From AureoWiki
Jump to: navigation, search
NCBI: 06-JUL-2013

Summary[edit source | edit]

  • organism: Staphylococcus aureus Newman
  • locus tag: NWMN_0123 [new locus tag: NWMN_RS00680 ]
  • pan locus tag?: SAUPAN001018000
  • symbol: NWMN_0123
  • pan gene symbol?: ausA
  • synonym:
  • product: hypothetical protein

Genome View[edit source | edit]

Gene[edit source | edit]

General[edit source | edit]

  • type: CDS
  • locus tag: NWMN_0123 [new locus tag: NWMN_RS00680 ]
  • symbol: NWMN_0123
  • product: hypothetical protein
  • replicon: chromosome
  • strand: +
  • coordinates: 149028..156197
  • length: 7170
  • essential: unknown 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
    ATGGGTAATTTGAGATTTCAACAGGAATATTTTCGTATATACAAAAATAATACAGAATCA
    ACGACACACCGTAATGCGTATTGGGTTAAACTCGCTAAAAATGTTGAAGCTACTAAAATG
    ATGTATGCATTATCGACAATTGTGCAACAACATGCATCTATAAGACATTTTTTTGATGTT
    ACTACCGATGACAATTTAACAATGATACTTCATGAATTTCTGCCTTTTATTGAGATAAAA
    CAAGTTCCATCTTCTTCCGCAAACTATGATTTAGAAGCTTTTTTTAAGCAAGAATTAAGT
    ACTTACCATTTTAATGATTCACCTTTATTCAAAGTTAAATTGTTTCAGTTCGCTGATGCT
    GCATATATACTATTAGATTTTCATGTGTCCATTTTCGATGATAGTCAAATTGATATTTTT
    CTTGATGATTTATGCAATGCATATCGTGGCAATACTGTTATTAACAATACTCGACAGCAT
    GCACATATAAATAGAAATGATGATAAAGACAATCAAGATGCATCGCATATAGCATTAGAC
    TCAAACTATTTTCGGTTAGAGAATAACTCTGACATCCATATTGATAGTTATTTTCCAATT
    AAGCATCCATTTGAACAAGCTTTATATCAAACGTATTTGATTGATGATATGACATCAATA
    GATATGGCATCGTTGGCTGTTAGTGTGTATTTAGCTAATCATATAATGAGTCAACAACAT
    GATGTCACATTAGGTATACATGTACCATCACATTTACCAAATGATTTACACGGAAATATT
    GTGCCGTTAACGTTAACAATCGATGCAAAAGATGTATGTCAACGTTTTACAACAGATTTT
    AATAAATGTGTGTTGCAAAATATGTCGCAATTACAGTGCGCGAAGTCTTCGCTTTCACTA
    GAGACTATTTTTCATTGTTATCATCATATGATGTCTTGTTGTAATGATGTTATTGAGGAT
    GTACATCAAATACATGATGCACATACATCTTTAGCGGATATTGAAATTTTTCCACATCAA
    CACGGGTTCAAAATTATATATAACAGTGCAGCATATGATTTGCTCTCAATCGAGACGCTG
    AGTGACTTAGTTCGAAATATTTATTTGCAAATTACTGAAGAAAATGGAAATAAACGAACA
    ACTGTAGATGAACTTAATTTGATGACAGAACGTGATATTCAATTATATGACGATATCAAT
    TTAAGTTTGCCTGAGATAGATGATGCGCAAACAGTTGTTACCTTATTTGAGCAACAAGTT
    GAAGCAACGCCGAATCATGTCGCTGTGCAATTTGACGGAGTGTTTATAACATATCAAACA
    TTGAATGCACGCGCGAATGATTTAGCACACCGTTTGAGAAACCAGTATGGTGTTGAACCT
    AATGATCGTGTCGCTGTCATAGCTGAAAAAAGTATTGAGATGATAATAGCGATGATAGGT
    GTGTTGAAAGCTGGTGGGGCTTACGTGCCAATTGATCCGAACTATCCAAGTGATCGTCAG
    GAGTACATTTTAAAAGATGTAACGCCTAAAGTTGTAATAACGTACCAAGCTTTATATGAA
    AATGGTAAACAAAATATTAATCACATTGATTTGAATAAGATAGCGTGGAAAAATATTGAT
    AATCTTTCTAAATGTAACACGTTAGAAGATCATGCTTATGTTATTTACACGTCGGGGACA
    ACTGGTAACCCTAAAGGGACACTAATTCCGCACCGAGGTATTGTTCGCTTGGTCCATCAA
    AATCATTATGTACCATTAAATGAAGAGACGACGATTTTGTTATCAGGAACTATAGCCTTT
    GATGCTGCAACATTTGAAATATATGGTGCATTGCTCAATGGTGGAAAGCTGATTGTTGCT
    AAAAAAGAACAATTATTAAATCCAATAGCGGTAGAACAATTAATCAATGAAAATGACGTT
    AATACTATGTGGTTAACCTCCTCATTATTTAATCAGATTGCTAGTGAACGAATAGAAGTA
    TTGGTACCGTTAAAGTATTTATTAATTGGTGGAGAAGTATTGAATGCTAAGTGGGTGGAT
    TTGCTTAATCAAAAACCGAAGCATCCTCAAATTATTAATGGTTATGGACCAACTGAAAAT
    ACAACATTTACAACGACGTATAATATACCTAACAAAGTTCCAAATCGTATTCCTATTGGT
    AAACCGATTCTGGGTACTCATGTTTATATCATGCAAGGCGAGCGTCGGTGTGGCGTTGGT
    ATTCCTGGAGAATTATGTACAAGTGGCTTTGGGTTAGCTGCAGGTTATTTAAATCAGCCA
    GAATTGACAGCAGATAAATTTATCAAAGATTCAAATATAAATCAGCTGATGTATAGAAGT
    GGTGATATCGTTCGTTTGTTACCCGATGGCAACATAGATTATTTATATCGAAAGGACAAA
    CAAGTTAAGATTCGAGGGTTTAGGATTGAGTTGTCAGAGGTTGAGCATGCGCTCGAGCGT
    ATACAAGGTATTAATAAAGCAGTTGTTATTGTTCAAAATCATGATCAAGATCAGTATATC
    GTTGCTTATTATGAAGCGATGCATACATTATCACATAATAAGATTAAATCACAATTACGT
    ATGACCTTACCGGAGTACATGATACCAGTTAATTTCATGCATATTGAGCAAATTCCTATT
    ACTATTAATGGGAAATTAGATAAGAAGGCATTGCCTATCATGGACTATGTCGATACGGAT
    GCCTATGTAGCACCGAGTACAGATACCGAACACTTGCTATGCCAAATTTTTGCAGATATT
    TTACATGTGAATCAAGTAGGTATTCATGATAATTTCTTTGAATTAGGTGGCCATTCATTA
    AAAGCAACGTTAGTGGTGAATCGGATAGAGGCATCTACTGGGAAACGATTACAAATTGGT
    GATTTATTACAAAAGCCAACTGTATTTGAACTAGCACAAGCGATTGCTAAGGTTCAAGAA
    CAAAACTATGAAGTGATTCCAGAAACTATAGTTAAAGATGATTATGTGCTGAGCTCTGCA
    CAAAAGCGTATGTATTTATTATGGAAATCAAACCATAAAGATACGGTGTATAACGTACCT
    TTTTTATGGCGGTTATCATCAGAACTTAATGTAGCTCAATTGCGACAAGCAGTGCAGCGT
    TTGATAGCGCGACATGAGATTTTACGAACACAATATATTGTTGTAGATGATGAGGTTCGA
    CAACGTATTGTGGCAGATGTTGCAGTTGACTTTGAAGAAGTTAACACGCATTTTACGGAT
    GAACAAGAAATCATGCGCCAATTTGTAGCACCTTTTAATTTGGAAAAGCCAAGTCAAATT
    AGAGTGAGATACATTAGAAGTCCCTTACATGCATACCTCTTTATAGATACGCATCATATC
    ATTAATGACGGTATGAGTAATATACAATTAATGAATGATCTTAACGCACTTTATCAACAT
    AAATTATTGTTACCACTTAAATTGCAATATAAAGACTATAGTGAGTGGATGTCGCATCGT
    GATATGACGAAACATAGACAATATTGGTTATCTCAATTCAAAGATGAAGTACCTATTTTA
    AGCTTACCGACAGACTATGTTAGACCAAATATTAAAACGACAAATGGAGCAATGATGTCA
    TTTACAATGAATCAACAAATGAGACAGCTACTTCAAAAGTATGTAGAAAAGCATCAAATT
    ACTGATTTTATGTTCTTTATGAGTGTGGTCATGACGTTGTTAAGTAGATATGCTCGAAAA
    GATGATGTTGTTGTCGGTAGTGTGATGAGTGCGCGTATGCATAAAGGCACGGAGCAAATG
    CTAGGCATGTTTGCTAATACGTTGGTATATAGAGGGCAACCGTCACCTGATAAAATGTGG
    ACACAGTTTTTACAAGAGGTTAAGGAAATGAGTTTGGAGGCATACGAGCATCAAGAATAC
    CCATTCGAATGTTTAGTAAATGACTTAGATCAATCACATGATGCCTCACGGAATCCATTA
    TTTGATGTCATGTTAGTACTACAAAACAATGAAACGAATCATGCTCATTTTGGGCATAGT
    AAATTAACACACATTCAACCCAAATCAGTGACGGCGAAATTTGATTTATCTTTCATCATT
    GAAGAAGATCGCGATGACTATACAATCAATATCGAGTATAATACCGATTTATATCACTCA
    GAAACAGTTCGTCACATGGGTAATCAATGTATGATTATGATTGATTATATTTTGAAGCAT
    CAAGATACACTACAAATTTGTGATATACCAAACGGCACGGAGGAACTTCTAAATTGGGTC
    AATACGCATGTTAACGATCGAATGCTTAATGTCCCGGGAAATAAATCTATCATAAGTTAC
    TTTAATGAAGTTGTCTCACGACAAGGTAATCATGTTGCGCTAGTCATGAATGATTTGACA
    ATGACGTATGAAACATTACGCAACTATGTGGATGCCATTGCGCACATGCTCCTATCAAAT
    GGTGTGGGCAATGGTCAACGGGTTGCCTTGTTTACAGAACGTAGTTTTGAAATGATTGCG
    GCGATGTTGGCGACAGTTAAAGTAGGTGCATCTTATATACCTATCGATATTGATTTTCCG
    AATAAACGACAAGGTGCAATTTTGGAGGATGCTAAAGTAACTGCAGTCATGTCTTACGGC
    GTTGAAATTGAAACGACATTACCAGTCATTCAATTGGAAAATGCTAAAGGCTTTGTTGAA
    TCAAAGGAAAATGAACAATATGATGATTTACATGGCAATCAACTTGAAAACACAGCGATG
    TTAGATAATGAGATGTATGCTATTTACACATCTGGTACGACCGGGATGCCTAAAGGGGTT
    GCCATACGACAACGAAATTTGTTGAATTTAGTGCATGCATGGTCAACTGAATTGCAATTA
    GGCGACAATGAAGTATTTTTGCAACATGCAAATATTGTTTTTGATGCATCAGTTATGGAG
    ATTTATTGTTGTTTGTTAAATGGTCATACGCTTGTGATTCCAGATAGAGAGGAACGTGTT
    AATCCAGAACAGTTACAACAACTCATTAATAAGCATCGTGTGACGGTTGCGTCGATTCCG
    TTACAGATGTGTAGTGTTATGGAAGACTTTTATATTGAAAAGTTGATTACAGGCGGGGCA
    ACTAGTACGGCATCCTTTGTTAAATATATTGAGAAGCATTGTGGCACGTATTTCAATGCC
    TATGGACCATCTGAGTCAACAGTCATCACATCGTATTGGTCACATCATTGTGGTGATTTG
    ATACCTGAGACGATTCCAATTGGCAAACCCTTATCTAACATCCAAGTGTATATTATGTCA
    GATGGTTTGTTATGCGGTATTGGTATGCCAGGCGAGTTGTGTATTGCAGGTGATAGTTTA
    GCGATAGGATATATTAATCGTCCAGAATTAATGGCTGATAAATGGCAAAATAATCCATTT
    GGTAAAGGAAAGTTGTATCATAGTGGTGATTTAGCACGTTATACATCTGATGGTCAAATT
    GAATTTTTAGGAAGAATAGATAAACAAGTGAAAGTTAACGGGTACCGTATTGAACTTGAT
    GAAATTGAAAATGCAATATTAGCTATTCGTGGTATATCTGATTGTGTTGTAACAGTAAGT
    CACTTTGATACGCATGATATATTGAATGCTTATTATGTCGGAGAGCAACAAGTGGAACAG
    GATTTGAAGCAATATTTAAATGATCAGCTGCCTAAGTATATGATTCCTAAGACTATAACG
    CATATCGATTGTATGCCATTAACCACGAATGACAAGGTGGATACTACGCGTTTGCCAAAT
    CCATCACCTATACAACAGTCTAATAAAGTGTATAGCGAACCCTCTAATGAAATTGAGCAG
    ACATTTGTTGATGTATTTGGAGAGGTATTGAAACAAAATGATGTCGGTGTTGACGATGAT
    TTCTTTGAACTTGGTGGTAACTCATTAGAGGCGATGTTAGTTGTCTCGCATTTAAAACGA
    TTTGGCCATCATATTTCAATGCAGACATTATACCAATATAAAACCGTGCGACAGATTGTT
    AATTATATGTACCAAAATCAACAATCATTAGTTGCATTACCGGATAATCTTTCGGAATTA
    CAAAAGATTGTTATGTCTCGTTATAACTTGGGTATTTTAGAGGATAGTCTAAGTCATCGA
    CCTCTAGGAAATACACTATTGACTGGCGCGACAGGTTTTTTAGGTGCTTATCTGATTGAA
    GTACTACAAGGATACAGTCATCGCATTTATTGTTTCATACGTGCTGATAATGAGGAAATA
    GCATGGTATAAGTTGATGACGAATTTAAATGATTATTTTTCAGAAGAGACGGTTGAAATA
    ATGTTATCAAACATTGAAGTCATTGTTGGTGATTTCGAGTGTATGGATGATGTTGTTTTA
    CCAGAAAACATGGATACGATTATTCATGCAGGTGCTCGTACAGATCACTTTGGTGATGAT
    GATGAATTTGAAAAAGTAAATGTTCAAGGTACTGTTGATGTCATACGTTTGGCACAACAA
    CATCATGCAAGGTTAATATATGTGTCTACGATAAGTGTGGGAACTTATTTTGATATAGAC
    ACAGAAGATGTGACATTTTCAGAAGCGGATGTCTATAAAGGGCAACTACTAACATCACCA
    TATACACGGAGCAAATTTTATAGTGAATTAAAAGTATTAGAAGCTGTAAATAATGGCTTA
    GATGGTCGGATTGTACGTGTTGGTAATTTGACGAATCCTTACAATGGAAGATGGCATATG
    AGAAATATAAAGACTAACCGTTTTTCAATGGTAATGAATGATTTGTTACAACTGGATTGT
    ATCGGGGTTAGCATGGCTGAAATGCCTGTAGATTTTTCTTTTGTGGATACGACTGCAAGA
    CAAATTGTCGCATTAGCACAGGTCAACACACCACAAATCATTTACCATGTGCTATCACCT
    AATAAAATGCCGGTGAAATCTTTGTTAGAATGCGTTAAGCGCAAAGAAATTGAACTCGTC
    AGCGATGAATCATTTAATGAAATTTTACAGAAACAAGACATGTACGAAACGATTGGATTA
    ACTAGTGTTGACCGTGAACAACAACTAGCAATGATAGATACAACATTAACATTAAAAATA
    ATGAATCACATCAGTGAAAAATGGCCAACGATAACTAACAATTGGCTGTATCATTGGGCA
    CAATATATCAAAACAATATTCAATAAGTAA
    60
    120
    180
    240
    300
    360
    420
    480
    540
    600
    660
    720
    780
    840
    900
    960
    1020
    1080
    1140
    1200
    1260
    1320
    1380
    1440
    1500
    1560
    1620
    1680
    1740
    1800
    1860
    1920
    1980
    2040
    2100
    2160
    2220
    2280
    2340
    2400
    2460
    2520
    2580
    2640
    2700
    2760
    2820
    2880
    2940
    3000
    3060
    3120
    3180
    3240
    3300
    3360
    3420
    3480
    3540
    3600
    3660
    3720
    3780
    3840
    3900
    3960
    4020
    4080
    4140
    4200
    4260
    4320
    4380
    4440
    4500
    4560
    4620
    4680
    4740
    4800
    4860
    4920
    4980
    5040
    5100
    5160
    5220
    5280
    5340
    5400
    5460
    5520
    5580
    5640
    5700
    5760
    5820
    5880
    5940
    6000
    6060
    6120
    6180
    6240
    6300
    6360
    6420
    6480
    6540
    6600
    6660
    6720
    6780
    6840
    6900
    6960
    7020
    7080
    7140
    7170

Protein[edit source | edit]

General[edit source | edit]

  • locus tag: NWMN_0123 [new locus tag: NWMN_RS00680 ]
  • symbol: NWMN_0123
  • description: hypothetical protein
  • length: 2389
  • theoretical pI: 5.2802
  • theoretical MW: 273236
  • GRAVY: -0.238887

Function[edit source | edit]

  • reaction:
  • TIGRFAM:
    amino acid adenylation domain (TIGR01733; HMM-score: 742.4)
    Cell structureCell envelopeBiosynthesis and degradation of murein sacculus and peptidoglycanD-alanine--poly(phosphoribitol) ligase, subunit 1 (TIGR01734; EC 6.1.1.13; HMM-score: 519.7)
    L-aminoadipate-semialdehyde dehydrogenase (TIGR03443; EC 1.2.1.31; HMM-score: 465.6)
    acyl-CoA ligase (AMP-forming), exosortase A-associated (TIGR03098; HMM-score: 379.1)
    thioester reductase domain (TIGR01746; HMM-score: 326.5)
    MetabolismBiosynthesis of cofactors, prosthetic groups, and carriersMenaquinone and ubiquinoneO-succinylbenzoate-CoA ligase (TIGR01923; EC 6.2.1.26; HMM-score: 272.5)
    benzoate-CoA ligase family (TIGR02262; HMM-score: 172.3)
    acetate--CoA ligase (TIGR02188; EC 6.2.1.1; HMM-score: 159.8)
    MetabolismTransport and binding proteinsCations and iron carrying compounds(2,3-dihydroxybenzoyl)adenylate synthase (TIGR02275; EC 2.7.7.58; HMM-score: 135.3)
    cyclohexanecarboxylate-CoA ligase (TIGR03208; EC 6.2.1.-; HMM-score: 118)
    MetabolismCentral intermediary metabolismOtheracetoacetate-CoA ligase (TIGR01217; EC 6.2.1.16; HMM-score: 104.4)
    dicarboxylate--CoA ligase PimA (TIGR03205; EC 6.2.1.23; HMM-score: 78.9)
    propionate--CoA ligase (TIGR02316; EC 6.2.1.17; HMM-score: 73.7)
    hopanoid-associated sugar epimerase (TIGR03466; HMM-score: 41)
    Cell structureCell envelopeBiosynthesis and degradation of surface polysaccharides and lipopolysaccharidesdTDP-4-dehydrorhamnose reductase (TIGR01214; EC 1.1.1.133; HMM-score: 29.1)
    NAD dependent epimerase/dehydratase, LLPSF_EDH_00030 family (TIGR04180; HMM-score: 25.3)
    4-coumarate--CoA ligase (TIGR02372; EC 6.2.1.12; HMM-score: 24.5)
    Hypothetical proteinsConservedTIGR01777 family protein (TIGR01777; HMM-score: 15.4)
    MetabolismEnergy metabolismElectron transportarchaeoflavoprotein AfpA (TIGR02699; HMM-score: 13.3)
  • TheSEED:  
    Cofactors, Vitamins, Prosthetic Groups, PigmentsBiotinBiotin biosynthesis Long-chain-fatty-acid--CoA ligase (EC 6.2.1.3) 
  • PFAM:
    ANL (CL0378) AMP-binding; AMP-binding enzyme (PF00501; HMM-score: 580.1)
    CoA-acyltrans (CL0149) Condensation; Condensation domain (PF00668; HMM-score: 331.4)
    NADP_Rossmann (CL0063) NAD_binding_4; Male sterility protein (PF07993; HMM-score: 104.1)
    PP-binding (CL0314) PP-binding; Phosphopantetheine attachment site (PF00550; HMM-score: 89.1)
    AMP-binding_C (CL0531) AMP-binding_C; AMP-binding enzyme C-terminal domain (PF13193; HMM-score: 61.7)
    NADP_Rossmann (CL0063) Epimerase; NAD dependent epimerase/dehydratase family (PF01370; HMM-score: 54.8)
    3Beta_HSD; 3-beta hydroxysteroid dehydrogenase/isomerase family (PF01073; HMM-score: 46.5)
    GDP_Man_Dehyd; GDP-mannose 4,6 dehydratase (PF16363; HMM-score: 40.3)
    RmlD_sub_bind; RmlD substrate binding domain (PF04321; HMM-score: 30.9)
    Polysacc_synt_2; Polysaccharide biosynthesis protein (PF02719; HMM-score: 22.1)

Structure, modifications & interactions[edit source | edit]

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

Localization[edit source | edit]

  • PSORTb: Cytoplasmic
    • Cytoplasmic Score: 9.97
    • Cytoplasmic Membrane Score: 0
    • Cellwall Score: 0.01
    • Extracellular Score: 0.02
    • Internal Helices: 0
  • LocateP: Intracellular
    • Prediction by SwissProt Classification: Cytoplasmic
    • Pathway Prediction: No pathway
    • Intracellular Possibility: 1
    • Signal Peptide Possibility: -1
    • N-terminally Anchored Score: 1
    • Predicted Cleavage Site: No CleavageSite
  • SignalP: no predicted signal peptide
    • Ymax: 0.137
    • Ymax_pos: 14
    • Cmax: 0.124
    • Cmax_pos: 53
    • Smax: 0.258
    • Smax_pos: 51
    • Smean: 0.191
    • D: 0.158
  • predicted transmembrane helices (TMHMM): 0

Accession numbers[edit source | edit]

Protein sequence[edit source | edit]

  • MGNLRFQQEYFRIYKNNTESTTHRNAYWVKLAKNVEATKMMYALSTIVQQHASIRHFFDVTTDDNLTMILHEFLPFIEIKQVPSSSANYDLEAFFKQELSTYHFNDSPLFKVKLFQFADAAYILLDFHVSIFDDSQIDIFLDDLCNAYRGNTVINNTRQHAHINRNDDKDNQDASHIALDSNYFRLENNSDIHIDSYFPIKHPFEQALYQTYLIDDMTSIDMASLAVSVYLANHIMSQQHDVTLGIHVPSHLPNDLHGNIVPLTLTIDAKDVCQRFTTDFNKCVLQNMSQLQCAKSSLSLETIFHCYHHMMSCCNDVIEDVHQIHDAHTSLADIEIFPHQHGFKIIYNSAAYDLLSIETLSDLVRNIYLQITEENGNKRTTVDELNLMTERDIQLYDDINLSLPEIDDAQTVVTLFEQQVEATPNHVAVQFDGVFITYQTLNARANDLAHRLRNQYGVEPNDRVAVIAEKSIEMIIAMIGVLKAGGAYVPIDPNYPSDRQEYILKDVTPKVVITYQALYENGKQNINHIDLNKIAWKNIDNLSKCNTLEDHAYVIYTSGTTGNPKGTLIPHRGIVRLVHQNHYVPLNEETTILLSGTIAFDAATFEIYGALLNGGKLIVAKKEQLLNPIAVEQLINENDVNTMWLTSSLFNQIASERIEVLVPLKYLLIGGEVLNAKWVDLLNQKPKHPQIINGYGPTENTTFTTTYNIPNKVPNRIPIGKPILGTHVYIMQGERRCGVGIPGELCTSGFGLAAGYLNQPELTADKFIKDSNINQLMYRSGDIVRLLPDGNIDYLYRKDKQVKIRGFRIELSEVEHALERIQGINKAVVIVQNHDQDQYIVAYYEAMHTLSHNKIKSQLRMTLPEYMIPVNFMHIEQIPITINGKLDKKALPIMDYVDTDAYVAPSTDTEHLLCQIFADILHVNQVGIHDNFFELGGHSLKATLVVNRIEASTGKRLQIGDLLQKPTVFELAQAIAKVQEQNYEVIPETIVKDDYVLSSAQKRMYLLWKSNHKDTVYNVPFLWRLSSELNVAQLRQAVQRLIARHEILRTQYIVVDDEVRQRIVADVAVDFEEVNTHFTDEQEIMRQFVAPFNLEKPSQIRVRYIRSPLHAYLFIDTHHIINDGMSNIQLMNDLNALYQHKLLLPLKLQYKDYSEWMSHRDMTKHRQYWLSQFKDEVPILSLPTDYVRPNIKTTNGAMMSFTMNQQMRQLLQKYVEKHQITDFMFFMSVVMTLLSRYARKDDVVVGSVMSARMHKGTEQMLGMFANTLVYRGQPSPDKMWTQFLQEVKEMSLEAYEHQEYPFECLVNDLDQSHDASRNPLFDVMLVLQNNETNHAHFGHSKLTHIQPKSVTAKFDLSFIIEEDRDDYTINIEYNTDLYHSETVRHMGNQCMIMIDYILKHQDTLQICDIPNGTEELLNWVNTHVNDRMLNVPGNKSIISYFNEVVSRQGNHVALVMNDLTMTYETLRNYVDAIAHMLLSNGVGNGQRVALFTERSFEMIAAMLATVKVGASYIPIDIDFPNKRQGAILEDAKVTAVMSYGVEIETTLPVIQLENAKGFVESKENEQYDDLHGNQLENTAMLDNEMYAIYTSGTTGMPKGVAIRQRNLLNLVHAWSTELQLGDNEVFLQHANIVFDASVMEIYCCLLNGHTLVIPDREERVNPEQLQQLINKHRVTVASIPLQMCSVMEDFYIEKLITGGATSTASFVKYIEKHCGTYFNAYGPSESTVITSYWSHHCGDLIPETIPIGKPLSNIQVYIMSDGLLCGIGMPGELCIAGDSLAIGYINRPELMADKWQNNPFGKGKLYHSGDLARYTSDGQIEFLGRIDKQVKVNGYRIELDEIENAILAIRGISDCVVTVSHFDTHDILNAYYVGEQQVEQDLKQYLNDQLPKYMIPKTITHIDCMPLTTNDKVDTTRLPNPSPIQQSNKVYSEPSNEIEQTFVDVFGEVLKQNDVGVDDDFFELGGNSLEAMLVVSHLKRFGHHISMQTLYQYKTVRQIVNYMYQNQQSLVALPDNLSELQKIVMSRYNLGILEDSLSHRPLGNTLLTGATGFLGAYLIEVLQGYSHRIYCFIRADNEEIAWYKLMTNLNDYFSEETVEIMLSNIEVIVGDFECMDDVVLPENMDTIIHAGARTDHFGDDDEFEKVNVQGTVDVIRLAQQHHARLIYVSTISVGTYFDIDTEDVTFSEADVYKGQLLTSPYTRSKFYSELKVLEAVNNGLDGRIVRVGNLTNPYNGRWHMRNIKTNRFSMVMNDLLQLDCIGVSMAEMPVDFSFVDTTARQIVALAQVNTPQIIYHVLSPNKMPVKSLLECVKRKEIELVSDESFNEILQKQDMYETIGLTSVDREQQLAMIDTTLTLKIMNHISEKWPTITNNWLYHWAQYIKTIFNK

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]