Detailed information    

insolico Bioinformatically predicted

Overview

Name   chiS   Type   Regulator
Locus tag   FDP11_RS10885 Genome accession   NZ_CP040100
Coordinates   584741..588127 (-) Length   1128 a.a.
NCBI ID   WP_005461251.1    Uniprot ID   Q87LY0
Organism   Vibrio parahaemolyticus strain LVP1     
Function   chitin sensor (predicted from homology)   
Competence regulation

Genomic Context

Location: 579741..593127
Locus tag Gene name Coordinates (strand) Size (bp) Protein ID Product Description
  FDP11_RS10870 (FDP11_11690) - 579964..580989 (-) 1026 WP_005461261.1 ABC transporter permease -
  FDP11_RS10875 (FDP11_11695) - 580992..581978 (-) 987 WP_005461259.1 ABC transporter permease -
  FDP11_RS10880 (FDP11_11700) - 582149..583831 (-) 1683 WP_005461274.1 ABC transporter substrate-binding protein -
  FDP11_RS10885 (FDP11_11705) chiS 584741..588127 (-) 3387 WP_005461251.1 response regulator Regulator
  FDP11_RS10890 (FDP11_11715) rsmC 588354..589379 (-) 1026 WP_178981822.1 16S rRNA (guanine(1207)-N(2))-methyltransferase RsmC -
  FDP11_RS10895 (FDP11_11720) - 589466..590551 (-) 1086 WP_005461253.1 AI-2E family transporter -
  FDP11_RS10900 (FDP11_11725) hemL 590889..592184 (-) 1296 WP_005488434.1 glutamate-1-semialdehyde 2,1-aminomutase -
  FDP11_RS10905 (FDP11_11730) erpA 592432..592773 (+) 342 WP_005461279.1 iron-sulfur cluster insertion protein ErpA -

Sequence

Protein


Download         Length: 1128 a.a.        Molecular weight: 127348.05 Da        Isoelectric Point: 5.4383

>NTDB_id=362098 FDP11_RS10885 WP_005461251.1 584741..588127(-) (chiS) [Vibrio parahaemolyticus strain LVP1]
MFKFYKKQKFKRLQSTLMTAFLVLSITPLTITAIFFLQSHSKDLQEQSTSHLLSVRDTKQQQILDYFEAQETEVMGFVRS
ELAYASGGRFYGLVNAFSRLGNDIEEARENAQQRYIEGSGDQIKTSILPESSNYVGSERYRLLHKRYHWAYLELLKRSDF
NDILLVDINGNVTYSINKDDNYGTNLLTGRYKDSALGKTFKRLADDVNERRKVNEDYTPVIISDFELEHGRQVAWLGAPI
VQQGYLHSYAMFRLPNNGITKLIADKNRESSINTLLVGSDQQPRTINTKQDSIQNSLEVIDKALAGQTDVGTYTNGLGEE
IIAAFAPIQTRGITWALVVQLPEKEAFSRIHQLEKLFVIAMLIAIILVVIASHYLSNFITSPLLKLTWAAEKVSAGDLDE
TTFNTERKDEIGRLAISFERMQRSIREKIQTIKQQNEELESNIKLIQKQNDELQLADKLKDEFLATTSHELRTPLHGMVG
IAETLVSGANGVIPASQKYQLDIIIKSGQRLANLVDDLLDYHKMRYGSMDIQKSAVSLASATRLVLELSNHLLGNKTIRI
INQVPADLKAVSADPQRLEQVLYNLIGNAIKYTSEGKIVISATIVDDHVRVQVVDTGQGIPAEHLEHIFEPLIQAGQDAS
RYRQGAGLGLSISRQLIELMGGSLYVSSQPMVGTTFSFTLPLASEEEIQATQTLVARGHFQIPEINLENGDDLSLPENPD
GPLLYVADDEPVNLRVLESFLRLEGYRVRTVSDGPETLALVEQEKPELLLLDIMMPGMSGYQVCSELRETYDHAELPIIM
LTALSQTEDRVRGFEAGANDYLSKPFNKQELAARIQAHLTASKAEMRHMENKVLESELRQRAVVEASLLETQGRLLEQLE
SAPEAIICLREDQRIRFANEAACKLFKRSLEQLKRSSADELIAPKYLTVKQPHYCGKIDIYIEDIRQNIEADILKLPEGS
GLDVMYIFNVGGGANAARIHNLETAVEVLSSYAFDGDRDQLQKLKELGGEFTRLADKALGNKKDKQDLMREVLVDAMTHA
LDYWESVTGESKFAFAEQSGLWRVYLDRSTLQTRTLDKYMRIETLPKTPRWRTVLSSIEFILEHCKEQSPERAYIEAQRD
KLQRLLTS

Nucleotide


Download         Length: 3387 bp        

>NTDB_id=362098 FDP11_RS10885 WP_005461251.1 584741..588127(-) (chiS) [Vibrio parahaemolyticus strain LVP1]
ATGTTTAAATTCTACAAAAAACAGAAATTTAAGCGCCTTCAGAGTACGCTGATGACTGCGTTTCTTGTCCTCAGCATTAC
GCCTCTTACCATCACTGCGATTTTTTTCCTGCAATCCCATAGTAAAGATCTGCAAGAACAGAGCACTTCACATCTGCTTT
CTGTTCGTGATACCAAACAACAACAGATCCTCGACTACTTCGAAGCGCAAGAAACCGAAGTCATGGGATTTGTACGCTCT
GAGCTCGCGTATGCCAGTGGTGGTCGTTTTTACGGCCTCGTCAATGCATTTAGCCGTTTAGGCAATGATATTGAAGAAGC
ACGTGAAAATGCTCAGCAACGTTATATCGAAGGCAGCGGTGACCAAATCAAAACATCGATTTTGCCGGAGTCCTCAAATT
ATGTCGGTAGTGAACGTTATCGCTTACTCCACAAACGTTATCACTGGGCGTATCTGGAGCTACTCAAACGCTCAGATTTT
AATGATATTTTGCTGGTCGATATTAACGGCAACGTGACCTATTCCATCAACAAAGACGACAACTACGGTACTAACCTACT
AACGGGGCGCTACAAAGACTCGGCATTAGGAAAAACCTTCAAACGTCTAGCTGATGACGTCAACGAACGCCGCAAAGTGA
ATGAAGATTATACGCCCGTCATTATTTCTGATTTTGAACTGGAACATGGTCGACAAGTCGCTTGGCTTGGTGCACCTATC
GTTCAGCAAGGCTATTTGCACAGCTATGCTATGTTCCGTTTACCAAACAACGGCATTACCAAGCTGATCGCAGATAAAAA
CCGTGAATCGTCCATCAACACTCTACTGGTCGGCAGCGATCAACAACCACGTACGATTAATACCAAGCAAGACAGTATTC
AAAACAGTCTTGAAGTCATCGATAAGGCTTTAGCGGGACAAACCGACGTTGGCACCTACACCAATGGACTTGGCGAAGAA
ATTATCGCTGCATTTGCCCCAATTCAAACACGCGGCATTACATGGGCGCTCGTGGTTCAACTTCCAGAAAAAGAGGCGTT
TTCACGCATTCATCAACTGGAAAAACTCTTCGTTATCGCCATGCTAATCGCGATCATTCTTGTGGTGATTGCATCGCATT
ATTTGTCCAACTTCATTACATCACCACTGCTGAAACTGACTTGGGCAGCGGAGAAAGTATCCGCTGGCGACCTCGACGAA
ACGACATTCAATACCGAACGTAAAGATGAAATCGGTCGCTTGGCTATCAGCTTCGAACGTATGCAGCGCTCGATTCGAGA
AAAAATCCAAACCATTAAACAGCAAAACGAAGAACTTGAAAGCAACATCAAGCTGATTCAAAAGCAAAATGATGAGTTGC
AACTGGCTGATAAACTGAAAGATGAGTTCCTCGCAACAACCTCGCACGAATTGCGTACACCGCTACATGGCATGGTTGGG
ATAGCAGAAACCCTTGTGTCAGGAGCAAATGGAGTCATTCCCGCCAGTCAAAAATACCAACTTGATATCATTATCAAAAG
TGGTCAACGCTTAGCTAACCTCGTAGACGATTTATTGGATTACCACAAAATGCGCTATGGCAGCATGGATATCCAAAAAT
CGGCAGTAAGCTTAGCTAGTGCAACACGCTTGGTGCTTGAGCTTTCTAATCACCTGCTAGGCAATAAGACCATTCGCATC
ATCAACCAAGTACCAGCCGACCTTAAAGCCGTTTCGGCCGATCCTCAACGCCTCGAACAAGTGCTGTATAACTTGATTGG
CAATGCCATTAAATACACCTCAGAAGGTAAGATCGTCATTTCCGCTACCATTGTTGACGATCACGTCCGCGTGCAAGTGG
TCGATACTGGTCAGGGAATTCCAGCAGAGCATCTTGAGCATATTTTTGAGCCTTTAATTCAAGCTGGTCAAGATGCAAGT
CGCTATCGTCAAGGTGCGGGACTGGGATTATCGATTAGCCGCCAACTGATTGAGTTGATGGGCGGTTCACTTTACGTGAG
CAGTCAGCCGATGGTCGGCACCACGTTTAGTTTCACACTGCCATTGGCCAGCGAAGAGGAAATCCAAGCAACTCAAACCT
TAGTGGCGCGCGGGCACTTTCAAATTCCTGAGATTAATTTGGAAAATGGCGACGACTTATCGCTACCCGAGAACCCTGAT
GGCCCACTGCTTTACGTCGCAGATGATGAACCCGTTAACTTGCGAGTACTGGAAAGCTTCTTGCGCCTAGAAGGATACCG
CGTTCGTACCGTTTCAGATGGCCCAGAAACGCTGGCGCTGGTTGAACAAGAAAAGCCAGAACTGCTGTTACTCGATATTA
TGATGCCCGGCATGAGCGGCTACCAAGTATGTAGTGAACTACGTGAAACCTATGATCATGCTGAGCTACCGATCATTATG
CTCACCGCTCTCAGCCAAACAGAAGACCGTGTGAGAGGCTTTGAAGCAGGCGCGAATGACTACTTATCGAAGCCATTCAA
CAAGCAAGAGTTGGCGGCACGTATCCAAGCGCATTTAACAGCAAGTAAAGCGGAAATGCGCCATATGGAAAACAAAGTGC
TGGAGTCAGAGCTTAGACAGCGAGCTGTCGTCGAAGCAAGCCTTCTTGAAACTCAAGGTCGTTTGTTGGAACAGCTAGAA
TCTGCACCGGAAGCTATTATTTGTCTGCGAGAAGATCAGCGTATTCGTTTTGCCAACGAAGCGGCTTGTAAGCTATTCAA
ACGCAGTTTAGAGCAACTTAAACGCTCATCAGCTGACGAACTGATCGCACCAAAATATTTGACGGTGAAGCAGCCTCATT
ATTGCGGCAAGATTGATATCTACATCGAGGATATTCGTCAAAACATTGAAGCCGACATTCTAAAACTGCCAGAAGGCTCT
GGCTTAGATGTGATGTACATCTTTAATGTCGGTGGTGGAGCTAACGCCGCGCGTATTCATAACCTAGAAACTGCGGTAGA
AGTACTCTCAAGTTATGCATTCGATGGTGATAGAGACCAGTTGCAGAAACTCAAAGAGCTTGGTGGCGAGTTTACTCGTT
TGGCAGATAAGGCTTTGGGCAACAAAAAAGATAAGCAAGATTTGATGCGTGAAGTGTTGGTCGATGCCATGACGCATGCA
TTGGACTATTGGGAGTCTGTTACGGGTGAAAGTAAATTTGCGTTTGCCGAACAAAGTGGACTGTGGCGCGTCTACCTCGA
CCGAAGCACACTGCAAACCCGCACGCTCGATAAATACATGCGTATCGAAACTCTGCCTAAAACACCGCGCTGGAGAACGG
TTCTGAGTTCGATTGAGTTTATTCTTGAACACTGTAAAGAACAGAGCCCTGAACGTGCTTACATCGAAGCACAGCGCGAT
AAATTGCAAAGACTGCTCACTAGCTAA

Domains

Predicted by InterproScan.

Response regulator receiver domain (Response_reg)

(726-836)

HAMP domain (HAMP)

(375-427)

Histidine kinase-, DNA gyrase B-, and HSP90-like ATPase (HATPase_c)

(574-683)

His Kinase A (phospho-acceptor) domain (HisKA)

(460-525)


Secondary structure

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



3D structure

Source ID Structure
  AlphaFold DB Q87LY0

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
  chiS Vibrio cholerae strain A1552

76.882

100

0.77

Multiple sequence alignment