Detailed information    

insolico Bioinformatically predicted

Overview

Name   tfoS   Type   Regulator
Locus tag   ABDM36_RS03990 Genome accession   NZ_CP157384
Coordinates   842043..845387 (+) Length   1114 a.a.
NCBI ID   WP_001911421.1    Uniprot ID   -
Organism   Vibrio cholerae C6706     
Function   chitin sensor (predicted from homology)   
Competence regulation

Genomic Context

Location: 837043..850387
Locus tag Gene name Coordinates (strand) Size (bp) Protein ID Product Description
  ABDM36_RS03965 sucC 837164..838330 (+) 1167 WP_001048578.1 ADP-forming succinate--CoA ligase subunit beta -
  ABDM36_RS03970 sucD 838330..839202 (+) 873 WP_000025475.1 succinate--CoA ligase subunit alpha -
  ABDM36_RS03975 znuB 839309..840091 (-) 783 WP_000571528.1 zinc ABC transporter permease subunit ZnuB -
  ABDM36_RS03980 znuC 840084..840872 (-) 789 WP_000996146.1 zinc ABC transporter ATP-binding protein ZnuC -
  ABDM36_RS03985 znuA 840956..841840 (+) 885 WP_000952849.1 zinc ABC transporter substrate-binding protein ZnuA -
  ABDM36_RS03990 tfoS 842043..845387 (+) 3345 WP_001911421.1 AraC family transcriptional regulator Regulator
  ABDM36_RS03995 - 846159..846389 (+) 231 WP_000777870.1 ferrous iron transport protein A -
  ABDM36_RS04000 feoB 846386..848662 (+) 2277 WP_000877243.1 Fe(2+) transporter permease subunit FeoB -
  ABDM36_RS04005 - 848659..848889 (+) 231 WP_000602538.1 FeoC-like transcriptional regulator -
  ABDM36_RS04010 - 849151..849579 (-) 429 WP_000929906.1 HIT family protein -

Sequence

Protein


Download         Length: 1114 a.a.        Molecular weight: 126389.97 Da        Isoelectric Point: 6.7772

>NTDB_id=1006519 ABDM36_RS03990 WP_001911421.1 842043..845387(+) (tfoS) [Vibrio cholerae C6706]
MFRTLLYGCLLNILIPSLVLALDKSMSIFYPLPIQEQGKVIVAQNLYLGSDGGIWVHDVHGKVMYFDGQNVLPRRGSVLP
QLSSHIVYANSAFWAFEQHELFRTYPGGERELMLSLTPGTQIIQMGASNGMIWMVDGENFYSYEIRSGRVESLSLHELYQ
LNSASKVVINDAQFLVSKWALATNVGVYLSDEQGFAHVKNSGKHFIQKLYFSHKRRELLVGSKRGALVIDIENKRPPLDR
IGSSHVLSIAETEKEYWIGTEDGLFVYSFITGKIVQLESNNQDGYALLGKKIYAMVNDFQGGMWIGTDKGIFYYSLFGQQ
FTRYPAQALSNDGSKTPIGKIAALNSDGDYLAITAQGLYNFNFSDELRKHLIYPGKVNDFVIAQEHLWIATEKGLVRYNL
SRRSIDTPNLPLPLLQTAIQHLSLDSDGNLWGTSDYQIWSYSLSEKNYRDYGSEWMVKAFSPSRITLLAAVKDGIVIGTE
HGAYSLLEKQIRFDFSSHRYGEILQVAEDSSGHIWLVGSYGVFQWRKDQPEAVTVELIEENIQPLCIAESKQGMWLISTK
GISYYRNQELTKHFGAPYGLISNEFLSASCAVGEEQDNSSLIIGSQFGVVKTNTEELAVSNLPNIQVTFSQVSVNHTTKL
LGYRMSEPLKIAYGDSISFQFGALPSSRSQSLEYKLNDEQQWQRFDWALLNFDQLLPGKYRLKVRSANPTQRYRTEALFD
FEVLQPWYMTSIALVGYVLSVLGLLALALWWRTRMILAANRKLKAQVELKTSQLRHQSKIVLSNNHQLRKQLQLHHTILG
NVLDNIDASLRHLSSYAKVRAWSEFEAPFNKVKQELAQLHFMHRGDEDESKYHDLHLLIESALKSWQEEYSKALIKLTYS
GEPRFVEVRQFNLDVLFNAVLTDAIKRLYKHQELTIQLEVRNAQAVIVFSDFGAPIQNIDKTMVTLSGSSYPLEELVIRS
GGVLHVLALKERNVIELAWPLATLPELETIHKPEEGEQAAKVGIDEVEKEWLSKVEKLIELHYSDPNFTTSTAAQALYVS
ERSLQRRFKAATGKTFKESLNEVRLEKACQSLLSGAKIAQVAFDCGFNDPSYFSQRFKHHFGLSPSQFIEDQEN

Nucleotide


Download         Length: 3345 bp        

>NTDB_id=1006519 ABDM36_RS03990 WP_001911421.1 842043..845387(+) (tfoS) [Vibrio cholerae C6706]
GTGTTTCGCACATTGTTGTATGGCTGCTTGCTCAATATCCTGATCCCATCCTTGGTATTGGCATTAGATAAATCTATGTC
TATTTTCTATCCTTTGCCCATTCAAGAGCAGGGGAAAGTTATTGTTGCGCAAAATCTCTACCTCGGTAGTGATGGGGGGA
TTTGGGTACATGATGTTCATGGCAAAGTGATGTACTTTGATGGACAAAACGTCTTGCCTCGTCGTGGTTCTGTTCTGCCG
CAGTTGTCCAGTCATATTGTTTATGCGAACAGTGCATTTTGGGCTTTTGAGCAACACGAGTTGTTCAGAACCTATCCCGG
GGGAGAAAGAGAGCTGATGTTGAGCTTAACTCCGGGAACGCAGATTATTCAGATGGGGGCCTCAAATGGCATGATCTGGA
TGGTTGATGGGGAAAACTTCTATAGTTATGAGATCCGAAGTGGCCGCGTCGAATCCCTCTCGTTACATGAACTTTATCAG
CTCAATAGTGCCAGCAAGGTCGTGATTAACGATGCGCAGTTTTTAGTCTCGAAATGGGCTTTAGCGACTAATGTTGGGGT
GTATTTATCTGATGAACAAGGTTTTGCCCATGTAAAAAATTCTGGCAAGCACTTTATCCAAAAGCTCTATTTTTCCCATA
AGCGGCGAGAGCTGTTAGTTGGGTCTAAACGTGGCGCGTTAGTCATTGATATTGAAAATAAACGTCCACCACTGGATAGA
ATTGGTTCCTCCCATGTCCTCTCTATTGCGGAAACCGAGAAAGAGTACTGGATCGGTACAGAAGATGGGCTCTTTGTTTA
CTCTTTTATCACCGGGAAAATCGTGCAACTTGAGAGTAACAACCAAGATGGCTATGCCTTACTGGGCAAGAAAATCTACG
CCATGGTGAATGACTTTCAAGGTGGGATGTGGATAGGAACTGACAAGGGGATTTTTTATTACTCCCTATTTGGTCAGCAG
TTTACTCGGTATCCGGCGCAAGCATTATCTAACGACGGAAGTAAAACACCGATCGGTAAAATAGCAGCTCTTAACTCGGA
TGGAGACTATCTGGCGATAACCGCACAAGGCCTGTATAACTTTAATTTTTCAGATGAGCTACGTAAGCATCTTATCTATC
CAGGTAAAGTAAATGATTTTGTGATTGCCCAAGAGCATCTCTGGATCGCGACAGAGAAAGGTCTGGTTCGTTACAATCTC
AGTCGTCGTAGTATTGATACGCCCAATTTACCGCTCCCTTTGCTACAAACGGCTATTCAGCATCTGAGCTTAGATAGTGA
CGGTAACTTATGGGGGACAAGTGATTACCAAATATGGTCATACTCACTCTCTGAAAAAAATTATCGAGATTATGGTTCTG
AATGGATGGTGAAGGCTTTTTCTCCATCAAGGATCACTCTGCTTGCCGCAGTAAAAGACGGCATAGTGATTGGGACGGAA
CATGGCGCTTATTCCCTGCTTGAAAAACAGATCCGCTTTGATTTTTCGAGTCATCGCTATGGTGAGATTTTACAAGTTGC
TGAAGATTCTTCAGGCCACATTTGGCTTGTTGGCTCTTATGGGGTTTTTCAGTGGCGTAAAGATCAGCCCGAAGCTGTCA
CTGTCGAGTTAATTGAAGAGAATATACAGCCTTTGTGTATTGCTGAGTCTAAGCAGGGGATGTGGCTTATCTCCACCAAA
GGGATCAGTTATTACCGTAATCAAGAGCTCACTAAGCATTTTGGGGCTCCTTATGGACTGATCAGTAATGAGTTCTTGTC
TGCATCGTGTGCGGTGGGTGAGGAGCAAGATAACTCATCGTTGATCATAGGATCGCAATTTGGTGTAGTGAAAACCAATA
CAGAAGAATTAGCGGTGTCTAATTTGCCCAATATTCAGGTGACGTTTAGCCAAGTCAGCGTAAATCATACGACCAAGCTT
TTGGGGTATCGTATGTCCGAGCCACTGAAAATTGCTTATGGTGATTCGATCAGCTTTCAGTTTGGCGCTTTACCCTCTTC
ACGCAGCCAATCTTTAGAATACAAACTCAACGATGAACAGCAGTGGCAGCGCTTTGATTGGGCGCTGCTCAATTTTGATC
AACTTTTACCTGGTAAGTATCGTTTGAAAGTCCGTAGCGCTAATCCGACACAGCGATACCGAACTGAGGCCCTGTTTGAT
TTTGAAGTCTTACAGCCTTGGTATATGACCTCCATCGCGCTTGTCGGATATGTGCTGAGCGTGTTGGGGTTATTAGCACT
CGCTTTATGGTGGCGAACAAGAATGATATTGGCAGCTAACCGCAAACTCAAAGCGCAAGTGGAGCTCAAAACCAGTCAGT
TACGTCATCAAAGTAAAATTGTGCTGAGCAACAACCACCAACTTCGAAAGCAACTGCAGCTCCACCATACAATTCTTGGT
AACGTGTTAGACAATATTGATGCTTCATTGCGGCACTTATCTTCCTACGCCAAAGTACGAGCATGGAGTGAATTTGAAGC
ACCGTTCAACAAGGTGAAGCAAGAGTTGGCTCAACTGCATTTTATGCATCGCGGCGATGAGGATGAAAGCAAATATCATG
ATTTGCATCTTTTGATTGAGTCTGCATTGAAGAGTTGGCAGGAAGAGTACAGTAAAGCCTTGATTAAGCTAACTTACAGC
GGTGAGCCTCGCTTTGTGGAAGTCCGACAATTCAACCTTGATGTGTTATTTAATGCTGTATTAACGGATGCGATCAAACG
TTTGTATAAGCATCAAGAATTAACCATACAACTTGAAGTGAGAAATGCGCAGGCGGTTATCGTATTTTCTGATTTTGGTG
CCCCAATCCAAAACATAGACAAAACCATGGTGACGTTATCTGGTAGTAGTTATCCGCTTGAAGAGTTAGTCATTCGCAGT
GGTGGTGTATTGCATGTGCTCGCGTTGAAAGAGCGTAATGTGATTGAGTTAGCTTGGCCATTGGCAACCTTACCCGAGTT
AGAAACCATTCATAAACCAGAAGAAGGGGAACAGGCGGCTAAGGTTGGGATCGATGAGGTGGAGAAGGAGTGGCTAAGCA
AAGTCGAGAAACTGATTGAGCTGCATTATAGCGACCCCAATTTCACCACATCCACTGCAGCGCAGGCGCTTTATGTCTCT
GAACGCAGTTTACAGCGTCGCTTTAAAGCCGCGACAGGAAAAACCTTCAAAGAGTCGTTAAATGAGGTTCGCTTAGAAAA
AGCGTGTCAAAGCTTATTGAGTGGGGCGAAAATCGCACAAGTTGCCTTTGATTGCGGATTTAATGATCCCTCTTATTTCA
GTCAGCGTTTCAAACATCATTTTGGATTATCACCAAGCCAATTCATCGAAGATCAAGAAAACTAA

Domains

Predicted by InterproScan.

Helix-turn-helix domain (HTH_18)

(1034-1109)


Secondary structure

Protein secondary structures were predicted by S4PRED and visualized by seqviz.



3D structure

Source ID Structure

Transmembrane helices

Transmembrane helices of protein were predicted by TMHMM 2.0 and visualized by seqviz and ECharts.


Visualization of predicted probability:


Similar proteins

Only experimentally validated proteins are listed.

Protein Organism Identities (%) Coverage (%) Ha-value
  tfoS Vibrio cholerae O1 biovar El Tor strain E7946

100

100

1

Multiple sequence alignment