Detailed information    

insolico Bioinformatically predicted

Overview


Name   tfoS   Type   Regulator
Locus tag   QZL34_RS12105 Genome accession   NZ_CP129930
Coordinates   2578558..2581929 (-) Length   1123 a.a.
NCBI ID   WP_315868275.1    Uniprot ID   -
Organism   Vibrio parahaemolyticus isolate BM24A     
Function   chitin sensor (predicted from homology)   
Competence regulation

Genomic Context


Location: 2573558..2586929
Locus tag Gene name Coordinates (strand) Size (bp) Protein ID Product Description
  QZL34_RS12085 - 2574401..2574829 (+) 429 WP_021449627.1 HIT domain-containing protein -
  QZL34_RS12090 - 2574947..2575177 (-) 231 WP_005455490.1 FeoC-like transcriptional regulator -
  QZL34_RS12095 feoB 2575174..2577450 (-) 2277 WP_015296399.1 Fe(2+) transporter permease subunit FeoB -
  QZL34_RS12100 - 2577450..2577677 (-) 228 WP_005455496.1 FeoA family protein -
  QZL34_RS12105 tfoS 2578558..2581929 (-) 3372 WP_315868275.1 helix-turn-helix domain-containing protein Regulator
  QZL34_RS12110 znuA 2582140..2583018 (-) 879 WP_075983819.1 zinc ABC transporter substrate-binding protein ZnuA -
  QZL34_RS12115 znuC 2583097..2583885 (+) 789 WP_315868276.1 zinc ABC transporter ATP-binding protein ZnuC -
  QZL34_RS12120 znuB 2583878..2584663 (+) 786 WP_005455500.1 zinc ABC transporter permease subunit ZnuB -
  QZL34_RS12125 - 2584817..2585662 (-) 846 WP_005481076.1 class II glutamine amidotransferase -
  QZL34_RS12130 lpcA 2585715..2586290 (-) 576 WP_005457680.1 D-sedoheptulose 7-phosphate isomerase -

Sequence


Protein


Download         Length: 1123 a.a.        Molecular weight: 126762.26 Da        Isoelectric Point: 5.6519

>NTDB_id=781306 QZL34_RS12105 WP_315868275.1 2578558..2581929(-) (tfoS) [Vibrio parahaemolyticus isolate BM24A]
MLRQLVLIFWGLFISSQAFALNNANAIFYPLPTQVKGTFIAAKKLFLGEQGGLWIHDVHGRVLFYDGQNVLPKSGSFLQT
TAKQLAYHQGSFWTFVENEVYQTYPNKERQLVFSLNPGSQIRKIGSSGDYIWVSDGAHFYTYNIKTNELDSFSLLQLYQH
SNNSYVYINDAILVETKWALATTSGVYLSEGNKFDHVISSGQNYIEKVYYSHTRREILVGTLKGALIFNIYEPNKEIVKI
GGSHVLTFSETNQEYWVGTEHGLYLYSFLTGEVTEVEPASFLELELDSTKIYSLLSDNMGGMWIATNQGIRYYSLFSKKF
ERVTFSSYDSQTLSGRIRQTVTGPDGVLWFADDRKLYRSGAEGIVKVLELDSQINEFAFQRGMLWLATSKGLEIFQLEGL
KKVSFPYLQVMAGHAVEHIALDDTNRLWVSSGYQLYNVDIDKQSVRNFGSEWIVSQYLPAKVTRLYDTEDKLFIGTDHGI
YEYDDERIRFNRFSEKYGESLDIVTAADGSQWFASSYGLFKTVAGGEAKQVLEMSVANARPACLISDAKGVWLASSVGLS
YYRLSGELVKHYSSASGLINNEFIPGICSVVKRTEDGERELVLGSKYGLVKAEASKLLVSNPPESRFIVSQVMLENDVIQ
VGSSDLDGIKLPYGSSLSFLFGIMPKPDSQNLYYRLNEDDRWQTLEGGQLTLEHLNSGEYHLQVSNESQVTAGVVGLESR
FEVLKPWYLSQLAILGFLVSISTLIGLIMYWRSRYVMQANRELAAQVTLKTNQLRHQSRVLLTSNQQLRKQIQVRNLLVD
HVAQSIKTSVDYISSKLPVERDSITQDHVSKTYWQLNELKSAPGDASNGSQNYNLSQITQSVVDVWRDDFAKAGISVELE
DENKSSRIALESFNLDVIFNSIFANIIKRSFRGQAVKVMLEEGRDIVSLSFLDYGTQLPNKLSLSRPANNNVDLSIDNLS
QLVTVSGGHLAVFTSDAQNKIEITWPMAKELSHVEEVLPEFVPENIAEEKASPENEWLQKVYQLVAEHYHDPDFGTATAA
KMLFMSERSLQRRFKSASSRTLKDYLTEVRLETACEQLLAGEKISEVAFNCGFNDPSYFSQKFKLHFGLPPSKFAMEQDS
HAN

Nucleotide


Download         Length: 3372 bp        

>NTDB_id=781306 QZL34_RS12105 WP_315868275.1 2578558..2581929(-) (tfoS) [Vibrio parahaemolyticus isolate BM24A]
TTGCTTCGCCAACTTGTCCTGATTTTCTGGGGACTCTTCATATCATCTCAAGCATTTGCGCTGAACAACGCAAATGCCAT
CTTTTACCCTTTGCCTACTCAGGTTAAGGGCACTTTTATTGCTGCGAAAAAATTGTTCTTGGGCGAGCAAGGTGGGTTAT
GGATTCATGATGTACATGGCCGCGTTCTTTTTTATGACGGCCAGAATGTTCTGCCAAAATCAGGCAGTTTTTTGCAAACG
ACTGCAAAGCAGCTTGCGTATCATCAAGGGTCATTCTGGACCTTTGTCGAAAATGAGGTTTATCAGACCTACCCAAACAA
AGAAAGGCAGTTGGTCTTTAGCCTTAACCCCGGGTCGCAAATTAGAAAAATAGGTTCATCAGGTGATTATATTTGGGTCA
GTGATGGCGCACATTTTTATACCTACAACATCAAAACCAATGAACTTGATTCATTTTCACTGCTTCAACTTTATCAACAT
AGCAATAATAGTTATGTGTACATCAATGATGCGATTTTGGTCGAAACCAAATGGGCGTTGGCTACAACATCAGGTGTCTA
TCTCTCTGAAGGTAATAAATTTGATCATGTGATTTCTTCCGGTCAAAACTATATTGAAAAAGTGTATTACTCGCATACGA
GACGCGAGATATTGGTCGGCACCTTAAAAGGCGCGTTGATCTTCAATATTTACGAGCCGAACAAAGAGATCGTCAAAATT
GGCGGCTCCCACGTACTGACGTTTTCAGAGACCAATCAAGAGTATTGGGTTGGTACTGAGCATGGTTTGTATCTCTACTC
GTTTTTAACTGGTGAAGTTACGGAAGTTGAGCCTGCGAGCTTCTTAGAGTTAGAGCTCGATAGCACTAAAATTTATTCCT
TACTTAGCGACAACATGGGCGGAATGTGGATAGCGACCAACCAAGGCATTCGTTATTACTCTTTGTTCAGCAAAAAATTT
GAGCGAGTCACCTTTAGTAGTTATGACTCGCAAACCTTATCTGGTCGTATCAGACAAACGGTAACAGGGCCAGATGGTGT
GCTTTGGTTTGCCGATGACCGCAAACTGTATCGTTCTGGCGCGGAAGGGATTGTAAAAGTCTTAGAATTAGATTCTCAAA
TTAACGAATTTGCGTTCCAACGAGGCATGTTATGGCTTGCCACTTCAAAAGGCTTGGAGATATTCCAATTGGAAGGGCTG
AAAAAGGTCAGCTTCCCTTATTTACAAGTGATGGCTGGGCATGCTGTTGAGCATATTGCTCTAGACGACACAAACCGTTT
GTGGGTATCCAGCGGTTACCAACTTTACAACGTTGATATCGACAAGCAATCCGTCAGAAACTTTGGTAGCGAATGGATCG
TGAGTCAGTACTTACCAGCTAAAGTGACGCGCTTATATGATACCGAAGATAAACTTTTTATTGGTACGGACCATGGCATT
TATGAATATGATGATGAACGTATTCGTTTCAATCGTTTCTCGGAAAAATATGGCGAGTCGCTAGATATAGTGACAGCGGC
GGATGGCTCTCAGTGGTTTGCCTCTTCCTATGGGTTGTTTAAAACAGTGGCTGGTGGAGAAGCCAAGCAAGTCTTGGAGA
TGAGTGTTGCGAATGCTCGTCCGGCGTGTTTGATCAGTGATGCGAAAGGTGTGTGGCTCGCATCTTCTGTTGGGTTGAGT
TACTACCGATTGTCCGGTGAGTTAGTTAAACACTATTCATCTGCATCGGGCTTGATTAATAATGAGTTTATTCCTGGGAT
ATGTAGCGTAGTGAAACGCACAGAAGATGGTGAACGTGAACTTGTTTTAGGCTCAAAATATGGATTAGTTAAAGCGGAGG
CTTCAAAACTATTGGTGTCAAACCCGCCAGAATCCCGCTTTATTGTTAGCCAAGTGATGCTTGAAAACGATGTAATCCAA
GTGGGGAGTTCCGACCTTGATGGGATTAAGCTGCCTTATGGCTCTTCGCTGAGTTTTCTCTTTGGCATCATGCCTAAACC
GGATAGCCAGAACCTTTATTACCGCTTAAACGAAGACGACCGATGGCAGACCTTAGAAGGGGGACAGTTAACTTTAGAGC
ACCTTAACTCTGGGGAATACCACCTTCAAGTGAGTAACGAGTCACAGGTAACGGCGGGCGTTGTTGGCTTAGAGTCTCGT
TTTGAAGTGCTCAAACCATGGTATCTATCCCAGCTTGCGATATTAGGCTTTCTCGTCTCAATTTCTACGCTTATCGGCCT
TATCATGTACTGGCGTTCACGATATGTTATGCAAGCAAACCGAGAGCTTGCTGCTCAGGTCACTCTAAAGACCAACCAGT
TAAGGCATCAAAGCCGCGTATTATTGACGAGTAACCAACAGTTAAGAAAGCAAATTCAGGTTAGAAATCTATTAGTTGAC
CATGTTGCTCAGTCTATAAAAACCAGCGTCGATTATATCTCGTCAAAATTGCCAGTGGAGAGAGACTCCATCACTCAGGA
TCACGTATCAAAAACTTACTGGCAGCTGAATGAGCTTAAAAGTGCTCCAGGTGATGCGAGTAACGGCAGTCAAAACTACA
ACCTAAGCCAAATTACGCAATCTGTGGTGGATGTGTGGCGAGACGATTTCGCCAAAGCGGGGATCTCTGTGGAGTTAGAG
GATGAGAACAAGTCTAGCCGTATTGCTCTAGAGAGTTTTAATCTGGACGTTATCTTCAACAGTATCTTTGCCAACATCAT
CAAGCGCTCTTTCCGAGGTCAAGCCGTTAAAGTGATGTTAGAAGAGGGGCGGGACATTGTCTCACTCAGCTTTTTGGATT
ACGGAACGCAATTGCCAAATAAACTTTCTCTAAGTCGTCCTGCTAATAACAATGTGGACTTGAGTATAGACAATCTTTCG
CAGTTGGTTACGGTGAGTGGAGGGCACTTAGCGGTGTTCACTTCTGATGCGCAGAATAAAATTGAGATTACTTGGCCGAT
GGCAAAAGAGTTGAGCCATGTCGAGGAAGTTTTACCAGAATTTGTGCCAGAAAACATCGCCGAAGAAAAAGCCAGTCCAG
AGAATGAGTGGCTACAAAAGGTTTATCAGTTAGTTGCTGAGCATTACCATGACCCTGATTTTGGTACTGCGACAGCGGCT
AAGATGTTATTTATGTCTGAACGTAGTTTACAACGCCGCTTTAAGTCGGCCTCGTCAAGAACGTTAAAAGATTATTTAAC
GGAGGTACGGTTAGAAACTGCTTGTGAACAGTTACTCGCAGGTGAAAAAATCAGTGAAGTGGCTTTCAATTGCGGTTTCA
ATGATCCCTCTTACTTCAGCCAGAAGTTCAAGTTGCACTTTGGTTTACCTCCATCAAAGTTCGCGATGGAACAAGACAGT
CACGCAAATTAG

Domains


Predicted by InterProScan.

(1040-1114)


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

38.448

100

0.393