Detailed information    

insolico Bioinformatically predicted

Overview


Name   luxQ   Type   Regulator
Locus tag   FOB70_RS00805 Genome accession   NZ_CP044070
Coordinates   143381..145957 (+) Length   858 a.a.
NCBI ID   WP_005499304.1    Uniprot ID   -
Organism   Vibrio parahaemolyticus strain FDAARGOS_662     
Function   autoinducer sensor (predicted from homology)   
Competence regulation

Genomic Context


Location: 138381..150957
Locus tag Gene name Coordinates (strand) Size (bp) Protein ID Product Description
  FOB70_RS00770 (FOB70_00770) - 138472..139809 (-) 1338 WP_021447933.1 MATE family efflux transporter -
  FOB70_RS00775 (FOB70_00775) - 139932..140246 (-) 315 WP_005453573.1 DUF496 family protein -
  FOB70_RS00785 (FOB70_00785) - 140573..140788 (+) 216 WP_005499315.1 hypothetical protein -
  FOB70_RS00790 (FOB70_00790) - 140965..141615 (+) 651 WP_005499314.1 YceH family protein -
  FOB70_RS00795 (FOB70_00795) - 141612..141932 (+) 321 WP_005463466.1 GIY-YIG nuclease family protein -
  FOB70_RS00800 (FOB70_00800) luxP 142284..143381 (+) 1098 WP_005463467.1 autoinducer 2-binding periplasmic protein LuxP Regulator
  FOB70_RS00805 (FOB70_00805) luxQ 143381..145957 (+) 2577 WP_005499304.1 quorum-sensing autoinducer 2 sensor kinase/phosphatase LuxQ Regulator
  FOB70_RS00810 (FOB70_00810) slyA 146169..146624 (+) 456 WP_005499300.1 transcriptional regulator SlyA -
  FOB70_RS00815 (FOB70_00815) - 146662..147717 (+) 1056 WP_005499297.1 HlyD family secretion protein -
  FOB70_RS00820 (FOB70_00820) - 147730..148767 (+) 1038 WP_005499295.1 DUF2955 domain-containing protein -
  FOB70_RS00825 (FOB70_00825) - 148793..149455 (-) 663 WP_005499292.1 flagellar brake protein -
  FOB70_RS00830 (FOB70_00830) - 149551..150477 (-) 927 WP_021447935.1 DMT family transporter -

Sequence


Protein


Download         Length: 858 a.a.        Molecular weight: 96804.67 Da        Isoelectric Point: 4.8875

>NTDB_id=340211 FOB70_RS00805 WP_005499304.1 143381..145957(+) (luxQ) [Vibrio parahaemolyticus strain FDAARGOS_662]
MTITSKLKKRRSLSTLITKIIILVLAPIILGIFVQSYYFSKQIIWQEVDRTKQQTSALILNIFESHFAAIQIHHDSNSKS
DVILDFYSERNEEALNYFFLSIDQSDPSHTPEFRFLTDHQGIIWDDGNAHFYGINDSMLDGLTSKVTFSNNWYYVTSITS
MGARHLLLRRVPVLEPKTGEVMGYSYNAVVLDNNFALMEKLKNEGNVDNVVLVANDIPVASSLAGDESYKIFDVLKRKET
QKKLDQLLIIQTPIEVNAAITNLKLLTVQDNQSVVTLQIQHFLAMLASVIGMIMIALMTKEWIENRVVEELGSLMSYTRS
AREEKGFERFGGSDIEEFDHIGSTLESTFEELEAQKRSFRDLFNFALSPIMVWSEAGVLIQINPAARKELVIENDIETMH
PVFKGFKDKLVPHLRMAAQGATLTGVNVPIGDKVFRWNLSPIRVDGDISGIIVQGQDITTLIEAEKQSNLARREAEKSAQ
ARADFLAKMSHEIRTPINGILGVAQLLKDSVEAEEQKNQIDVLRHSGEHLLAVLNDILDFSKIEQGKFNIQKHPFSFADT
MRTLENIYRPICENKGVELVIENQLDGNVEIFTDQVRLNQILFNLVSNAVKFTPSGCVRLHAELEQFYGADNSVLVVEIS
DTGIGIESDKLDEMFEPFVQEEATTTREYGGSGLGLTIVKNLVDMLDGDVQVRSQKGQGTTFVVTLPVKDRERVLAPLDS
SQRVKPAELFDESLKVLLVEDNHTNAFILKAFCTKYKMQVDWTKDGLEAMEFLKDHSYDLILMDNQLPHLGGIETTKEIR
QNLKLGTPIYACTADTAQETSDAFMEAGANYVLLKPIKENALHEAFVDFKLRFLIERT

Nucleotide


Download         Length: 2577 bp        

>NTDB_id=340211 FOB70_RS00805 WP_005499304.1 143381..145957(+) (luxQ) [Vibrio parahaemolyticus strain FDAARGOS_662]
ATGACAATTACATCAAAGCTAAAAAAGCGTCGCTCGCTGTCGACGCTTATAACTAAAATTATTATTCTCGTTCTTGCTCC
GATCATTTTAGGCATTTTCGTTCAGAGTTATTACTTCTCCAAACAGATCATTTGGCAGGAGGTCGACCGAACCAAGCAGC
AAACGTCTGCGTTGATTCTGAATATTTTTGAAAGTCATTTTGCAGCGATTCAGATCCATCACGACAGCAATTCGAAAAGT
GATGTGATTTTGGATTTTTACTCGGAGCGAAATGAAGAAGCCTTAAATTACTTCTTTCTCAGCATTGATCAGAGTGATCC
TTCGCACACGCCTGAATTTCGTTTTCTCACCGACCATCAAGGTATTATTTGGGACGATGGGAACGCGCATTTTTATGGCA
TCAACGACTCAATGCTGGACGGCCTGACTAGCAAAGTCACGTTCAGTAATAATTGGTATTACGTCACGTCAATCACGTCA
ATGGGTGCTCGTCACTTGTTGCTACGCCGTGTTCCTGTGTTAGAGCCGAAAACGGGCGAAGTGATGGGGTATTCGTACAA
CGCGGTCGTCTTGGATAACAACTTCGCCTTGATGGAAAAGTTAAAAAACGAAGGCAACGTCGACAATGTTGTGCTGGTGG
CGAACGACATTCCTGTAGCAAGTTCACTAGCGGGGGATGAGTCATACAAAATCTTCGATGTGTTGAAACGCAAAGAGACC
CAGAAGAAGTTAGATCAGTTATTGATCATCCAAACGCCGATTGAAGTGAACGCGGCCATCACCAACTTGAAGTTACTTAC
TGTGCAAGACAACCAGAGTGTTGTTACGCTGCAAATTCAACACTTTTTGGCGATGTTAGCGTCTGTTATTGGCATGATCA
TGATTGCGCTGATGACCAAAGAGTGGATTGAAAACCGAGTTGTGGAAGAGCTGGGTTCGCTGATGTCTTACACGCGTTCT
GCTCGCGAAGAAAAAGGCTTTGAGCGTTTTGGTGGGTCGGATATTGAAGAGTTTGACCACATTGGTTCGACGCTGGAAAG
CACGTTTGAAGAATTAGAAGCTCAGAAGCGATCGTTTCGAGATCTGTTTAACTTCGCGTTATCGCCAATCATGGTGTGGT
CAGAAGCGGGCGTGCTGATCCAAATCAACCCCGCAGCTCGCAAAGAACTGGTGATCGAAAATGACATCGAAACCATGCAT
CCTGTATTTAAAGGATTCAAAGACAAACTGGTGCCACATTTAAGAATGGCAGCGCAGGGCGCGACACTGACGGGAGTGAA
CGTGCCTATTGGTGATAAAGTCTTTCGTTGGAACTTATCGCCAATTCGTGTCGATGGTGATATCAGCGGCATCATTGTTC
AAGGGCAAGATATTACAACGCTGATCGAAGCTGAAAAGCAAAGTAACTTAGCACGCAGAGAAGCCGAAAAATCCGCGCAA
GCGCGAGCTGACTTCTTGGCTAAAATGAGCCATGAAATTCGCACACCAATTAATGGTATTTTGGGTGTTGCGCAGCTACT
CAAAGATTCCGTGGAAGCGGAAGAGCAGAAGAATCAAATCGATGTTCTTCGCCACAGTGGTGAGCACTTACTTGCTGTAT
TGAATGATATTTTGGACTTCTCAAAGATTGAACAAGGCAAGTTCAATATCCAAAAACATCCTTTCTCCTTCGCTGATACC
ATGCGAACGCTAGAAAACATCTATCGCCCTATTTGTGAAAACAAAGGGGTTGAACTTGTCATTGAAAACCAGCTTGATGG
CAATGTAGAGATTTTCACTGACCAAGTTCGCCTGAATCAAATTCTGTTTAATTTAGTCAGTAACGCGGTGAAGTTCACGC
CATCGGGCTGCGTGCGTTTACATGCCGAGTTAGAGCAGTTTTATGGCGCAGACAATAGTGTGCTAGTGGTTGAAATCAGC
GATACGGGTATCGGTATTGAGTCCGACAAGTTGGATGAAATGTTCGAACCTTTTGTTCAAGAAGAAGCGACCACAACTCG
CGAATACGGTGGCAGTGGCCTTGGTTTGACCATCGTGAAAAACTTGGTCGATATGCTCGACGGGGATGTACAAGTTCGCA
GTCAGAAAGGGCAAGGAACCACATTTGTTGTTACGCTGCCAGTAAAAGATCGTGAGCGAGTTCTGGCTCCGTTGGATTCG
AGCCAACGCGTAAAACCTGCAGAGTTGTTTGATGAAAGTCTGAAAGTGTTGCTGGTGGAAGATAACCATACTAACGCCTT
TATTCTTAAAGCGTTTTGTACCAAATACAAGATGCAGGTTGATTGGACGAAGGATGGGCTAGAAGCCATGGAGTTCTTAA
AAGATCACTCTTATGATTTGATTTTGATGGATAACCAACTTCCGCATCTTGGTGGCATCGAAACCACGAAAGAGATTCGT
CAAAACTTGAAATTGGGGACGCCAATTTACGCCTGCACCGCCGACACTGCGCAAGAAACCAGTGATGCATTTATGGAAGC
AGGCGCGAACTATGTTTTGCTGAAACCCATTAAAGAAAATGCACTCCACGAGGCTTTTGTTGACTTCAAGCTGCGCTTCT
TGATTGAACGGACATAG


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
  luxQ Vibrio cholerae strain A1552

45.863

98.601

0.452