NTDB

Overview

Name	fimV	Type	Machinery gene
Locus tag	PAKAF_RS09365	Genome accession	NZ_LR657304
Coordinates	1992909..1995668 (+)	Length	919 a.a.
NCBI ID	WP_016253171.1	Uniprot ID	-
Organism	Pseudomonas aeruginosa PAK
Function	assembly of type IV pilus DNA binding and uptake

Function

P. aeruginosa in biofilms is competent for natural transformation of both genomic and plasmid DNA. All T4P mutants were capable of some natural transformation of pUCPSK, however a significant reduction in transformation frequency compared to wild-type PAK was observed.

Genomic Context

Location: 1987909..2000668

Locus tag	Gene name	Coordinates (strand)	Size (bp)	Protein ID	Product	Description
PAKAF_RS09345 (PAKAF_01864)	-	1988544..1989305 (+)	762	WP_003091396.1	class I SAM-dependent methyltransferase	-
PAKAF_RS09350 (PAKAF_01865)	leuB	1989364..1990446 (+)	1083	WP_003091395.1	3-isopropylmalate dehydrogenase	-
PAKAF_RS09355 (PAKAF_01866)	asd	1990516..1991628 (+)	1113	WP_003111187.1	aspartate-semialdehyde dehydrogenase	-
PAKAF_RS09360 (PAKAF_01867)	-	1991730..1992740 (+)	1011	WP_003115016.1	aspartate-semialdehyde dehydrogenase	-
PAKAF_RS09365 (PAKAF_01868)	fimV	1992909..1995668 (+)	2760	WP_016253171.1	motility hub landmark protein FimV	Machinery gene
PAKAF_RS09370 (PAKAF_01869)	truA	1995690..1996547 (+)	858	WP_003091390.1	tRNA pseudouridine(38-40) synthase TruA	-
PAKAF_RS09375 (PAKAF_01870)	-	1996637..1997272 (+)	636	WP_003116445.1	phosphoribosylanthranilate isomerase	-
PAKAF_RS09380 (PAKAF_01871)	accD	1997541..1998413 (+)	873	WP_003104199.1	acetyl-CoA carboxylase, carboxyltransferase subunit beta	-
PAKAF_RS09385 (PAKAF_01872)	folC	1998410..1999699 (+)	1290	WP_003115014.1	bifunctional tetrahydrofolate synthase/dihydrofolate synthase	-
PAKAF_RS09390 (PAKAF_01873)	-	1999703..2000368 (+)	666	WP_016253172.1	SPOR domain-containing protein	-

Sequence

Protein

Download Length: 919 a.a. Molecular weight: 96959.20 Da Isoelectric Point: 3.9481

                                >NTDB_id=1196 PAKAF_RS09365 WP_016253171.1 1992909..1995668(+) (fimV) [Pseudomonas aeruginosa PAK]

MVRLRTLVRAIAAASVLTSGMAHGLGLGEITLKSALNQPLDAEIELLEVRDLGSGEVIPSLASPEEFSKAGVDRLYYLTD

LKFTPVVKPNGKSVIRVTSSKPVQEPYLNFLVQVLWPNGRLLREYTVLLDPPLYSPQAAASAPQAPVSAPRATGAPRAPQ

APAPVRTTAPAGSDTYRTVSNDTLWEIAQRNRTDRVSVPQAMLAFQELNPGAFVDGNINRLKSGQVLRIPTEQQMLERSP

REALSQVQAQNQSWRGSRNPAAGSAGARQLDATQRNAAGSAPSKVDATDNLRLVSGEGKASKGADKGGKGDSKAIADTLA

VTKESLDSTRRENEELQSRMQDLQSQLDKLQKLIQLKDAQLAKLQGQLGAEGQGAAQPNAALPDASQPNAAAQAPAQPGT

PAVAAPTPAPAGEAPAAPAQPPVAPPPAPAAERPPAPAVPAPAPVQAAEQPAPSFLDELLANPLWLAVIGGSALLALLVL

LMILSRRNAQKEKEEAQAFAADTGEEQEDALDLGKDGFDDLTLDEPEPQVAAVAPQVEKTTAQTSDALGEADIYIAYGRF

NQAAELLQNAIYDEPQRTDLRLKLMEVYAEMGDREGFARQENELREIGGAQPQVEQLKSRYPAMVAVAAVAGLAGAKLAQ

DELDSFSLDDLSLDDSGHAAKPDAAGQDLDDAFDLSLDDLGGDDVQADLKSDSGALDDLTLDSDLDLAASTAADKPVDDL

DFGLDFAELAETPSQPKHDDLGDFSLDLDAPEDKLSDDDFLLSLNDEVPAAAPADNEFTLDTEAAEEPALSLPDDFDLSL

ADEPTEPAAPEKGEDSFAAQLDEVSAQLDELASNLDEPKSATPSFSAEDAAVASALDGDADDDFDFLSGADEAATKLDLA

RAYIDMGDSEGARDILDEVLAEGNDSQQAEARELLERLA

Nucleotide

Download Length: 2760 bp

                                >NTDB_id=1196 PAKAF_RS09365 WP_016253171.1 1992909..1995668(+) (fimV) [Pseudomonas aeruginosa PAK]

ATGGTTCGGCTTCGTACACTGGTTCGGGCAATCGCGGCGGCCTCGGTCCTGACTTCCGGCATGGCGCATGGATTGGGACT

GGGGGAAATCACCCTGAAGTCGGCGTTGAACCAACCGTTGGATGCCGAGATCGAGCTGCTCGAAGTTCGTGACCTGGGTT

CGGGCGAGGTGATCCCGAGCCTGGCGTCGCCGGAAGAGTTCAGCAAGGCGGGCGTCGATCGCCTGTACTACCTCACCGAC

CTGAAGTTCACGCCGGTGGTGAAGCCCAACGGCAAGAGCGTCATTCGCGTGACCTCGTCGAAGCCGGTGCAGGAGCCCTA

CCTGAACTTCCTGGTCCAGGTGCTCTGGCCGAACGGCCGCCTGCTGCGCGAGTACACCGTCCTGCTGGATCCGCCGCTGT

ACTCCCCGCAGGCCGCGGCAAGCGCTCCGCAAGCGCCGGTCAGCGCGCCGCGCGCGACCGGCGCCCCGCGAGCCCCGCAG

GCTCCGGCTCCGGTGCGTACCACCGCGCCGGCAGGCAGCGACACCTATCGCACCGTTTCCAACGACACGCTCTGGGAGAT

CGCCCAGCGCAACCGTACCGATCGCGTTTCCGTACCCCAGGCGATGCTCGCGTTCCAGGAGCTGAATCCGGGCGCCTTCG

TCGATGGCAACATCAACCGGCTGAAGAGCGGCCAGGTCCTGCGCATTCCCACCGAACAGCAGATGCTGGAGCGCTCGCCG

CGCGAGGCGCTGTCCCAGGTGCAGGCGCAGAACCAGAGCTGGCGCGGCAGCCGCAATCCGGCCGCGGGCAGCGCTGGCGC

CAGGCAGTTGGATGCGACCCAGCGCAATGCCGCCGGGTCGGCGCCATCCAAGGTCGACGCCACGGACAATCTGCGCCTGG

TGTCTGGCGAGGGCAAGGCCAGCAAGGGTGCCGACAAGGGCGGAAAGGGCGACAGCAAGGCGATCGCCGATACCCTGGCG

GTGACCAAGGAAAGCCTCGACAGCACTCGCCGCGAGAACGAAGAACTGCAGAGTCGCATGCAGGATCTGCAGAGCCAGTT

GGACAAGCTGCAGAAGTTGATCCAGCTGAAGGACGCCCAGTTGGCCAAGCTGCAAGGGCAGTTGGGCGCCGAAGGCCAGG

GCGCAGCCCAGCCGAACGCAGCCCTGCCGGATGCGTCCCAGCCCAATGCGGCCGCGCAGGCGCCGGCTCAGCCCGGGACT

CCTGCTGTGGCAGCGCCGACTCCTGCTCCAGCCGGAGAAGCACCCGCCGCTCCGGCGCAGCCTCCGGTGGCGCCGCCGCC

CGCGCCAGCTGCCGAGAGGCCTCCGGCACCTGCCGTTCCGGCGCCCGCTCCGGTACAGGCGGCAGAGCAGCCGGCACCGA

GCTTCCTCGACGAACTGCTGGCCAACCCGCTGTGGTTGGCGGTGATCGGCGGTAGCGCACTGCTGGCGTTGCTGGTGCTG

CTGATGATCCTGTCGCGGCGCAATGCGCAGAAAGAGAAGGAAGAAGCCCAGGCTTTCGCCGCGGATACCGGCGAGGAACA

GGAGGATGCGCTGGACCTGGGAAAGGACGGCTTCGACGACCTGACCCTCGACGAGCCTGAGCCGCAGGTCGCAGCCGTCG

CTCCGCAGGTCGAGAAGACCACCGCGCAGACTTCCGATGCGCTGGGCGAGGCCGACATCTATATCGCCTACGGGCGTTTC

AACCAGGCCGCCGAACTGTTGCAGAACGCCATCTACGACGAGCCGCAGCGCACCGACCTGCGCCTCAAGCTGATGGAAGT

CTATGCCGAGATGGGCGATCGCGAAGGTTTCGCTCGCCAGGAAAACGAGCTGCGCGAAATCGGCGGCGCACAGCCGCAGG

TCGAGCAGCTCAAGTCGCGCTATCCGGCAATGGTCGCGGTCGCCGCGGTTGCCGGCCTGGCCGGCGCCAAGCTGGCGCAG

GACGAGCTGGATAGCTTCAGCCTCGACGATCTGTCGCTCGACGACAGCGGTCACGCGGCCAAGCCGGATGCGGCAGGACA

GGATCTCGACGACGCCTTCGACCTGAGCCTGGACGACCTGGGCGGCGACGACGTGCAGGCCGACCTCAAGTCCGACAGCG

GGGCGCTGGACGACCTGACCCTGGACAGCGATCTGGACCTGGCGGCCTCGACCGCGGCGGACAAGCCTGTCGACGATCTC

GACTTCGGCCTGGATTTCGCGGAGTTGGCAGAGACTCCGAGCCAACCCAAGCATGACGACCTGGGCGATTTCTCCCTGGA

TCTCGATGCGCCGGAAGACAAGCTTTCGGACGACGACTTCCTGCTTTCGCTGAACGACGAAGTGCCCGCCGCGGCGCCCG

CCGACAACGAATTCACCCTCGATACCGAGGCTGCCGAAGAGCCGGCGTTGTCCCTGCCGGACGACTTCGACCTGTCGCTG

GCCGACGAGCCGACGGAGCCGGCCGCTCCGGAGAAGGGCGAGGACAGTTTCGCCGCCCAGTTGGACGAGGTGAGTGCGCA

GTTGGACGAGTTGGCCAGCAACCTTGACGAGCCGAAGAGCGCGACGCCGAGTTTCTCCGCCGAAGATGCAGCGGTCGCCT

CCGCCCTGGACGGAGACGCCGACGATGACTTCGACTTCCTCTCCGGTGCCGACGAAGCGGCGACCAAGCTGGATCTGGCT

CGCGCCTACATCGACATGGGCGATAGCGAAGGCGCGCGCGATATCCTCGACGAAGTCCTGGCCGAAGGTAACGACAGCCA

GCAGGCGGAAGCCCGCGAGTTGCTGGAGCGCCTGGCCTGA

Domains

No domain identified.

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

References

[1]

Laura M Nolan et al. (2020) Pseudomonas aeruginosa is capable of natural transformation in biofilms. Microbiology (Reading, England) 166(10):995-1003. [PMID: 32749953]

Detailed information NTG0001196