NTDB

Overview

Name	chpA	Type	Regulator
Locus tag	F7R60_RS15925	Genome accession	NZ_CP044519
Coordinates	3333643..3338163 (-)	Length	1506 a.a.
NCBI ID	WP_000658904.1	Uniprot ID	-
Organism	Acinetobacter baumannii strain 29FS20
Function	regulation of type IV pilus assembly (predicted from homology) Competence regulation

Genomic Context

Location: 3328643..3343163

Locus tag	Gene name	Coordinates (strand)	Size (bp)	Protein ID	Product	Description
F7R60_RS15895 (F7R60_16085)	elsL	3329607..3330110 (-)	504	WP_000077301.1	cell wall-recycling L,D-carboxypeptidase ElsL	-
F7R60_RS15900 (F7R60_16090)	-	3330261..3330629 (-)	369	WP_001259501.1	YbaN family protein	-
F7R60_RS15905 (F7R60_16095)	-	3330734..3331642 (+)	909	WP_001017523.1	DUF1853 family protein	-
F7R60_RS15910 (F7R60_16100)	-	3331741..3331884 (+)	144	WP_001984826.1	entericidin A/B family lipoprotein	-
F7R60_RS15915 (F7R60_16105)	dapE	3332010..3333146 (+)	1137	WP_001016576.1	succinyl-diaminopimelate desuccinylase	-
F7R60_RS15920 (F7R60_16110)	-	3333182..3333646 (-)	465	WP_000678921.1	hypothetical protein	-
F7R60_RS15925 (F7R60_16115)	chpA	3333643..3338163 (-)	4521	WP_000658904.1	Hpt domain-containing protein	Regulator
F7R60_RS15930 (F7R60_16120)	-	3338310..3340388 (-)	2079	WP_000505931.1	methyl-accepting chemotaxis protein	-
F7R60_RS15935 (F7R60_16125)	-	3340435..3340971 (-)	537	WP_000729757.1	chemotaxis protein CheW	-
F7R60_RS15940 (F7R60_16130)	-	3341032..3341394 (-)	363	WP_000101096.1	PleD family two-component system response regulator	-
F7R60_RS15945 (F7R60_16135)	pilG	3341418..3341801 (-)	384	WP_000389061.1	twitching motility response regulator PilG	Regulator
F7R60_RS15950 (F7R60_16140)	-	3342084..3342722 (+)	639	WP_002027721.1	hypothetical protein	-

Sequence

Protein

Download Length: 1506 a.a. Molecular weight: 171774.99 Da Isoelectric Point: 4.2976

                                >NTDB_id=390794 F7R60_RS15925 WP_000658904.1 3333643..3338163(-) (chpA) [Acinetobacter baumannii strain 29FS20]

MKEILKTLTEAMTLPEDSYSEQDAEFLEIFIEEIEEIFVDLQPLINKWMQSENIATLTEIRRHFHTLKGSGRMIGAKSSA

ELAWTVEDTLNRVINQSLQLTPTIQSYVQLVFKFYFLKLVDNFKQKRAHTLDFRPLILLGQQLQQQQSLEPALEELLQLS

NTLTAETVTGLELDYIEQDSLAEPIIQDTHTEIEINLDETLTLFMEEAEEHLATIHQFLDQELHQYDSYNALIRALHTLR

GSSAMAQVETIFEASTKVEHLFKILLQEELSSHSEEILLLQEYREFVRDSLELLSRYSSSEQLKARLQQFNQSWDAYVEQ

HGDRTDPLMPSHGLVSQLLQLDVSELLDAELDFEKGIRNEFPDYLERLSEQADLLLQHTHSQAMLGLHEYTSQLKESYEV

LLDKPALLQSDYIFEIYQKAHQQLIQLFDALAAGQRVGVVKQHQSILEELKLYTQYTPDISNDLPQQDSTSFEPISNIEL

EPEVVATVENFSDSVDWAVLGQSVQQDRQYISSTQVNRNFDADLLDIFLEEAEELLEGIDTDLNIWVGEQENFAALNNLM

RYLHTLKGGANMVQATYLGLIAHELESIYERLIQKQLVATSDLIDFIRLVQDDLADRLQIMREQQLDYAAPYTINALKRA

GQNSNFQPLPVVEAFDTESEIFSEQEVISEIIIDEIPVELEPALAELETHHDQVFDTAVTELATPVEMITTVTSQESEVA

VDEQDIEAVVEQTFLEEATELLEMAESLLKQWFEQRTNRSILLQLQRAVHSLKGGARMVGLEAVQAIAYQLENAFEQFAL

HHFNSNIYDHLLESAIAWLKDAIFNHNYQHFDGLQQSLENIQFFETTIQIPTKLTRADLFSSEPVMTFIQGDGTEPPPMM

GAWEQTERLDQNNEMIRVSADLIEKMIDLSGENSINRSRIEMDLSQFSHTLVEMELAIQRLADQLRRMEGELETQIIAKH

GIEHSRYTDFDPLEMDQYSSLNQLSKSLAESASDLVDFKNTLSDKIRDTESLLLQQSRIQAEIQEGLMRTRLVPFSRLLP

RLQRIVRQTSTALNRPAELFVNNTEGELDRNILERLVTPLEHMLRNAIDHGLEDRMQRQQANKPETGRIELNIQRQGTDV

VVVFSDDGQGIDVEKVRQKALLAGLIKPEQDLEQQDILQLIFHPGLSTAEQVTQISGRGVGLDVVQSDIKSLGGHVSVES

VYGQGTTFTIRVPTTVAVSDALMVKVADQQFAIPLAQIDRIIRVSPASLEQYFESPQELFEYENKRYPLRYLSEFVGNQP

IPRLNGVMYSLPVLMIKANNGQAVALLVDQLIGSRAQIVVKPIGQQFSSIGAIAGATILGDGQVCLILDGQNIARQIQST

QRHEQLSEAVYRQRESDERRLIMIVDDSVTVRKVTSRLLERQGYDVVTAKDGVDAIEQLENIKPDLMLLDIEMPRMDGFE

VLNLVRHHDMHQYMPIIMITSRTGEKHRERAFSLGVSQYMGKPFQEEELLENIDALLVASESEVKS

Nucleotide

Download Length: 4521 bp

                                >NTDB_id=390794 F7R60_RS15925 WP_000658904.1 3333643..3338163(-) (chpA) [Acinetobacter baumannii strain 29FS20]

ATGAAAGAAATATTAAAAACTTTAACTGAAGCAATGACGCTACCTGAAGATAGCTATTCTGAACAAGATGCTGAGTTTCT

TGAGATCTTCATTGAAGAAATTGAAGAGATTTTTGTTGATTTGCAACCTTTGATAAATAAATGGATGCAGTCTGAGAATA

TTGCTACGCTCACTGAAATTCGTCGTCATTTCCATACCTTAAAAGGTTCCGGAAGAATGATTGGCGCTAAATCTTCAGCT

GAGCTTGCGTGGACAGTCGAAGATACACTCAACCGGGTAATCAACCAAAGCTTACAATTAACGCCAACTATTCAGAGCTA

TGTGCAGTTAGTATTTAAGTTCTATTTCCTTAAATTAGTAGATAATTTTAAGCAAAAACGAGCACATACCTTAGATTTCA

GACCTCTTATTTTATTAGGCCAACAACTACAACAACAGCAAAGTTTAGAACCAGCTTTAGAAGAGCTTTTACAACTTTCA

AATACGCTTACGGCCGAAACAGTGACTGGTCTTGAGCTAGATTATATTGAACAAGATTCGTTAGCCGAGCCAATCATTCA

AGATACACATACTGAAATTGAAATAAATCTAGATGAAACCTTGACCTTATTTATGGAAGAGGCGGAAGAACATTTAGCCA

CGATTCATCAATTTTTGGATCAAGAGTTACATCAGTACGACAGTTATAACGCTTTAATCCGCGCTTTACATACTTTGCGT

GGTAGTTCTGCAATGGCGCAGGTCGAAACAATTTTCGAGGCCAGTACCAAAGTTGAGCATTTATTTAAAATACTACTGCA

AGAAGAGTTATCTTCTCACTCTGAAGAAATTTTATTATTACAAGAATATCGTGAGTTTGTTCGAGATAGCTTGGAACTAC

TATCTAGATATAGTTCAAGTGAACAGCTCAAAGCGAGATTGCAGCAATTTAATCAATCTTGGGATGCATATGTTGAGCAA

CATGGTGACCGAACAGATCCGTTAATGCCTTCTCATGGTTTGGTATCGCAATTATTACAATTAGATGTTTCTGAATTATT

GGATGCAGAATTAGATTTTGAGAAGGGTATTCGTAATGAGTTTCCTGATTATCTTGAACGCCTAAGTGAACAGGCTGATT

TATTACTGCAACATACACATTCTCAAGCAATGCTGGGTTTACATGAATATACCAGCCAACTGAAAGAAAGTTATGAAGTG

CTGCTTGATAAACCTGCGTTATTACAATCAGACTATATATTTGAAATTTATCAAAAAGCGCATCAACAGCTCATTCAATT

ATTTGATGCTTTAGCTGCTGGTCAGCGAGTCGGTGTTGTTAAGCAACATCAAAGTATTTTAGAAGAATTAAAACTTTATA

CGCAGTACACTCCAGACATATCAAATGACCTACCTCAGCAGGATTCGACATCTTTTGAACCAATATCCAATATTGAACTA

GAGCCAGAAGTAGTAGCTACTGTAGAGAATTTCTCAGACTCTGTAGACTGGGCGGTATTAGGTCAAAGTGTGCAGCAAGA

TCGACAATATATTTCATCTACACAAGTGAATCGAAATTTTGATGCTGATCTTTTAGATATCTTTCTTGAGGAAGCTGAAG

AATTACTTGAGGGAATTGATACCGATCTTAATATTTGGGTAGGTGAGCAAGAAAACTTTGCAGCTCTGAACAATCTAATG

CGTTATTTGCATACCTTGAAAGGGGGCGCAAATATGGTTCAGGCAACGTATCTTGGTTTGATTGCCCATGAATTAGAAAG

CATCTATGAGCGTTTAATTCAAAAGCAATTAGTGGCAACTTCAGATTTAATTGATTTTATTCGTTTGGTTCAAGATGACT

TGGCTGACCGTTTACAAATCATGCGTGAACAACAACTAGATTATGCAGCCCCTTACACAATTAACGCATTAAAACGAGCG

GGTCAAAACTCTAACTTCCAACCTTTACCAGTGGTTGAGGCATTTGATACTGAAAGTGAGATATTCTCTGAGCAAGAGGT

GATATCTGAAATAATAATAGATGAGATACCAGTAGAACTTGAACCTGCTCTTGCAGAGCTAGAAACTCATCACGATCAGG

TATTCGATACAGCGGTTACCGAGTTAGCTACTCCAGTTGAGATGATTACCACGGTTACATCGCAAGAGAGTGAAGTTGCA

GTTGATGAACAGGACATTGAGGCTGTTGTTGAACAGACGTTCCTAGAAGAAGCTACTGAATTGTTAGAAATGGCTGAGTC

GCTATTAAAACAATGGTTTGAACAGCGTACAAACCGTAGTATTTTGCTTCAGCTTCAAAGAGCCGTACACAGTTTAAAAG

GTGGTGCACGAATGGTGGGTTTAGAAGCCGTACAAGCAATTGCCTACCAACTAGAAAATGCTTTTGAACAATTTGCGCTG

CATCACTTCAATTCGAATATTTATGATCATTTATTAGAAAGTGCGATTGCATGGTTAAAAGATGCAATTTTCAACCACAA

CTATCAGCATTTCGATGGATTACAGCAAAGTTTAGAAAATATTCAATTCTTTGAAACTACAATCCAGATTCCGACTAAGT

TAACTAGAGCGGACTTGTTTAGCTCAGAACCGGTGATGACCTTTATACAAGGTGATGGTACAGAGCCTCCACCAATGATG

GGAGCGTGGGAGCAAACAGAGCGTCTGGATCAGAATAATGAAATGATCCGTGTTTCAGCCGACTTAATCGAGAAAATGAT

TGATTTGTCTGGTGAAAACTCCATTAACCGTTCACGAATTGAAATGGACCTAAGCCAATTTAGCCATACACTGGTTGAAA

TGGAGTTGGCGATTCAACGGCTTGCCGATCAGTTGCGACGAATGGAAGGTGAGTTAGAAACACAGATTATTGCTAAACAT

GGAATTGAACATTCTCGTTATACTGACTTTGACCCATTAGAGATGGACCAATATTCATCTTTAAATCAATTGTCGAAATC

GCTTGCTGAATCTGCATCGGACTTGGTCGACTTTAAAAATACGTTATCTGACAAGATCAGAGATACCGAAAGTTTGCTTT

TACAACAATCAAGAATTCAAGCGGAAATTCAAGAAGGTTTAATGCGGACACGTTTGGTCCCATTTTCGCGTTTATTGCCG

CGTTTACAACGAATTGTTCGTCAGACGTCTACAGCATTGAATAGACCTGCTGAGCTTTTCGTAAATAATACGGAAGGTGA

GTTGGACCGCAATATTTTAGAACGGTTAGTGACTCCGCTTGAGCATATGCTCAGAAACGCAATTGACCATGGTTTAGAAG

ACCGAATGCAGCGGCAACAAGCAAATAAACCGGAAACAGGGCGTATTGAACTTAATATTCAGCGTCAAGGTACGGATGTT

GTGGTTGTCTTTAGTGATGATGGTCAAGGCATTGATGTTGAAAAAGTACGTCAAAAAGCACTCCTTGCCGGATTGATCAA

GCCAGAACAAGACTTAGAACAGCAAGACATACTGCAACTCATTTTCCATCCAGGTTTAAGTACAGCAGAGCAAGTCACTC

AGATTTCCGGACGTGGTGTAGGTCTTGATGTCGTACAGAGTGATATTAAGTCTTTGGGGGGACATGTCAGCGTTGAATCC

GTCTATGGGCAGGGAACAACATTTACGATTCGCGTACCGACTACAGTAGCGGTAAGTGATGCCTTAATGGTGAAAGTGGC

AGATCAACAATTTGCGATTCCACTCGCTCAAATCGATCGAATTATTCGAGTGTCACCAGCCTCTTTAGAGCAGTATTTTG

AAAGTCCTCAAGAACTATTTGAGTATGAAAATAAACGTTATCCATTACGTTATCTTTCAGAATTTGTTGGCAACCAACCC

ATACCACGTCTAAATGGCGTGATGTATTCATTACCTGTGTTAATGATTAAAGCCAATAATGGCCAAGCTGTGGCACTACT

TGTTGACCAGTTAATTGGCTCTCGAGCACAAATTGTAGTGAAACCAATTGGTCAACAGTTCTCTAGCATTGGAGCAATTG

CAGGCGCCACAATTTTAGGTGATGGACAGGTCTGCTTAATTTTAGATGGACAAAATATTGCGCGACAAATTCAGTCAACT

CAGCGTCATGAACAACTTAGTGAAGCAGTGTATAGACAACGAGAGTCTGATGAACGCCGCCTCATCATGATTGTAGATGA

CTCAGTAACTGTACGTAAGGTCACGTCCCGATTGCTTGAACGTCAAGGCTATGATGTGGTTACGGCTAAAGATGGTGTTG

ACGCCATAGAGCAGTTAGAAAATATTAAGCCAGATTTGATGCTACTTGATATTGAAATGCCACGTATGGATGGTTTTGAG

GTTCTCAATCTTGTACGACATCATGATATGCATCAATACATGCCAATTATTATGATTACATCTAGAACAGGCGAAAAACA

TCGTGAACGAGCATTCTCGTTAGGTGTAAGTCAATATATGGGTAAACCTTTCCAAGAAGAAGAGTTACTAGAGAATATCG

ATGCTTTACTTGTAGCGTCTGAAAGTGAGGTCAAATCATGA

Domains

Predicted by InterproScan.

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

(1078-1214)

(25-106)

(732-796)

(523-612)

(199-281)

CheW-like domain (CheW)

(1221-1356)

Response regulator receiver domain (Response_reg)

(1382-1493)

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
chpA	Acinetobacter baumannii strain A118	98.738	100	0.987

Detailed information

Overview

Genomic Context

Sequence

Protein

Nucleotide

Domains

Secondary structure

3D structure

Transmembrane helices

Similar proteins

Multiple sequence alignment

Detailed information NTG0390794

Overview

Genomic Context

Sequence

Protein

Nucleotide

Domains

Secondary structure

3D structure

Transmembrane helices

Similar proteins

Multiple sequence alignment Download

Detailed information

Multiple sequence alignment