Detailed information    

insolico Bioinformatically predicted

Overview

Name   chiS   Type   Regulator
Locus tag   FORC55_RS11575 Genome accession   NZ_CP016987
Coordinates   2458393..2461926 (+) Length   1177 a.a.
NCBI ID   WP_001892049.1    Uniprot ID   -
Organism   Vibrio cholerae strain FORC_055 isolate MFDS     
Function   chitin sensor (predicted from homology)   
Competence regulation

Genomic Context

Location: 2453393..2466926
Locus tag Gene name Coordinates (strand) Size (bp) Protein ID Product Description
  FORC55_RS11555 (FORC55_2196) erpA 2453958..2454299 (-) 342 WP_000005741.1 iron-sulfur cluster insertion protein ErpA -
  FORC55_RS11560 (FORC55_2197) hemL 2454583..2455881 (+) 1299 WP_000167257.1 glutamate-1-semialdehyde 2,1-aminomutase -
  FORC55_RS11565 (FORC55_2198) - 2456149..2457234 (+) 1086 WP_001290813.1 AI-2E family transporter -
  FORC55_RS11570 (FORC55_2199) rsmC 2457307..2458329 (+) 1023 WP_096070675.1 16S rRNA (guanine(1207)-N(2))-methyltransferase RsmC -
  FORC55_RS11575 (FORC55_2200) chiS 2458393..2461926 (+) 3534 WP_001892049.1 two-component system sensor histidine kinase ChiS Regulator
  FORC55_RS11585 (FORC55_2201) - 2462836..2464506 (+) 1671 WP_000880698.1 ABC transporter substrate-binding protein -
  FORC55_RS11590 (FORC55_2202) - 2464676..2465662 (+) 987 WP_000540337.1 ABC transporter permease -
  FORC55_RS11595 (FORC55_2203) - 2465665..2466690 (+) 1026 WP_000646270.1 ABC transporter permease -

Sequence

Protein


Download         Length: 1177 a.a.        Molecular weight: 133148.33 Da        Isoelectric Point: 6.8941

>NTDB_id=194325 FORC55_RS11575 WP_001892049.1 2458393..2461926(+) (chiS) [Vibrio cholerae strain FORC_055 isolate MFDS]
MRLCPRFSLDLLVKVKKLVNFVTLGFSCLSPTHAWRSPQSFTESNTLIMFRFYRKQKFKRLQNTLMAAFLALSIIPLTIT
ALFFLHSHSKDLEQQSTSYLVSVRDNKQQQVIDYMMAKESEVMGFVRSELAYASGGRFYGLVNAFQRLDVSIEAAREHAQ
QRYITGSGDQIKTSVLPQSSSYVGSERYRLLHKRYHWAYLELLKRSDFDDILLVDIDGNVVYSIYKYDNFGTNLLTGKYQ
DTNLGHTFKRLEQTVNEQRKTNEDFTPVVISDFVQEDGKQYAWLGAPIIQQGYLHSYAMFRLPSNAITKLIAEGSSNPSM
QTILVGQDHRSRTLTSAEIAVEKSKAVVDLALSGKRAVGTYTNTDGEQIIAAYAPINLKNIHWALVVELPEKEAFARVRQ
LEKLFVFAMLTAIVLVVIASHYLSNFITSPLLKLTWAAERVSAGDLDEAMINTERKDEIGRLAVSFERMQRSIREKISLI
KSQNKELESNLLIIRKQNDELQLANKLKDEFLATTSHELRTPLHGMIGIAEALISGANGPISAAHKYQLDIIISSGQRLA
TLVDDLLDYHKMRYGALDIQRCAVDLSSATRLVLELSHHLLGKKTLRIINQVSEQPVWVSADPQRLEQVLYNLIGNAIKY
TSEGKIVISATYIDDKVRVQVVDTGQGIPAEQLEHIFEPLIQAGHDASRYRQGAGLGLSISRQLIELMHGTLYVSSQPMV
GTTFSFTLPLASEEEIAQARLTELPHFQAPEVLDTELPEQSNLPENEHGPLLLVADDEPVNLRVLDSFLRLEGYRVHTAQ
DGHQVLEAIKREKPELVLLDIMMPGMSGYQVCEKLRQTYDHAELPIIMLTALNQSDDRVRGFEAGANDYLSKPFNKQELA
ARIVAHLTASKAELRRIENAQLQKELKHRAMVEASLLETQGRLLEQLESAPEAILCVKEGNKVRFANEAAARLFRRTPEQ
LKRSNAEELIAPKFLNIEQEHYCGNIDVYVDDVRQHLSADVLRLPQGSGLQAMYIFNVGGSVNAARIHNLETAVEALSSY
AFEGDKDKLQKLKELGGEFTRLADKASGEYQSKQDLMRAVLVEAMTSALNYWERVSGQSKFTFAEQSGLWRVYLDRSTLQ
TRTLDKYLRIETLPKTPRWRTVLNSLDYILEHCKEAGPERTHIEMQRDKLQKLLTSE

Nucleotide


Download         Length: 3534 bp        

>NTDB_id=194325 FORC55_RS11575 WP_001892049.1 2458393..2461926(+) (chiS) [Vibrio cholerae strain FORC_055 isolate MFDS]
TTGCGTCTATGCCCACGCTTTAGCTTGGACTTACTTGTCAAAGTAAAAAAACTCGTTAATTTCGTTACTTTAGGTTTTTC
TTGTCTATCACCCACTCATGCTTGGCGATCGCCGCAGAGTTTCACCGAAAGTAACACCTTAATTATGTTTAGGTTCTATC
GAAAACAAAAATTCAAACGCCTGCAAAATACCTTGATGGCTGCATTTTTGGCCCTCAGCATTATTCCTTTGACCATTACT
GCGTTGTTTTTCCTACATTCACACAGTAAAGATTTGGAGCAGCAGAGTACCTCTTACCTCGTTTCTGTTCGGGATAATAA
ACAGCAACAGGTCATCGACTACATGATGGCCAAAGAGTCGGAAGTGATGGGTTTTGTTCGCTCCGAGCTGGCTTATGCCA
GTGGCGGGCGTTTTTATGGTCTGGTGAATGCTTTCCAGCGTTTAGACGTCAGTATTGAAGCGGCTCGTGAACATGCTCAG
CAGCGCTATATCACCGGATCGGGTGACCAAATAAAAACCTCGGTGCTGCCCCAATCAAGCAGTTACGTGGGCAGTGAACG
CTATCGACTGCTGCATAAACGCTACCACTGGGCTTACTTAGAACTGCTGAAACGGTCGGACTTTGATGACATTTTATTGG
TCGATATTGATGGCAACGTCGTTTATTCGATTTATAAATACGACAATTTTGGCACCAACTTATTAACGGGCAAATACCAA
GACACCAATCTAGGCCATACCTTCAAGCGTTTAGAACAAACGGTCAATGAACAGCGCAAAACCAACGAAGATTTCACGCC
TGTCGTGATTTCTGATTTCGTACAAGAGGATGGTAAACAATACGCTTGGCTTGGCGCACCGATTATTCAGCAAGGCTACT
TGCATAGTTACGCGATGTTCCGCTTACCAAGCAATGCGATCACCAAACTCATCGCAGAAGGCAGTAGCAATCCTTCGATG
CAAACCATTCTGGTGGGACAAGATCACCGCTCAAGAACCTTAACTTCTGCCGAAATTGCGGTTGAAAAAAGTAAAGCTGT
GGTCGATTTAGCCTTATCGGGCAAACGCGCCGTAGGCACTTACACCAATACCGATGGTGAACAGATCATCGCGGCCTACG
CACCGATCAATTTGAAAAATATCCATTGGGCTCTGGTGGTTGAACTGCCAGAGAAAGAAGCGTTTGCTCGCGTTCGTCAG
TTAGAAAAACTGTTTGTTTTTGCGATGTTGACGGCTATCGTCTTAGTGGTCATCGCCTCGCATTACCTTTCCAATTTCAT
TACCTCACCGCTTTTGAAACTGACATGGGCAGCCGAACGTGTTTCGGCAGGCGATCTTGATGAAGCCATGATCAATACCG
AACGCAAAGATGAAATTGGCCGCTTGGCGGTCAGTTTTGAGCGTATGCAGCGTTCCATTCGCGAAAAAATATCGCTGATC
AAATCGCAAAATAAAGAGTTAGAGAGCAACTTACTGATCATTCGTAAACAAAACGATGAGTTACAGCTAGCGAATAAGCT
AAAAGATGAGTTCCTCGCGACCACATCACATGAATTACGCACCCCATTGCATGGCATGATTGGCATTGCCGAAGCGCTGA
TCTCGGGGGCAAATGGCCCGATTTCAGCAGCGCACAAGTATCAACTCGACATCATTATCAGCAGTGGGCAGCGCTTAGCG
ACTCTGGTTGATGATCTACTCGACTACCACAAAATGCGCTATGGCGCGCTGGATATTCAAAGGTGTGCCGTTGATTTATC
GAGCGCTACGCGCTTAGTCTTGGAGCTTTCTCACCATTTACTTGGCAAGAAAACGCTGCGCATTATTAATCAAGTCTCAG
AACAACCGGTCTGGGTTTCTGCGGATCCTCAACGCTTAGAGCAAGTCCTGTATAACTTGATCGGCAATGCCATTAAGTAC
ACTTCCGAAGGCAAAATTGTTATCTCCGCAACCTATATTGACGATAAAGTGCGAGTGCAGGTGGTGGATACAGGTCAAGG
GATTCCGGCAGAACAACTGGAGCACATCTTTGAGCCATTGATTCAAGCGGGCCATGATGCGAGTCGCTATCGCCAAGGCG
CAGGACTCGGGCTTTCCATCAGTCGTCAGTTAATCGAATTGATGCACGGCACTCTCTATGTAAGTAGTCAGCCGATGGTT
GGCACTACCTTTAGCTTCACGCTGCCTCTGGCGAGCGAAGAAGAGATTGCTCAAGCGCGCTTGACCGAGCTCCCCCACTT
CCAAGCACCGGAAGTGTTGGATACTGAACTGCCCGAGCAAAGCAACTTACCCGAAAATGAACATGGCCCACTTCTGTTGG
TCGCCGATGATGAACCAGTCAACCTGCGTGTGCTGGACAGCTTTTTACGTCTTGAAGGTTATCGCGTACATACCGCGCAA
GATGGCCATCAAGTACTTGAAGCAATTAAACGTGAAAAACCTGAATTGGTGTTACTCGACATCATGATGCCAGGCATGAG
CGGTTATCAAGTGTGTGAAAAACTTCGACAAACTTACGACCACGCTGAACTGCCTATTATTATGCTGACGGCTCTCAACC
AGTCTGATGACCGGGTACGAGGGTTTGAAGCTGGAGCCAATGACTACTTATCCAAACCATTCAACAAACAAGAGCTGGCC
GCGCGCATTGTCGCTCACCTCACGGCGAGCAAAGCCGAACTGCGCCGAATTGAGAATGCCCAACTGCAAAAAGAGTTGAA
GCATCGCGCTATGGTAGAAGCGAGCCTATTGGAAACCCAAGGCCGATTATTGGAGCAGTTAGAATCTGCGCCAGAAGCGA
TTTTGTGCGTCAAAGAAGGCAATAAAGTACGTTTTGCCAACGAAGCAGCAGCACGTTTATTTAGACGTACCCCTGAGCAG
CTCAAACGCTCCAACGCCGAAGAACTGATTGCACCTAAATTCTTGAATATTGAGCAAGAGCATTACTGCGGCAATATTGA
TGTTTACGTCGATGATGTGCGCCAGCACCTCTCTGCCGATGTCCTTCGCTTGCCGCAAGGTTCTGGCTTACAAGCGATGT
ACATTTTTAATGTCGGAGGCAGCGTCAATGCCGCGCGGATTCATAACCTCGAAACCGCGGTAGAAGCTCTGTCTAGCTAT
GCCTTCGAAGGCGATAAAGACAAGCTGCAAAAACTCAAGGAACTGGGTGGTGAGTTTACTCGTCTTGCAGATAAAGCCTC
GGGCGAGTATCAATCGAAACAAGATTTGATGCGTGCCGTGTTAGTCGAAGCCATGACCAGTGCCTTGAACTATTGGGAAC
GAGTCTCAGGACAAAGCAAGTTCACGTTTGCCGAACAAAGTGGATTATGGCGCGTTTATCTTGACCGCAGCACCCTACAA
ACTCGTACCCTAGACAAATACCTACGAATTGAGACACTGCCTAAAACACCGCGTTGGCGAACTGTACTGAACTCGCTCGA
CTATATTCTTGAGCATTGCAAAGAAGCAGGCCCTGAACGCACTCACATCGAAATGCAGCGCGATAAATTGCAAAAACTCC
TGACCAGTGAGTAA

Domains

Predicted by InterproScan.

PAS domain (PAS_8)

(927-961)

HAMP domain (HAMP)

(423-475)

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

(622-731)

Response regulator receiver domain (Response_reg)

(773-883)

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

(508-573)


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
  chiS Vibrio cholerae strain A1552

99.915

100

0.999

Multiple sequence alignment