDQQQTESGSKFINEDKPQKDAYQAAVQNAKDLINQTGNPTLDKSQVEQLTQAVTTAKDNLHGDQKLARDQQQAVTTVNALPNLNHAQQQALTDAINAAPTRTEVAQHVQTATELDHAMETLKNKVDQVNTDKAQPNYTEASTDKKEAVDQALQAAESITDPTNGSNANKDAVDQVLTKLQEKENELNGNERVAEAKTQAKQTIDQLTHLNADQIATAKQNIDQATKLQPIAELVDQATQLNQSMDQLQQAVNEHANVEQTVDYTQADSDKQNAYKQAIADAENVLKQNANKQQVDQALQNILNAKQALNGDERVALAKTNGKHDIDQLNALNNAQQDGFKGRIDQSNDLNQIQQIVDEAKALNRAMDQLSQEITDNEGRTKGSTNYVNADTQVKQVYDETVDKAKQALDKSTGQNLTAKQVIKLNDAVTAAKKALNGEERLNNRKAEALQRLDQLTHLNNAQRQLAIQQINNAETLNKASRAINRATKLDNAMGAVQQYIDEQHLGVISSTNYINADDNLKANYDNAIANAAHELDKVQGNAIAKAEAEQLKQNIIDAQNALNGDQNLANAKDKANAFVNSLNGLNQQQQDLAHKAINNADTVSDVTDIVNNQIDLNDAMETLKHLVDNEIPNAEQTVNYQNADDNAKTNFDDAKRLANTLLNSDNTNVNDINGAIQAVNDAIHNLNGDQRLQDAKDKAIQSINQALANKLKEIEASNATDQDKLIAKNKAEELANSIINNINKATSNQAVSQVQTAGNHAIEQVHANEIPKAKIDANKDVDKQVQALIDEIDRNPNLTDKEKQALKDRINQILQQGHNGINNAMTKEEIEQAKAQLAQALQDIKDLVKAKEDAKQDVDKQVQALIDEIDQNPNLTDKEKQALKDRINQILQQGHNDINNAMTKEAIEQAKERLAQALQDIKDLVKAKEDAKNDIDKRVQALIDEIDQNPNLTDKEKQALKDRINQILQQGHNDINNALTKEEIEQAKAQLAQALQDIKDLVKAKEDAKNAIKALANAKRDQINSNPDLTPEQKAKALKEIDEAEKRALQNVENAQTIDQLNRGLNLGLDDIRNTHVWEVDEQPAVNEIFEATPEQILVNGELIVHRDDIITEQDILAHINLIDQLSAEVIDTPSTATISDSLTAKVEVTLLDGSKVIVNVPVKVVEKELSVVKQQAIESIENAAQQKINEINNSVTLTLEQKEAAIAEVNKLKQQAIDHVNNAPDVHSVEEIQQQEQAHIEQFNPEQFTIEQAKSNAIKSIEDAIQHMIDEIKARTDLTDKEKQEAIAKLNQLKEQAIQAIQRAQSIDEISEQLEQFKAQMKAANPTAKELAKRKQEAISRIKDFSNEKINSIRNSEIGTADEKQAAMNQINEIVLETIRDINNAHTLQQVEAALNNGIARISAVQIVTSDRAKQSSSTGNESNSHLTIGYGTANHPFNSSTIGHKKKLDEDDDIDPLHMRHFSNNFGNVIKNAIGVVGISGLLASFWFFIAKRRRKEDEEEELEIRDNNKDSIKETLDDTKHLPLLFAKRRRKEDEEDVTVEEKDSLNNGESLDKVKHTPFFLPKRRRKEDEEDVEVTNENTDEKVLKDNEHSPLLFAKRRKDKEEDVETTTSIESKDEDVPLLLAKKKNQKDNQSKDKKSASKNTSKKVAAKKKKKKAKKNKK

Experimental data[edit | edit source]

  • experimentally validated:
  • protein localization:
  • quantitative data / protein copy number per cell:
  • interaction partners:

Expression & Regulation[edit | edit source]

Regulation[edit | edit source]

  • regulator:

Transcription pattern[edit | edit source]

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

Protein stability[edit | edit source]

  • half-life: no data available

Biological Material[edit | edit source]

Mutants[edit | edit source]

Expression vector[edit | edit source]

lacZ fusion[edit | edit source]

GFP fusion[edit | edit source]

two-hybrid system[edit | edit source]

FLAG-tag construct[edit | edit source]

Antibody[edit | edit source]

Other Information[edit | edit source]

You are kindly invited to share additional interesting facts.

Literature[edit | edit source]

References[edit | edit source]

Relevant publications[edit | edit source]