Detailed information    

insolico Bioinformatically predicted

Overview

Name   chiS   Type   Regulator
Locus tag   GPY20_RS12915 Genome accession   NZ_CP046756
Coordinates   1260186..1263575 (-) Length   1129 a.a.
NCBI ID   WP_143683180.1    Uniprot ID   -
Organism   Vibrio fluvialis strain 2015AW-0077     
Function   chitin sensor (predicted from homology)   
Competence regulation

Genomic Context

Location: 1255186..1268575
Locus tag Gene name Coordinates (strand) Size (bp) Protein ID Product Description
  GPY20_RS12900 - 1255641..1256666 (-) 1026 WP_158130005.1 ABC transporter permease -
  GPY20_RS12905 - 1256669..1257655 (-) 987 WP_158130006.1 ABC transporter permease -
  GPY20_RS12910 - 1257821..1259491 (-) 1671 WP_020332024.1 ABC transporter substrate-binding protein -
  GPY20_RS12915 chiS 1260186..1263575 (-) 3390 WP_143683180.1 response regulator Regulator
  GPY20_RS12920 rsmC 1263780..1264802 (-) 1023 WP_158130007.1 16S rRNA (guanine(1207)-N(2))-methyltransferase RsmC -
  GPY20_RS12925 - 1264887..1265972 (-) 1086 WP_024373684.1 AI-2E family transporter -
  GPY20_RS12930 - 1266009..1266167 (+) 159 WP_154184033.1 hypothetical protein -
  GPY20_RS12935 hemL 1266237..1267529 (-) 1293 WP_020332029.1 glutamate-1-semialdehyde 2,1-aminomutase -
  GPY20_RS12940 erpA 1267838..1268179 (+) 342 WP_020332030.1 iron-sulfur cluster insertion protein ErpA -

Sequence

Protein


Download         Length: 1129 a.a.        Molecular weight: 127856.44 Da        Isoelectric Point: 6.4644

>NTDB_id=407247 GPY20_RS12915 WP_143683180.1 1260186..1263575(-) (chiS) [Vibrio fluvialis strain 2015AW-0077]
MFRFNRKQKFKRLQNTLMLAFLVLSITPLTVTAIFFLQSHSKDLQEQSTSHLLSVRDTKQQQVIDYLTAKESEVMGFVRS
ELAYASGGRFYGLVNAFQRLGVDIDQAREHAQQRYVPGSGDQIKTSVLPESSSYVGSERYRLLHKRYHWAYMELLKRSDF
DDILLVDINGNVVYSIFKNANYGTNLLTGKFKDSNLGQTFRQLEQQVSEHRKTNEDYTPVVLSDFVDENGRQYAWMGAPI
IQQGYLHSYAMFRLPNNGITKLIADTNSTSSMRTLLVGQDHRSRTLAYEQPEIDKSTQVIDWALNGSRSVGTYTNQAGEK
TIAAYAPINLKDLHWALVVELPEKEAFARVRQLEKLFIFAMLTAIILVVIASHYLSNFITSPLLKLTWAAERVSAGDLDE
TMINTDRRDEIGRLAVSFERMQRSIREKMQLIKAQNKELESNIQVIRKQNDELQLANKLKDEFLATTSHELRTPLHGMIG
IAEALISGANGPINAAHKYQLDIIISSGQRLATLVDDLLDYHKMRYGNLDINRTAVNLSNATRLVLELSNHLLGKKPIRI
INQVAENPVWVSADAQRLEQVLYNLIGNAIKYTSEGKIVISANHVDNHIRVQVVDTGQGIPAEQLEHIFEPLIQAGHDTS
RYRQGAGLGLSISRQLIELMHGSLYVSSQPMVGTTFSFTLPIASEQEIAAAQLTQLPHFQAPEFTELDLPENHSIPENPN
GPLLLVADDEPVNLRVLDSFLRLEGYRVRTAQDGNEVLKAVAEEKPELLLLDIMMPGMSGYQVCEELRKTYDHAQLPVIM
LTALNQTDDRVRGFEAGANDYLSKPFNKQELAARIIAHLTASKAEQRRIENAELQKELKHRAMVEASLLETQGRLLEQLE
SAPEAIVCIREDHKIRFANEAASRLFKRSQEQIKRSNADELIAPKYLLVEQEHYCGNVDIFVDDIRQHVNADVLRLPEGA
GLQAMYIFNVGGSINAARIHNLETAVEALSSYAFEGDKDKLQQLKELGGEFTRLADKASGDSQSKQDLMRAVLVDAMTSA
LNYWEKVSGQSKFTFAEQSGLWRVYLDRSTLQTRTLDKYLRIETLPKTPRWRTVLNSLDYILDHCQEQGPERTYIEVQRD
KLQKLLTSE

Nucleotide


Download         Length: 3390 bp        

>NTDB_id=407247 GPY20_RS12915 WP_143683180.1 1260186..1263575(-) (chiS) [Vibrio fluvialis strain 2015AW-0077]
ATGTTTAGGTTCAATCGGAAGCAAAAGTTTAAGCGCCTGCAGAATACTCTTATGCTGGCGTTCCTGGTTCTCAGCATCAC
CCCTCTGACGGTGACGGCAATCTTTTTCCTTCAATCTCACAGTAAAGACTTGCAGGAACAAAGCACATCGCATCTTCTCT
CAGTACGGGATACCAAACAGCAGCAAGTAATCGACTACCTCACGGCTAAAGAGTCTGAAGTGATGGGCTTTGTCCGCTCA
GAACTTGCTTATGCCAGTGGCGGTCGCTTCTATGGATTGGTCAACGCATTTCAGCGCTTGGGAGTCGATATCGATCAGGC
GCGCGAGCATGCGCAGCAACGTTATGTGCCGGGTTCCGGCGACCAAATTAAAACCTCCGTGTTACCAGAGTCGAGCAGTT
ACGTCGGCAGCGAACGCTATCGCTTGTTGCATAAACGCTACCACTGGGCATATATGGAACTGCTTAAGCGCTCCGATTTT
GACGATATTCTGTTGGTCGATATCAACGGAAACGTGGTGTATTCCATTTTTAAAAATGCCAACTACGGCACCAACCTGCT
GACGGGCAAATTTAAAGACAGTAATCTGGGTCAAACCTTCCGCCAACTAGAACAGCAGGTCAGCGAACACCGTAAAACCA
ATGAAGATTACACCCCTGTCGTACTGTCTGATTTTGTTGATGAAAATGGCCGTCAATATGCGTGGATGGGTGCACCAATC
ATTCAGCAAGGCTACTTGCACAGTTATGCGATGTTCCGCCTGCCCAATAATGGCATTACCAAGCTGATTGCAGATACCAA
CAGCACCTCTTCAATGCGCACTCTGTTGGTCGGCCAGGATCATCGCTCGCGTACCCTCGCTTACGAGCAACCAGAGATCG
ATAAGAGTACTCAAGTGATTGATTGGGCGCTGAACGGCAGTCGTTCTGTTGGCACTTATACTAATCAGGCCGGGGAAAAA
ACCATCGCCGCCTACGCCCCTATCAACCTCAAAGATTTGCATTGGGCACTGGTGGTTGAACTACCAGAAAAAGAGGCCTT
TGCGCGCGTCCGTCAGTTGGAGAAGCTGTTCATCTTCGCCATGCTGACCGCAATTATTTTGGTGGTGATCGCCTCACATT
ATCTGTCTAACTTCATTACATCTCCGCTCCTTAAACTGACCTGGGCAGCGGAGCGTGTCTCCGCTGGCGACTTGGATGAA
ACCATGATCAACACCGATCGGCGTGATGAAATTGGTCGGTTGGCGGTGAGTTTTGAACGTATGCAACGCTCTATTCGCGA
GAAGATGCAACTGATTAAGGCGCAGAATAAAGAGTTGGAAAGCAATATTCAGGTTATTCGTAAACAGAATGATGAATTGC
AGTTGGCCAACAAACTGAAAGATGAGTTTCTCGCCACAACTTCGCATGAACTCAGAACGCCTTTACATGGCATGATCGGA
ATTGCCGAGGCGCTGATTTCCGGCGCCAATGGTCCAATTAATGCGGCACACAAGTATCAGCTCGACATTATCATCAGTAG
CGGTCAACGACTGGCCACCTTGGTGGATGACTTGCTTGACTACCACAAAATGCGCTACGGCAATCTCGACATCAACAGGA
CTGCGGTTAATCTGTCCAATGCCACGCGTTTGGTGCTGGAACTGTCTAATCATCTGTTGGGCAAAAAGCCAATCCGCATT
ATTAATCAAGTCGCCGAAAATCCGGTGTGGGTATCTGCCGATGCCCAGCGTTTGGAACAGGTGTTGTACAACCTGATCGG
CAACGCCATCAAATACACCTCGGAAGGTAAGATTGTCATCTCAGCCAATCACGTGGATAACCATATTCGCGTTCAGGTCG
TGGATACCGGGCAAGGCATTCCGGCCGAACAGCTGGAACACATTTTTGAACCTCTGATTCAAGCCGGACATGACACCAGC
CGCTATCGTCAGGGCGCAGGACTCGGGCTCTCCATCAGCCGTCAGTTAATTGAGTTGATGCATGGCTCGCTGTATGTCAG
CAGCCAACCTATGGTTGGCACTACCTTTAGTTTCACCCTGCCAATCGCGTCAGAACAAGAGATTGCTGCCGCACAACTGA
CGCAGCTACCCCATTTCCAGGCTCCTGAATTTACGGAACTGGATCTGCCTGAGAATCATAGCATTCCGGAAAATCCGAAC
GGCCCACTGCTGTTAGTCGCGGATGATGAGCCAGTTAACTTACGTGTTCTGGACAGCTTCCTGCGTTTAGAAGGCTATCG
TGTACGCACCGCACAGGATGGCAATGAAGTGTTGAAAGCTGTGGCTGAAGAGAAACCGGAGCTGCTATTACTCGACATCA
TGATGCCCGGTATGAGCGGTTATCAGGTTTGTGAAGAGCTGCGTAAAACGTATGATCACGCTCAATTACCAGTAATTATG
CTGACCGCTCTGAATCAAACCGACGATCGCGTACGAGGCTTTGAAGCGGGTGCCAACGACTACCTGTCCAAACCTTTCAA
CAAACAGGAACTGGCTGCACGTATTATCGCGCACCTAACAGCGAGCAAAGCAGAACAACGTCGGATTGAAAACGCCGAGT
TGCAGAAAGAATTGAAGCACCGCGCGATGGTTGAGGCCAGTTTGCTGGAAACACAAGGACGTTTGTTGGAACAGCTGGAA
TCGGCACCGGAAGCCATTGTTTGTATTCGTGAAGATCACAAAATCCGCTTTGCCAATGAAGCTGCTTCGCGCCTGTTTAA
ACGCAGTCAGGAGCAAATCAAGCGTTCTAACGCAGATGAGTTGATCGCTCCGAAGTATCTGCTGGTCGAACAGGAACATT
ATTGCGGCAACGTCGATATTTTTGTTGATGATATCCGGCAACACGTCAATGCTGATGTCCTCCGCCTGCCAGAAGGCGCC
GGATTACAGGCAATGTATATCTTTAATGTGGGTGGTAGCATTAACGCTGCGCGTATTCATAACCTTGAAACCGCCGTTGA
AGCCCTGTCGAGCTATGCCTTTGAAGGCGACAAGGATAAGCTGCAGCAACTCAAAGAACTGGGGGGAGAATTTACCCGCC
TGGCTGACAAAGCTTCAGGAGACAGTCAATCTAAGCAGGACTTGATGCGCGCTGTCTTGGTGGATGCGATGACATCAGCC
CTCAACTATTGGGAGAAAGTTTCCGGGCAAAGTAAATTCACGTTCGCAGAACAAAGTGGGTTATGGCGCGTCTATCTGGA
CCGAAGCACGCTGCAGACCCGCACACTCGACAAGTATCTGCGTATCGAAACACTGCCTAAAACACCGCGGTGGCGCACGG
TACTCAATTCGCTGGATTACATTCTCGACCACTGTCAGGAACAGGGGCCTGAACGTACCTACATTGAAGTACAACGCGAT
AAACTGCAAAAGCTGCTCACCTCTGAATAA

Domains

Predicted by InterproScan.

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

(574-682)

HAMP domain (HAMP)

(375-427)

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

(460-525)

Response regulator receiver domain (Response_reg)

(725-835)


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

85.031

100

0.85

Multiple sequence alignment