NTDB

Overview

Name	chiS	Type	Regulator
Locus tag	BSG32_RS16015	Genome accession	NZ_CP022552
Coordinates	3161901..3165287 (+)	Length	1128 a.a.
NCBI ID	WP_089190114.1	Uniprot ID	-
Organism	Vibrio parahaemolyticus strain MAVP-R
Function	chitin sensor (predicted from homology) Competence regulation

Genomic Context

Location: 3156901..3170287

Locus tag	Gene name	Coordinates (strand)	Size (bp)	Protein ID	Product	Description
BSG32_RS15990 (BSG32_16000)	erpA	3157255..3157596 (-)	342	WP_005461279.1	iron-sulfur cluster insertion protein ErpA	-
BSG32_RS15995 (BSG32_16005)	hemL	3157844..3159139 (+)	1296	WP_005479079.1	glutamate-1-semialdehyde 2,1-aminomutase	-
BSG32_RS16000 (BSG32_16010)	-	3159477..3160562 (+)	1086	WP_005461253.1	AI-2E family transporter	-
BSG32_RS16005 (BSG32_16015)	rsmC	3160649..3161674 (+)	1026	WP_089190113.1	16S rRNA (guanine(1207)-N(2))-methyltransferase RsmC	-
BSG32_RS16015 (BSG32_16025)	chiS	3161901..3165287 (+)	3387	WP_089190114.1	response regulator	Regulator
BSG32_RS16020 (BSG32_16030)	-	3166199..3167881 (+)	1683	WP_005461274.1	ABC transporter substrate-binding protein	-
BSG32_RS16025 (BSG32_16035)	-	3168052..3169038 (+)	987	WP_005461259.1	ABC transporter permease	-
BSG32_RS16030 (BSG32_16040)	-	3169041..3170066 (+)	1026	WP_005461261.1	ABC transporter permease	-

Sequence

Protein

Download Length: 1128 a.a. Molecular weight: 127290.01 Da Isoelectric Point: 5.4981

                                >NTDB_id=240669 BSG32_RS16015 WP_089190114.1 3161901..3165287(+) (chiS) [Vibrio parahaemolyticus strain MAVP-R]

MFKFYKKQKFKRLQSTLMTAFLVLSITPLTITAIFFLQSHSKDLQEQSTSHLLSVRDTKQQQILDYFEAQETEVMGFVRS

ELAYASGGRFYGLVNAFSRLGNDIEEARENAQQRYIEGSGDQIKTSILPESSNYVGSERYRLLHKRYHWAYLELLKRSDF

NDILLVDINGNVTYSINKDDNYGTNLLTGRYKDSALGKTFKRLADDVNERRKVNEDYTPVIISDFELEHGRQVAWLGAPI

VQQGYLHSYAMFRLPNNGITKLIADKNRESSINTLLVGSDQQPRTINTKQDSIQNSLEVIDKALAGQTDVGTYTNGLGEE

IIAAFAPIQTRGITWALVVQLPEKEAFSRIHQLEKLFVIAMLIAIILVVIASHYLSNFITSPLLKLTWAAEKVSAGDLDE

TTFNTERKDEIGRLAISFERMQRSIREKIQTIKQQNEELESNIKLIQKQNDELQLADKLKDEFLATTSHELRTPLHGMVG

IAETLVSGANGVIPASQKYQLDIIIKSGQRLANLVDDLLDYHKMRYGSMDIQKSAVSLASATRLVLELSNHLLGNKTIRI

INQVPADLKAVSADPQRLEQVLYNLIGNAIKYTSEGKIVISATIVDDHVRVQVVDTGQGIPAEHLEHIFEPLIQAGQDAS

RYRQGAGLGLSISRQLIELMGGSLYVSSQPMVGTTFSFTLPLASEEEIQATQTLVARGHFQIPEINLENGGDLSLPENPD

GPLLYVADDEPVNLRVLESFLRLEGYRVRTVSDGPETLALVEQEKPELLLLDIMMPGMSGYQVCSELRETYDHAELPIIM

LTALSQTEDRVRGFEAGANDYLSKPFNKQELAARIQAHLTASKAEMRHMENKVLESELRQRAVVEASLLETQGRLLEQLE

SAPEAIICLREDQRIRFANEAACKLFKRSLEQLKRSSADELIAPKYLTVKQPHYCGKIDIYIEDIRQNIEADILKLPEGS

GLDVMYIFNVGGGANAARIHNLETAVEVLSSYAFDGDRDQLQKLKELGGEFTRLADKALGNKKDKQDLMREVLVDAMTHA

LDYWESVTGESKFAFAEQSGLWRVYLDRSTLQTRTLDKYMRIETLPKTPRWRTVLSSIEFILEHCKEQSPERAYIEAQRD

KLQRLLTS

Nucleotide

Download Length: 3387 bp

                                >NTDB_id=240669 BSG32_RS16015 WP_089190114.1 3161901..3165287(+) (chiS) [Vibrio parahaemolyticus strain MAVP-R]

ATGTTTAAATTCTACAAAAAACAGAAATTTAAGCGCCTTCAGAGTACGCTGATGACTGCGTTTCTTGTCCTCAGCATTAC

GCCTCTTACCATCACTGCGATTTTTTTCCTGCAATCCCATAGTAAAGATCTGCAAGAACAGAGCACTTCACATCTGCTTT

CTGTTCGTGATACCAAACAACAACAGATCCTCGACTACTTCGAAGCGCAAGAAACCGAAGTCATGGGATTTGTACGCTCT

GAGCTCGCGTATGCCAGTGGTGGTCGTTTTTACGGCCTCGTCAATGCATTTAGCCGTTTAGGCAATGATATTGAAGAAGC

ACGTGAAAATGCTCAGCAACGTTATATAGAAGGCAGCGGTGACCAAATCAAGACATCGATTTTGCCGGAGTCCTCAAATT

ATGTCGGCAGTGAACGTTATCGCTTACTCCACAAACGTTATCACTGGGCGTATCTGGAGCTACTCAAACGCTCAGATTTT

AATGATATTTTGCTGGTCGATATTAACGGCAACGTGACCTATTCCATCAATAAAGACGACAACTACGGTACTAACCTACT

AACAGGGCGCTATAAAGACTCGGCATTAGGTAAAACCTTTAAACGTCTAGCTGATGACGTCAACGAACGCCGCAAAGTGA

ATGAAGATTATACGCCCGTCATTATTTCTGATTTTGAACTGGAACATGGTCGACAAGTCGCTTGGCTTGGTGCACCTATC

GTTCAGCAAGGCTATTTGCACAGCTATGCTATGTTCCGTTTACCAAACAACGGCATTACCAAACTGATCGCAGATAAGAA

CCGTGAATCGTCCATCAACACTCTACTGGTCGGCAGCGATCAGCAACCACGTACGATTAATACCAAGCAAGACAGTATTC

AAAACAGTCTTGAAGTCATCGATAAAGCTTTAGCGGGACAAACCGACGTTGGCACCTACACCAATGGACTTGGCGAAGAA

ATTATCGCTGCATTTGCCCCAATTCAAACACGCGGTATTACATGGGCGCTCGTGGTTCAACTTCCAGAAAAAGAGGCGTT

TTCACGCATTCATCAACTGGAAAAGCTCTTCGTTATCGCCATGCTAATCGCGATCATTCTTGTGGTGATTGCATCGCATT

ATTTGTCCAACTTCATTACATCACCACTGCTGAAGCTGACTTGGGCGGCGGAGAAAGTATCCGCTGGCGACCTCGACGAA

ACGACATTCAATACCGAGCGTAAAGATGAAATCGGTCGCTTGGCTATCAGCTTCGAACGTATGCAGCGCTCGATTCGAGA

AAAAATCCAAACCATCAAACAGCAAAACGAAGAACTTGAAAGCAACATCAAGCTGATTCAGAAGCAAAATGATGAGTTGC

AACTGGCTGATAAACTGAAAGATGAGTTCCTCGCAACAACCTCGCACGAATTGCGTACACCGCTACATGGCATGGTTGGG

ATTGCAGAAACCCTCGTGTCAGGAGCAAATGGAGTCATTCCCGCCAGTCAAAAATACCAACTTGATATCATTATCAAGAG

TGGTCAACGCTTAGCTAACCTCGTAGACGATTTATTGGATTACCACAAAATGCGCTATGGCAGCATGGATATACAAAAAT

CGGCAGTAAGCTTAGCCAGTGCAACACGCTTGGTGCTTGAGCTTTCTAATCACCTGCTAGGCAATAAGACCATTCGCATC

ATCAACCAAGTACCCGCCGACCTTAAAGCCGTTTCGGCCGATCCTCAACGCCTCGAACAAGTGCTGTATAACTTGATTGG

CAATGCCATTAAATACACCTCAGAAGGTAAGATCGTCATTTCCGCTACCATTGTCGACGATCACGTCCGCGTGCAAGTGG

TCGATACTGGTCAGGGGATTCCAGCAGAACATCTTGAGCATATTTTTGAGCCTTTAATTCAAGCTGGTCAAGATGCAAGT

CGCTATCGTCAAGGTGCGGGACTGGGACTATCGATTAGCCGCCAACTGATTGAGTTGATGGGCGGTTCACTTTACGTGAG

CAGTCAGCCGATGGTCGGCACCACGTTTAGTTTCACACTGCCATTGGCCAGCGAAGAAGAAATCCAAGCAACTCAAACCT

TGGTGGCGCGCGGGCACTTTCAAATTCCTGAGATTAATTTGGAAAATGGCGGCGACTTATCGCTACCAGAGAACCCTGAT

GGCCCACTGCTTTACGTCGCAGATGATGAACCCGTTAACTTGCGAGTACTGGAAAGCTTCTTGCGCCTAGAAGGATACCG

CGTTCGTACCGTTTCAGATGGCCCAGAAACGCTGGCGCTGGTTGAACAAGAAAAGCCAGAACTGCTGTTACTCGACATTA

TGATGCCCGGCATGAGCGGCTACCAAGTATGTAGTGAACTACGTGAAACCTATGATCATGCTGAGCTACCTATCATTATG

CTCACCGCTCTCAGCCAAACAGAAGACCGTGTGAGAGGCTTTGAAGCAGGCGCGAATGACTACTTATCGAAGCCATTCAA

CAAACAAGAGTTGGCGGCACGTATCCAAGCGCATTTAACAGCAAGTAAAGCGGAAATGCGCCATATGGAAAACAAAGTGC

TGGAGTCAGAGCTTAGACAGCGAGCTGTCGTCGAAGCAAGCCTTCTTGAAACTCAAGGTCGTTTGTTAGAACAGCTAGAA

TCTGCACCGGAAGCTATTATTTGTCTGCGAGAAGATCAGCGTATTCGTTTTGCTAACGAAGCGGCTTGTAAGCTATTCAA

ACGCAGTTTAGAGCAACTTAAACGCTCGTCAGCTGACGAACTGATCGCACCAAAATATTTGACGGTGAAGCAGCCTCATT

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

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 (%)	H_a-value
chiS	Vibrio cholerae strain A1552	76.882	100	0.77

Detailed information

Overview

Genomic Context

Sequence

Protein

Nucleotide

Domains

Secondary structure

3D structure

Transmembrane helices

Similar proteins

Multiple sequence alignment

Detailed information NTG0240669

Overview

Genomic Context

Sequence

Protein

Nucleotide

Domains

Secondary structure

3D structure

Transmembrane helices

Similar proteins

Multiple sequence alignment Download

Detailed information

Multiple sequence alignment