Detailed information    

insolico Bioinformatically predicted

Overview

Name   chiS   Type   Regulator
Locus tag   VUK15_RS17740 Genome accession   NZ_CP150462
Coordinates   2669102..2672494 (+) Length   1130 a.a.
NCBI ID   WP_340642096.1    Uniprot ID   -
Organism   Photobacterium damselae subsp. piscicida strain NH-LM2     
Function   chitin sensor (predicted from homology)   
Competence regulation

Genomic Context

Location: 2664102..2677494
Locus tag Gene name Coordinates (strand) Size (bp) Protein ID Product Description
  VUK15_RS17725 (VUK15_17725) hemL 2664814..2666106 (+) 1293 WP_005301305.1 glutamate-1-semialdehyde 2,1-aminomutase -
  VUK15_RS17730 (VUK15_17730) - 2666481..2667569 (+) 1089 WP_109375285.1 AI-2E family transporter -
  VUK15_RS17735 (VUK15_17735) rsmC 2667769..2668788 (+) 1020 WP_005301311.1 16S rRNA (guanine(1207)-N(2))-methyltransferase RsmC -
  VUK15_RS17740 (VUK15_17740) chiS 2669102..2672494 (+) 3393 WP_340642096.1 response regulator Regulator
  VUK15_RS17745 (VUK15_17745) - 2673195..2674871 (+) 1677 WP_068946919.1 ABC transporter substrate-binding protein -
  VUK15_RS17750 (VUK15_17750) - 2675018..2676004 (+) 987 WP_065172285.1 ABC transporter permease -
  VUK15_RS17755 (VUK15_17755) - 2676007..2677032 (+) 1026 WP_106142406.1 ABC transporter permease -

Sequence

Protein


Download         Length: 1130 a.a.        Molecular weight: 127198.31 Da        Isoelectric Point: 6.6791

>NTDB_id=970388 VUK15_RS17740 WP_340642096.1 2669102..2672494(+) (chiS) [Photobacterium damselae subsp. piscicida strain NH-LM2]
MQTKQRFKRLQHTLMLAFLVLSITPLTLSALYFLNSHSKDLAEQSTSHLASLLENKKKQLSQFFAAKESEVQSFARSELA
NASGGRFYGLVGAYHQLGNINNLLNGLTREQYFKEILTAKGQKSTTNSASYVGHERYRLMYKRYNWAFDEYLKRSDFSDI
LLVDLKGNVVYSAKKPQYFALNLASGKGALKGLQPTFQTISTQAQQLKQDQEVVPVAFADFNLGGNNQSEQAWFAAPIIQ
QGYLHSYVFFQLDINKIATLLADKPQNGQTVQTLLVGQDHHMRLPNSGDLPQQLISPAINQALAGKTGVGSLLNYNNIAV
LSAFTPIKIFNHTWALVVELPEKEAFARIHQLEKIFFAAMLTAIVLVILAALWLSNSITAPLLRLTWASERVSAGDLEQK
IEGTERKDEIGRLATSFARMQCSIREKMSLISKQNQELEKNIHVIKQQNDDLQTADKLKDEFLATTSHELRTPLHGMIGI
AESLLAGANGPMQGAQRRQLEMLINSGQRLTNLVDDLLDYHKMRYGDLDIDKHAVDLASAVRLVLELSGHLLGTKPVRII
NQIPADLPLVQADEQRLEQVLYNLVGNAIKYTSEGKIVLSATVLENQVRIQVVDTGQGIPAEQLEHIFEPLVQANTNHAN
YRQGAGLGLTISRQLLELMGGRLYVSSQPMVGTTFSFTLNIASDEQIRQSHDHGKIHHFQAPLCDATPIEMANLPENLNG
ELLLVVDDEPVNLQILNNFLRLEGYRVLTAESGKQALELVQSHKPALILLDIMMPEMSGYEVCSQLRQQYTPLELPIMML
SALGQVKDRVKGFECGANDYLTKPFNKEELTARIKAHLQAGKTEFEREKNRQLAQEIQQRKQVELSLLETQTRLLGLLES
TTEAILCIQNSGRIRYANDAAAKLFKRTPEQLERHSIDELLLTHLPDELQNNHHYSGSLCFKIGEQQQNLATDILNLPEE
SGLKQMFIFGNSGPSPQQRVQMIEEAIDVLSSYAFDGDKDNLQQLRELGGEFTRLADKLGNDAPNKQDILRELLVDAMRT
TLEVWEQDTKKTKFDLAEESGLWRVYLDRSTLQTRTLDKYLHVETLPKTPRWRTVISTIDYVLDKGSAQNIQHQQLSQMR
DKLQNLLRAS

Nucleotide


Download         Length: 3393 bp        

>NTDB_id=970388 VUK15_RS17740 WP_340642096.1 2669102..2672494(+) (chiS) [Photobacterium damselae subsp. piscicida strain NH-LM2]
ATGCAAACAAAACAACGATTTAAACGTCTTCAGCATACATTAATGCTGGCTTTTCTTGTTCTTAGTATTACGCCATTAAC
TCTCTCCGCACTGTATTTCCTCAACTCACACTCCAAGGATTTGGCAGAGCAAAGCACATCGCATTTGGCGTCTCTTCTTG
AGAATAAGAAAAAACAACTAAGCCAATTTTTTGCGGCTAAAGAGTCTGAGGTGCAAAGTTTTGCTCGATCAGAGCTTGCT
AATGCCAGTGGTGGCCGCTTCTATGGGTTAGTAGGGGCTTACCATCAATTAGGTAATATCAATAACCTGTTAAATGGCCT
GACGCGAGAGCAGTATTTTAAAGAGATTCTCACGGCAAAAGGGCAAAAAAGTACCACCAACAGTGCCAGTTATGTCGGCC
ATGAGCGCTATCGTTTAATGTATAAGCGTTATAACTGGGCATTTGATGAATACCTTAAGCGCTCAGATTTTAGTGATATC
TTATTGGTTGATTTAAAAGGTAATGTGGTCTATTCCGCGAAAAAACCACAGTACTTTGCTTTAAATCTTGCTTCAGGCAA
GGGAGCCTTAAAAGGGTTACAACCAACTTTCCAAACCATTAGCACTCAAGCGCAACAGCTAAAACAAGACCAAGAAGTCG
TCCCCGTTGCTTTTGCCGATTTTAACCTAGGAGGCAATAATCAGTCAGAACAAGCCTGGTTTGCCGCCCCAATCATTCAG
CAAGGGTATTTACACAGCTACGTATTTTTCCAGCTCGATATCAATAAAATCGCAACCTTACTGGCCGATAAACCGCAAAA
TGGGCAAACGGTTCAAACTCTATTAGTAGGCCAAGATCATCACATGCGCTTACCCAATAGTGGAGATTTGCCACAACAAT
TGATCAGCCCAGCCATCAACCAAGCACTTGCTGGTAAAACTGGGGTAGGCAGTTTGCTTAACTACAATAATATTGCCGTA
CTCAGTGCCTTTACTCCGATTAAAATCTTTAACCACACCTGGGCATTGGTAGTTGAATTACCCGAAAAAGAAGCATTTGC
TCGTATTCACCAACTCGAAAAAATCTTTTTTGCAGCCATGCTTACTGCCATCGTATTAGTGATTTTAGCCGCTCTTTGGT
TATCAAACTCAATAACGGCTCCCCTATTACGCTTAACTTGGGCATCGGAGCGAGTCTCTGCAGGCGATCTAGAACAAAAA
ATCGAAGGAACAGAACGTAAAGATGAAATTGGTCGTCTTGCCACTAGCTTTGCTCGAATGCAATGTTCTATTCGGGAAAA
GATGAGTTTGATTAGCAAGCAAAATCAAGAGCTTGAAAAAAACATTCACGTAATCAAACAACAAAATGATGATCTACAAA
CCGCCGATAAACTAAAAGATGAGTTCTTAGCGACAACCTCACATGAGTTGCGCACCCCTCTTCACGGTATGATTGGGATA
GCCGAATCCTTACTTGCTGGAGCAAATGGGCCAATGCAAGGAGCCCAACGCCGTCAATTGGAAATGTTGATCAACAGTGG
GCAGCGTCTAACGAACTTAGTTGATGATTTACTTGATTATCACAAAATGCGTTATGGCGATCTCGATATTGATAAACATG
CAGTCGATCTTGCCAGCGCTGTTCGGTTAGTCCTTGAATTATCAGGCCATTTATTGGGAACCAAACCGGTTCGAATCATT
AACCAAATACCCGCTGATTTACCTTTAGTTCAAGCCGATGAACAACGCCTAGAGCAAGTGCTGTATAACTTGGTTGGTAA
TGCAATCAAATATACCTCTGAAGGTAAGATTGTGCTTTCTGCAACAGTATTGGAAAACCAAGTTCGCATTCAAGTGGTTG
ATACAGGACAAGGAATTCCGGCAGAACAACTTGAACATATCTTTGAACCACTGGTACAAGCCAACACCAATCATGCTAAC
TATCGTCAAGGAGCGGGCCTTGGTTTAACCATTAGCCGTCAATTACTGGAGTTAATGGGTGGTCGCCTGTACGTCAGCAG
TCAGCCAATGGTGGGAACCACTTTTAGTTTCACCCTAAACATCGCCTCCGACGAACAAATTCGCCAAAGCCATGATCACG
GTAAAATTCATCACTTCCAAGCTCCATTGTGTGATGCCACTCCGATTGAAATGGCAAATTTACCTGAAAACTTAAATGGT
GAACTACTACTCGTGGTTGATGATGAACCCGTTAATCTTCAGATACTCAATAACTTCCTAAGACTTGAAGGGTATAGAGT
TCTCACTGCAGAAAGCGGAAAACAGGCCCTTGAGTTAGTACAAAGCCACAAACCTGCACTGATTTTGCTCGATATTATGA
TGCCAGAAATGAGTGGTTATGAGGTTTGTAGCCAATTGCGCCAACAATATACCCCATTAGAACTACCGATCATGATGCTA
TCTGCATTGGGGCAAGTTAAAGATCGCGTTAAAGGCTTTGAATGCGGCGCCAATGATTACCTAACAAAACCTTTTAATAA
AGAAGAGCTTACCGCACGTATAAAAGCCCATCTTCAAGCGGGAAAAACTGAATTTGAGCGAGAAAAAAATCGTCAATTAG
CTCAAGAAATTCAACAACGTAAGCAAGTTGAGTTAAGTTTACTTGAGACCCAAACTCGATTACTTGGCCTATTAGAATCC
ACCACCGAAGCCATTTTATGTATTCAAAATAGTGGGCGAATTCGTTATGCCAATGACGCTGCGGCTAAGTTATTTAAACG
CACCCCAGAACAATTGGAGCGCCACTCTATCGATGAACTACTGCTAACCCACCTACCTGATGAGTTACAAAATAATCATC
ATTACAGTGGTTCACTGTGTTTCAAAATTGGCGAACAGCAACAAAATCTGGCTACCGATATCCTCAATTTGCCAGAAGAG
TCTGGACTTAAGCAGATGTTTATCTTCGGCAATAGCGGGCCATCGCCACAGCAACGAGTACAAATGATCGAAGAAGCTAT
TGATGTTTTATCGAGCTATGCTTTTGATGGTGACAAAGACAACTTACAACAATTGCGTGAGCTAGGTGGAGAATTCACCA
GACTGGCAGACAAATTGGGTAATGATGCCCCTAATAAACAAGATATTTTGCGCGAATTGCTGGTTGATGCCATGCGTACA
ACACTTGAGGTTTGGGAGCAAGATACGAAAAAAACCAAGTTTGATTTAGCCGAAGAGAGTGGATTATGGCGTGTTTATCT
CGATCGTAGTACGCTACAAACTCGCACCTTAGATAAATATCTCCATGTTGAGACTCTTCCTAAAACGCCGCGTTGGCGCA
CGGTTATTAGCACCATAGACTATGTTCTTGATAAAGGCAGTGCTCAAAATATCCAACATCAACAGCTGAGCCAGATGCGA
GATAAATTGCAGAACTTATTACGAGCAAGTTAA

Domains

Predicted by InterproScan.

Response regulator receiver domain (Response_reg)

(724-835)

HAMP domain (HAMP)

(373-421)

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

(459-524)

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

(573-680)


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

58.85

100

0.589

Multiple sequence alignment