NTDB

Overview

Name	chiS	Type	Regulator
Locus tag	PH545_RS01620	Genome accession	NZ_CP116414
Coordinates	321445..324831 (-)	Length	1128 a.a.
NCBI ID	WP_289880865.1	Uniprot ID	-
Organism	Vibrio harveyi strain K2014767
Function	chitin sensor (predicted from homology) Competence regulation

Genomic Context

Location: 316445..329831

Locus tag	Gene name	Coordinates (strand)	Size (bp)	Protein ID	Product	Description
PH545_RS01605 (PH545_01605)	-	316757..317782 (-)	1026	WP_005446315.1	ABC transporter permease	-
PH545_RS01610 (PH545_01610)	-	317785..318771 (-)	987	WP_005446316.1	ABC transporter permease	-
PH545_RS01615 (PH545_01615)	-	318942..320624 (-)	1683	WP_289880863.1	ABC transporter substrate-binding protein	-
PH545_RS01620 (PH545_01620)	chiS	321445..324831 (-)	3387	WP_289880865.1	response regulator	Regulator
PH545_RS01625 (PH545_01625)	-	324830..325063 (+)	234	WP_029790366.1	hypothetical protein	-
PH545_RS01630 (PH545_01630)	rsmC	325060..326085 (-)	1026	WP_289880868.1	16S rRNA (guanine(1207)-N(2))-methyltransferase RsmC	-
PH545_RS01635 (PH545_01635)	-	326162..327247 (-)	1086	WP_005449176.1	AI-2E family transporter	-
PH545_RS01640 (PH545_01640)	hemL	327607..328902 (-)	1296	Protein_287	glutamate-1-semialdehyde 2,1-aminomutase	-
PH545_RS01645 (PH545_01645)	erpA	329149..329490 (+)	342	WP_005449174.1	iron-sulfur cluster insertion protein ErpA	-

Sequence

Protein

Download Length: 1128 a.a. Molecular weight: 127550.32 Da Isoelectric Point: 5.3912

                                >NTDB_id=777279 PH545_RS01620 WP_289880865.1 321445..324831(-) (chiS) [Vibrio harveyi strain K2014767]

MFKFYKKQKFKRLQSTLMTAFLVLSITPLTITAIFFLQSHSKDLQEQSTSHLLSVRDTKQQQIIDYFAAQETEVMGFVRS

ELAYASGGRFYGLVNAFSRLGHDIDEARENAQQRYIKGSGDQIKTSILPESSNYVGSERYRLLHKRYHWAYLELLKRSDF

NDILLVDIDGNVTYSINKDDNYGTNLLTGRYKDTALGRTFKRLSEDVNARRKVNEDYTPVVVSDFDIENGKQVAWLGAPI

VQQGYLHSYAMFRLPNNGITKLIAEINRDSSIETLLVGSDHKPRTINTKQEEIQNSLEIVDKALAGDTEVGTYSNRLGEE

MIAAFAPIETRGLTWAIVVQLPEKEAFARVHQLEKLFVIAMLIAIILVVIASHYLSNFITSPLLKLTWAAEKVSAGDLDE

TTFNTERKDEIGRLAISFERMQRSIREKIQTIKQQNEELESNIKLIQKQNEELQLADKLKDEFLATTSHELRTPLHGMVG

IAETLVSGANGAIPASQKYQLDIIIKSGQRLANLVDDLLDYHKMRYGSMDIQKSAVSLASATRLVLELSSHLLGNKTIRI

INQVPADLKAVSADPQRLEQVLYNLIGNAIKYTSEGKIVISATVVDDQVRVQVVDTGQGIPAEHLEHIFEPLIQAYQDAS

RYRQGAGLGLSISRQLIELMGGSLYVSSQPMVGTTFSFTLPLANEEEIQATQSLAARGHFQIPEANFENNDDLSLPENPD

GPLLYVADDEPVNLRVLESFLRLEGYRVRTISDGPETLALIEQEKPELLLLDIMMPGMSGYQVCSELRETYDHAELPIIM

LTALSQTEDRVRGFEAGANDYLTKPFNKQELAARIQAHLTASKAEMRHIENKLLESELRQRAEVEASLLETQGRLLEQLE

SAPEAIICLREDQRIRFANEAACKLFKRSLEQLKRSSADELIAPKFLTVKQPHYCGKIDIYIEDIRQNIEADILKLPEGS

GLDVMYIFNVGGGANAARIHNLETAVEVLSSYAFDGDKDQLQKLKELGGEFTRLADKALGNKKDKQELMREVLVDTMTHA

LEYWESVTGETKFAFAEQSGLWRVYLDRSTLQTRTLDKYMRIETLPKTPRWRTVLSSIEFILEHCKEQSPERAYIEAQRD

KMQRLLTS

Nucleotide

Download Length: 3387 bp

                                >NTDB_id=777279 PH545_RS01620 WP_289880865.1 321445..324831(-) (chiS) [Vibrio harveyi strain K2014767]

ATGTTTAAATTCTACAAAAAGCAGAAATTTAAGCGCCTGCAAAGCACGCTAATGACCGCGTTTTTGGTTCTTAGTATCAC

GCCACTGACGATAACTGCGATTTTCTTCCTGCAATCACACAGTAAAGATCTTCAAGAACAAAGCACATCGCACCTTCTTT

CAGTTCGTGATACCAAACAACAACAAATCATCGACTACTTTGCAGCTCAAGAGACTGAAGTCATGGGCTTCGTACGCTCC

GAACTTGCTTACGCCAGCGGCGGACGATTCTACGGTTTGGTCAATGCGTTTAGTCGCTTGGGTCACGATATTGATGAAGC

CAGAGAAAACGCACAGCAGCGCTATATCAAAGGCAGTGGCGATCAAATCAAAACCTCGATTTTACCGGAATCATCTAACT

ACGTTGGCAGCGAACGTTACCGCCTATTGCACAAACGTTACCACTGGGCATACCTAGAGCTGTTAAAGCGATCTGATTTT

AATGACATTTTATTGGTTGATATCGATGGTAATGTCACTTACTCAATCAATAAAGACGACAACTATGGCACTAACCTACT

GACAGGACGCTACAAAGATACGGCGCTAGGGCGCACCTTTAAACGTTTGTCTGAAGATGTGAATGCACGTCGTAAGGTCA

ATGAAGATTACACGCCAGTTGTCGTGTCTGACTTTGATATCGAAAACGGTAAACAAGTCGCTTGGCTCGGCGCACCGATT

GTCCAACAAGGCTACCTGCACAGCTATGCGATGTTCCGCTTACCAAACAACGGCATTACTAAGCTTATTGCTGAAATCAA

CCGCGATTCCTCGATTGAAACCTTACTAGTGGGCAGCGATCATAAACCTCGCACCATTAACACCAAACAGGAAGAAATCC

AAAACAGCTTAGAGATTGTCGATAAAGCACTCGCAGGCGACACAGAAGTAGGTACTTACAGCAACCGCTTGGGTGAAGAG

ATGATTGCGGCATTTGCGCCAATTGAAACTCGCGGTCTAACTTGGGCGATTGTCGTACAACTTCCAGAAAAAGAAGCCTT

TGCTCGAGTCCACCAGCTCGAGAAGCTGTTTGTTATTGCGATGCTGATTGCGATCATCTTGGTTGTGATCGCCTCACACT

ACTTATCTAATTTCATCACCTCCCCGCTTCTTAAGCTGACTTGGGCAGCAGAGAAAGTATCTGCTGGTGATCTGGACGAA

ACGACCTTTAATACAGAGCGTAAAGATGAAATCGGTCGACTCGCGATCAGCTTTGAGCGCATGCAACGCTCAATTCGAGA

AAAGATCCAAACCATTAAGCAGCAAAATGAAGAGCTAGAAAGCAACATCAAATTGATCCAAAAGCAAAACGAAGAATTGC

AGTTGGCAGATAAGCTGAAAGATGAGTTCCTAGCGACAACCTCTCACGAGTTACGTACACCATTACACGGTATGGTCGGC

ATTGCAGAGACTTTAGTATCTGGTGCTAATGGTGCAATTCCTGCGAGTCAAAAATACCAATTGGATATCATCATCAAAAG

TGGTCAACGTTTGGCAAATCTTGTTGACGATTTATTGGATTACCACAAGATGCGCTATGGCAGCATGGATATCCAAAAAT

CGGCAGTGAGCCTAGCAAGTGCGACTCGCTTGGTGCTTGAGCTTTCAAGTCATCTACTAGGTAACAAGACGATTCGTATC

ATTAACCAGGTCCCTGCCGATCTAAAAGCGGTGTCTGCCGATCCACAACGCTTGGAACAAGTACTGTACAACCTAATTGG

TAATGCAATTAAATATACTTCTGAAGGTAAGATCGTAATTTCTGCCACCGTCGTGGACGATCAAGTCCGCGTACAAGTGG

TTGATACTGGTCAGGGTATCCCGGCTGAACATCTTGAGCATATCTTTGAACCTTTAATTCAAGCTTACCAAGACGCTAGT

CGCTACCGTCAAGGCGCTGGTTTGGGTTTATCAATCAGCCGTCAACTTATCGAATTGATGGGTGGATCGTTATATGTAAG

TAGTCAACCAATGGTCGGCACTACATTTAGCTTTACTCTGCCACTTGCTAATGAAGAAGAGATTCAAGCAACACAGAGCC

TTGCGGCGCGTGGACACTTCCAAATTCCAGAAGCGAACTTTGAAAACAACGACGACTTATCATTACCAGAGAACCCTGAT

GGTCCGCTGTTGTATGTTGCTGATGACGAACCGGTTAACTTACGCGTTCTCGAAAGCTTCCTAAGGCTTGAAGGCTACCG

CGTACGCACTATTTCTGATGGTCCTGAAACACTTGCTTTAATCGAGCAAGAAAAACCAGAGTTGCTTCTACTCGATATCA

TGATGCCAGGCATGAGCGGCTACCAAGTATGTAGTGAGCTTAGAGAGACCTATGATCACGCAGAGCTTCCAATCATTATG

TTGACGGCATTAAGTCAGACAGAAGATCGAGTAAGAGGCTTCGAAGCTGGTGCGAATGACTACTTAACCAAGCCATTCAA

TAAGCAGGAACTCGCCGCACGTATTCAAGCGCACTTAACCGCAAGTAAAGCAGAAATGCGCCACATCGAGAACAAGTTAC

TGGAATCGGAGCTGCGCCAGCGTGCTGAAGTAGAAGCTAGCTTGCTTGAAACTCAAGGTCGATTATTAGAACAACTAGAA

TCAGCACCTGAAGCCATTATTTGCCTTCGCGAGGATCAACGTATTCGCTTTGCGAATGAAGCGGCATGTAAGCTATTTAA

ACGCAGCTTAGAGCAGTTAAAACGCTCTTCGGCAGATGAACTTATTGCACCTAAATTCCTGACAGTTAAACAACCACATT

ACTGTGGCAAGATTGATATTTACATCGAAGATATTCGTCAAAACATTGAAGCAGACATTCTCAAACTACCTGAAGGCTCT

GGTCTAGATGTTATGTACATCTTTAACGTAGGCGGTGGTGCAAACGCAGCTCGTATCCATAATCTAGAAACCGCGGTTGA

AGTTCTATCAAGTTATGCGTTTGATGGTGATAAAGACCAATTGCAGAAGCTAAAAGAACTTGGCGGTGAGTTTACTCGCC

TTGCAGATAAAGCATTGGGGAACAAGAAAGATAAACAAGAGCTGATGCGCGAAGTATTAGTCGATACGATGACTCATGCA

TTGGAATACTGGGAATCAGTGACTGGAGAAACTAAGTTTGCTTTTGCGGAGCAAAGTGGTTTATGGCGTGTCTACCTCGA

CCGCAGTACGTTGCAAACTCGGACACTCGATAAATACATGCGCATTGAGACATTACCAAAAACACCGCGCTGGAGAACGG

TTCTAAGCTCAATCGAGTTCATTCTTGAGCACTGTAAAGAACAAAGCCCTGAACGAGCTTACATTGAAGCGCAACGCGAT

AAAATGCAAAGGCTCCTTACAAGTTAA

Domains

Predicted by InterproScan.

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

(460-525)

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

(574-683)

Response regulator receiver domain (Response_reg)

(726-836)

HAMP domain (HAMP)

(375-427)

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	76.705	100	0.768

Detailed information NTG0777279