NTDB

Overview

Name	pilY1	Type	Machinery gene
Locus tag	OSV61_RS01570	Genome accession	NZ_CP113069
Coordinates	333516..337370 (+)	Length	1284 a.a.
NCBI ID	WP_065718863.1	Uniprot ID	-
Organism	Acinetobacter baumannii strain 29D2
Function	assembly of type IV pilus (predicted from homology) DNA binding and uptake

Genomic Context

Location: 328516..342370

Locus tag	Gene name	Coordinates (strand)	Size (bp)	Protein ID	Product	Description
OSV61_RS01540 (OSV61_01540)	gmk	328788..329417 (-)	630	WP_000015937.1	guanylate kinase	-
OSV61_RS01545 (OSV61_01545)	ispH	329540..330490 (+)	951	WP_000407064.1	4-hydroxy-3-methylbut-2-enyl diphosphate reductase	-
OSV61_RS01550 (OSV61_01550)	fimU	330660..331133 (+)	474	WP_065718862.1	GspH/FimT family pseudopilin	Machinery gene
OSV61_RS01555 (OSV61_01555)	pilV	331127..331687 (+)	561	WP_002194578.1	type IV pilus modification protein PilV	Machinery gene
OSV61_RS01560 (OSV61_01560)	pilW	331688..332689 (+)	1002	WP_000079197.1	PilW family protein	Machinery gene
OSV61_RS01565 (OSV61_01565)	pilX	332686..333504 (+)	819	WP_000149374.1	PilX N-terminal domain-containing pilus assembly protein	Machinery gene
OSV61_RS01570 (OSV61_01570)	pilY1	333516..337370 (+)	3855	WP_065718863.1	PilC/PilY family type IV pilus protein	Machinery gene
OSV61_RS01575 (OSV61_01575)	pilY2	337383..337865 (+)	483	WP_065718864.1	type IV pilin protein	Machinery gene
OSV61_RS01580 (OSV61_01580)	pilE	337862..338287 (+)	426	WP_000788339.1	type IV pilin protein	Machinery gene
OSV61_RS01585 (OSV61_01585)	rpsP	338434..338685 (+)	252	WP_000260334.1	30S ribosomal protein S16	-
OSV61_RS01590 (OSV61_01590)	rimM	338705..339253 (+)	549	WP_000189236.1	ribosome maturation factor RimM	-
OSV61_RS01595 (OSV61_01595)	trmD	339299..340039 (+)	741	WP_000464600.1	tRNA (guanosine(37)-N1)-methyltransferase TrmD	-
OSV61_RS01600 (OSV61_01600)	rplS	340248..340616 (+)	369	WP_000014562.1	50S ribosomal protein L19	-
OSV61_RS01605 (OSV61_01605)	-	340669..341610 (-)	942	WP_085916958.1	triacylglycerol lipase	-

Sequence

Protein

Download Length: 1284 a.a. Molecular weight: 137980.45 Da Isoelectric Point: 7.8987

                                >NTDB_id=759661 OSV61_RS01570 WP_065718863.1 333516..337370(+) (pilY1) [Acinetobacter baumannii strain 29D2]

MKLKLKNFKPNNLWYAVYSSSMIFTWLMTSSVVQASDLQIYASPTAGKKTIVMMLDTSGSMTNNSYGENRLAMLKNGMNA

FLASNNPVLNDTRVGLGNFSANGDSRSGQILVAAAPLGDASTLNTVGSQRYKLKQAVANLTAGGSTPSAHAYAEAAAYLM

GTTTYSETNYAIRKDSYIKRVRRSDNRTEYSYCTNYRDSQIDTANLWQPCRSNSYWSSWSTNNPGVDNATAYDTSSDWTY

YYTYYYTTFNYAVANADSGIPKSKSNDTASNPNIVVDRNATNSNAVYQSPLPAVANRQSCDGQGIYFLSDGEPNNTTNTR

SASVMSTALGSTFGADFNCSGGLSNTTADSGWACMGEFAKRLFDKTKNPAGVSIQTAFVGFGSDFSSLSSSDVKNACRLS

SRTQSDRKGDDACSPNQSTNAVAAPGYGNGGFFPTQSSQGVTDSVIAFINNLDKVPLEPLTTGAISVPYDALNPKNLQEY

GYLRAFEPNPANTYLTWRGNLKKYHVVLSGANAGAFEANSGGLVYNASGAFRTGTKDYWNSSTYTDGGKVFLGGSYANVP

LPIAGQPETRDAEGNITKYYYAVQSKIRNLFTDVSAVAADGSLTKISTSGTNLLKIPAAPPEGTNPFDTVANTASYVLGK

FDPSTGQNILKAFPISLKLKILNYLGYSTDINATTLPSSLVTSNEPYLSMGGSIHSLPVQLTYNGTLDDNGNLTSAREQS

ILYGTMEGGLHIVDASSGIEQMVFVPADILNDSVASKALVVGQSDASAPAHGMDGAWVSDPAYNITTVGSGSSAVSKVTA

KQMNIYGGMRMGGSSYYGLDVLSPTSPKLLFRIGADQTGYSRMGQSWSKPVLANIRYNGSIRRVLIVGGGYDQCYEKPNI

TLTDACFTNGKAKGNAVYIIDAKTGQRLWWTSDTGSNTDNANMKHSIVSRISTLDRDADGLVDHLYFGDLGGQIFRVDLN

NNQTKTNSTYSSFGVRVVRLANLATNDSTYDGTNDYTGGNAPRFYEPPTVTIHDYGIHTFITVGIASGDRSTPLDVYPLT

GREGMTPASALSGRPVNNVYGIIDRDFVKKNLMSLTDNQLETKDITRTGLRKNPQILRTGETRVAQIFFPTTGVGKGGWY

RSLSSTSDGTEKANNSFRIKGGLKAFEEPMAITGNLIIPVYDPQGTGIVAADPCLPRVVGETDRQTYCLPFGACLNPDGT

INSNKENPSGFQTKTGSNCPAGVSECNTNVIGAGIRNITFVPKRDEPPVTNSCGKLQLSGNENGTGEWQCTSHLLPVRWY

ERYR

Nucleotide

Download Length: 3855 bp

                                >NTDB_id=759661 OSV61_RS01570 WP_065718863.1 333516..337370(+) (pilY1) [Acinetobacter baumannii strain 29D2]

ATGAAACTAAAATTGAAGAATTTTAAGCCAAATAATTTGTGGTATGCCGTCTATTCAAGCTCAATGATATTCACATGGCT

AATGACAAGCTCTGTGGTGCAAGCAAGTGATTTACAAATTTATGCCTCACCTACAGCAGGTAAAAAAACAATTGTGATGA

TGTTGGATACATCAGGAAGTATGACCAACAATAGTTATGGTGAAAACCGCTTAGCCATGCTTAAAAATGGTATGAATGCT

TTTTTGGCTAGCAATAACCCTGTCTTAAATGATACGCGAGTAGGTTTAGGAAATTTCTCGGCAAATGGCGACAGCCGAAG

TGGACAAATCTTGGTGGCTGCTGCTCCTTTAGGAGATGCGAGTACTTTAAATACGGTAGGCTCACAACGTTATAAATTAA

AACAAGCTGTTGCTAATTTAACTGCAGGAGGCTCAACACCTTCAGCCCACGCTTATGCTGAAGCGGCTGCTTATTTGATG

GGAACAACCACATATTCAGAGACGAATTATGCTATTCGTAAAGATAGTTATATCAAACGTGTAAGAAGATCTGATAATAG

GACTGAATATTCATATTGTACTAATTACCGTGATTCGCAAATTGATACAGCCAACCTATGGCAACCTTGTCGTTCAAATA

GTTATTGGAGTAGCTGGTCAACAAATAATCCAGGTGTGGATAATGCTACTGCTTATGATACTTCATCTGACTGGACCTAT

TACTATACTTATTACTACACCACTTTTAATTATGCTGTAGCAAATGCAGATAGCGGTATTCCAAAATCTAAATCAAACGA

TACAGCTAGCAATCCGAATATTGTTGTAGACCGAAATGCTACTAACTCCAATGCAGTGTATCAGTCACCTTTACCTGCAG

TAGCGAATCGTCAGAGTTGTGATGGACAAGGTATTTACTTCTTATCGGATGGCGAACCGAACAATACAACAAATACACGT

TCGGCAAGTGTTATGTCGACTGCTTTAGGTAGTACTTTCGGAGCTGATTTTAATTGTTCTGGAGGTTTATCTAATACTAC

GGCAGACTCTGGTTGGGCTTGTATGGGGGAGTTTGCAAAAAGATTATTTGATAAAACAAAGAACCCTGCCGGAGTCTCTA

TTCAAACAGCATTTGTCGGTTTTGGTAGTGACTTTTCTAGTTTGAGTTCTTCTGATGTAAAAAATGCCTGCCGTTTAAGT

TCCAGAACCCAGTCTGACCGAAAAGGAGATGATGCGTGTTCACCGAATCAATCTACAAATGCGGTAGCTGCACCAGGTTA

TGGAAATGGTGGTTTTTTCCCTACTCAAAGTTCACAAGGCGTAACAGACAGCGTTATCGCATTTATTAATAATTTAGATA

AAGTTCCTCTAGAACCCTTAACCACAGGTGCTATCTCAGTTCCTTATGATGCATTGAATCCCAAAAATTTACAGGAATAT

GGTTATTTACGAGCTTTTGAGCCAAATCCAGCTAACACGTACTTAACATGGCGTGGAAATTTAAAGAAATATCATGTTGT

TTTATCTGGAGCGAATGCAGGTGCTTTTGAGGCCAATTCTGGCGGATTAGTCTACAATGCAAGTGGGGCTTTTAGGACTG

GAACAAAGGATTATTGGAATAGCTCTACTTATACTGACGGAGGCAAAGTCTTTTTAGGTGGTTCATATGCGAATGTGCCT

TTACCCATTGCTGGACAACCTGAAACACGTGATGCAGAAGGAAATATCACAAAATATTATTACGCAGTACAAAGTAAAAT

CCGCAACTTATTTACTGATGTTTCCGCCGTTGCAGCAGATGGTAGCTTAACGAAAATTTCAACTTCTGGAACTAATTTGC

TAAAAATTCCAGCTGCTCCACCAGAAGGAACTAATCCTTTTGATACGGTGGCTAATACAGCAAGTTATGTTTTAGGTAAA

TTTGATCCATCAACTGGACAAAATATTTTAAAAGCTTTTCCTATAAGCTTGAAATTAAAAATATTAAATTATTTAGGTTA

TTCAACAGATATTAATGCAACAACTCTGCCTTCATCTTTGGTTACATCGAATGAACCTTATTTATCGATGGGGGGAAGTA

TTCACTCTTTACCGGTTCAACTAACCTACAATGGAACACTAGATGATAATGGGAATTTAACATCTGCCCGAGAACAATCC

ATCCTCTATGGAACCATGGAAGGTGGATTACATATTGTGGATGCTTCATCTGGTATTGAGCAAATGGTCTTTGTTCCTGC

AGATATTTTAAATGATTCAGTTGCTTCCAAAGCTTTAGTTGTTGGTCAAAGTGATGCTTCAGCTCCCGCTCATGGTATGG

ACGGAGCTTGGGTATCTGATCCAGCCTATAATATTACTACAGTGGGAAGTGGTAGCTCGGCAGTATCAAAAGTAACTGCA

AAGCAAATGAATATTTATGGCGGCATGCGTATGGGAGGAAGTAGCTACTACGGACTAGATGTATTAAGCCCTACTTCACC

GAAACTGCTTTTTAGAATAGGGGCAGACCAGACTGGCTATAGCCGTATGGGTCAAAGCTGGTCTAAACCCGTACTCGCGA

ACATCCGTTATAACGGTTCTATTAGACGCGTCCTGATTGTTGGCGGTGGTTATGATCAGTGTTATGAAAAACCAAATATT

ACGTTGACTGACGCTTGCTTTACCAATGGTAAAGCAAAAGGAAATGCTGTCTATATTATTGACGCAAAAACTGGTCAGCG

TTTGTGGTGGACAAGTGATACAGGTTCTAATACTGATAACGCCAATATGAAGCATAGTATTGTTAGCCGTATTAGTACTT

TAGACCGTGATGCTGATGGCTTAGTCGACCATCTATATTTTGGAGATTTAGGCGGACAAATTTTTCGCGTGGACCTTAAT

AATAATCAGACAAAAACCAATTCGACCTATAGCAGTTTTGGTGTCAGAGTTGTGCGTTTAGCGAATTTAGCAACAAATGA

TTCAACTTATGATGGCACAAATGATTATACAGGTGGGAATGCTCCTCGTTTTTATGAGCCTCCAACAGTAACGATCCACG

ATTATGGAATTCACACTTTTATTACAGTAGGTATTGCATCAGGAGACCGTAGTACACCTTTAGACGTTTACCCACTCACA

GGCCGTGAAGGTATGACGCCTGCAAGTGCATTAAGTGGACGTCCTGTAAATAATGTATATGGAATTATTGATAGAGACTT

TGTTAAAAAGAACTTAATGTCTTTAACTGATAATCAGCTTGAAACAAAAGATATTACACGGACAGGCTTAAGAAAAAATC

CACAAATTCTAAGAACAGGTGAAACAAGAGTAGCTCAAATTTTCTTCCCCACTACAGGAGTAGGTAAAGGTGGTTGGTAT

CGCTCGCTTTCTAGTACGAGCGATGGTACAGAAAAAGCTAATAATAGTTTTCGTATTAAAGGAGGACTCAAAGCTTTTGA

GGAACCAATGGCAATTACGGGTAATTTAATTATTCCAGTTTATGACCCTCAAGGAACGGGAATTGTTGCGGCAGATCCTT

GCCTACCTCGTGTTGTGGGAGAAACAGACCGACAAACTTATTGTTTACCATTTGGTGCTTGTCTTAATCCGGATGGAACC

ATTAATTCAAATAAAGAAAACCCGAGCGGGTTTCAAACAAAAACTGGTAGTAACTGTCCAGCTGGAGTCTCTGAATGTAA

TACAAATGTCATTGGTGCAGGTATTCGTAATATCACATTTGTTCCAAAAAGAGATGAACCTCCTGTGACTAATAGTTGTG

GCAAATTACAGCTGTCTGGAAACGAGAACGGAACAGGTGAGTGGCAGTGTACAAGTCATTTACTTCCTGTGCGCTGGTAT

GAGCGCTATCGCTAG

Domains

Predicted by InterproScan.

von Willebrand factor type A domain (VWA_2)

(51-162)

Neisseria PilC beta-propeller domain (T4P_PilY1)

(715-964)

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
pilY1	Acinetobacter baumannii D1279779	88.45	100	0.889

Detailed information NTG0759661