Detailed information    

insolico Bioinformatically predicted

Overview

Name   pilY1   Type   Machinery gene
Locus tag   H0N28_RS16620 Genome accession   NZ_CP059041
Coordinates   3498689..3502543 (-) Length   1284 a.a.
NCBI ID   WP_000768958.1    Uniprot ID   -
Organism   Acinetobacter baumannii strain ATCC 17978     
Function   assembly of type IV pilus (predicted from homology)   
DNA binding and uptake

Genomic Context

Location: 3493689..3507543
Locus tag Gene name Coordinates (strand) Size (bp) Protein ID Product Description
  H0N28_RS16585 (H0N28_16590) - 3494451..3495392 (+) 942 WP_085943440.1 lipase family alpha/beta hydrolase -
  H0N28_RS16590 (H0N28_16595) rplS 3495444..3495812 (-) 369 WP_000014562.1 50S ribosomal protein L19 -
  H0N28_RS16595 (H0N28_16600) trmD 3496020..3496760 (-) 741 WP_000464596.1 tRNA (guanosine(37)-N1)-methyltransferase TrmD -
  H0N28_RS16600 (H0N28_16605) rimM 3496806..3497354 (-) 549 WP_000189236.1 ribosome maturation factor RimM -
  H0N28_RS16605 (H0N28_16610) rpsP 3497374..3497625 (-) 252 WP_000260334.1 30S ribosomal protein S16 -
  H0N28_RS16610 (H0N28_16615) pilE 3497772..3498197 (-) 426 WP_000788346.1 type IV pilin protein Machinery gene
  H0N28_RS16615 (H0N28_16620) pilY2 3498194..3498676 (-) 483 WP_001046417.1 type IV pilin protein Machinery gene
  H0N28_RS16620 (H0N28_16625) pilY1 3498689..3502543 (-) 3855 WP_000768958.1 PilC/PilY family type IV pilus protein Machinery gene
  H0N28_RS16625 (H0N28_16630) pilX 3502555..3503373 (-) 819 WP_000149378.1 PilX N-terminal domain-containing pilus assembly protein Machinery gene
  H0N28_RS16630 (H0N28_16635) pilW 3503370..3504371 (-) 1002 WP_000079196.1 PilW family protein Machinery gene
  H0N28_RS16635 (H0N28_16640) pilV 3504372..3504932 (-) 561 WP_002194578.1 type IV pilus modification protein PilV Machinery gene
  H0N28_RS16640 (H0N28_16645) fimU 3504926..3505399 (-) 474 WP_001214058.1 Tfp pilus assembly protein FimT/FimU Machinery gene
  H0N28_RS16645 (H0N28_16650) ispH 3505569..3506519 (-) 951 WP_000407064.1 4-hydroxy-3-methylbut-2-enyl diphosphate reductase -
  H0N28_RS16650 (H0N28_16655) gmk 3506642..3507271 (+) 630 WP_000015937.1 guanylate kinase -

Sequence

Protein


Download         Length: 1284 a.a.        Molecular weight: 138016.54 Da        Isoelectric Point: 7.7511

>NTDB_id=466655 H0N28_RS16620 WP_000768958.1 3498689..3502543(-) (pilY1) [Acinetobacter baumannii strain ATCC 17978]
MKLKLKNFKPNNLWYAVCSSSMIFTWLMTSSVVQASDLQIYASPTAGKKTIVMMLDTSGSMTNNSYGENRLAMLKNGMNA
FLASNNPVLNDTRVGLGNFSANGDSRSGQILVAAAPLGDASTLNTVGSQRYKLKQAVANLTAGGSTPSAHAYAEAAAYLM
GTTTYSETNYAIRKDSYIKRVRRSDNRTEYSYCTNYRDSQIDTANLWQPCRSNSYWSSWSTNNPGVDNATAYDTSSDWTY
YYTYYYTTFNYAVANADSGIPKSKSNDTASNPNIVVDRNATNSNVVYQSPLPAVANRQSCDGQGIYFLSDGEPNNTTNTR
SASVMSTALGSTFGADFNCSGGLSNTTADSGWACMGEFAKRLFDKTKNPAGVSIQTAFVGFGSDFSSLSSSDVKNACRLS
SRTQSDRKGDDACSPNQSTNAVAAPGYGNGGFFPTQSSQGVTDSVIAFINNLDKVPLEPLTTGAISVPYDALNPKNLQEY
GYLRAFEPNPANTYLTWRGNLKKYHVVLSGANAGAFEANSGGLVYNASGAFRTGTKDYWNSSTYTDGGKVFLGGSYANVP
LPIAGQPETRDAEGNITKYYYAVQSKIRNLFTDVSAVAADGSLTKISTSGTNLLKIPAAPPEGTNPFDTVANTASYVLGK
FDPSTGQNILKAFPISLKLKILNYLGYSTDINATTLPPSLVTSNEPYLSMGGSIHSLPVQLTYNGTLDDNGNLTSAREQS
ILYGTMEGGLHIVDASSGIEQMVFVPADILNDSVASKALVVGQSDASAPAHGMDGAWVSDPAYNITTVGSGSSAVSKVTA
KQMNIYGGMRMGGSSYYGLDVLSPTSPKLLFRIGADQTDYSRMGQSWSKPVLANIRYNGSIRRVLIVGGGYDQCYEKPNI
TLTDACFTNGKAKGNAVYIIDAKTGQRLWWTSDTGSNTDNANMKHSIVSRISTLDRDADGLVDHLYFGDLGGQIFRVDLN
NNQTKTNSTYSSFGVRVVRLANLATNDSTYDGTNDYTGGNAPRFYEPPTVTIHDYGIHTFITVGIASGDRSTPLDVYPLT
GREGMTPASALSGRPVNNVYGIIDRDFVKKNLMSLTDNQLETKDITRTGLRKNPQILRTGETRVAQIFFPTTGVGKGGWY
RSLSSTSDGTEKANNSFRIKGGLKAFEEPMAITGNLIIPVYDPQGTGIVAADPCLPRVVGETDRQTYCLPFGACLNPDGT
INSNKENPSGFQTKTGSNCPAGVSECNTNVIGAGIRNITFVPKRDEPPVTNSCGKLQLSGNENGTGEWQCTSHLLPVRWY
ERYR

Nucleotide


Download         Length: 3855 bp        

>NTDB_id=466655 H0N28_RS16620 WP_000768958.1 3498689..3502543(-) (pilY1) [Acinetobacter baumannii strain ATCC 17978]
ATGAAACTAAAATTGAAGAATTTTAAGCCAAATAATTTATGGTATGCCGTCTGTTCAAGCTCAATGATATTCACATGGCT
GATGACAAGCTCTGTGGTGCAGGCAAGTGATTTACAAATTTATGCCTCACCTACAGCAGGTAAAAAAACAATTGTGATGA
TGTTGGATACATCAGGAAGTATGACCAACAATAGTTATGGTGAAAACCGCTTAGCCATGCTTAAAAATGGTATGAATGCT
TTTTTGGCTAGCAATAACCCTGTCTTAAATGATACGCGAGTAGGTTTAGGAAATTTCTCGGCAAATGGCGACAGCCGAAG
TGGACAAATCTTGGTGGCTGCTGCTCCTTTAGGAGATGCGAGTACTTTAAATACGGTAGGCTCACAACGTTATAAATTAA
AACAAGCTGTTGCTAATTTAACTGCAGGAGGCTCAACACCTTCAGCCCACGCTTATGCTGAAGCGGCTGCTTATTTGATG
GGAACAACCACATATTCAGAGACGAATTATGCTATTCGTAAAGATAGTTATATCAAACGTGTAAGAAGATCTGATAATAG
GACTGAATATTCATATTGTACTAATTACCGTGATTCGCAAATTGATACAGCCAACCTATGGCAACCTTGTCGTTCAAATA
GTTATTGGAGTAGCTGGTCAACAAATAATCCAGGTGTGGATAATGCTACTGCTTATGATACTTCATCTGACTGGACCTAT
TACTATACTTATTACTACACCACTTTTAATTATGCTGTAGCAAATGCAGATAGCGGTATTCCAAAATCTAAATCAAACGA
TACAGCTAGCAATCCGAATATTGTTGTAGACCGTAATGCTACTAACTCCAATGTAGTGTATCAGTCACCTTTACCTGCAG
TAGCGAATCGTCAGAGTTGTGATGGACAAGGTATTTACTTCTTATCGGATGGCGAACCGAACAATACAACAAATACACGT
TCGGCAAGTGTTATGTCGACTGCTTTAGGTAGTACTTTCGGAGCTGATTTTAATTGTTCTGGAGGTTTATCTAATACTAC
GGCAGACTCTGGTTGGGCTTGTATGGGGGAGTTTGCAAAAAGATTATTTGATAAAACAAAGAACCCTGCCGGAGTTTCTA
TTCAAACAGCATTTGTCGGTTTTGGTAGTGACTTTTCTAGTTTGAGTTCTTCTGATGTAAAAAATGCCTGCCGTTTAAGT
TCGAGAACCCAGTCTGACCGAAAAGGAGATGATGCGTGTTCACCGAATCAATCTACAAATGCGGTAGCTGCACCAGGTTA
TGGGAATGGTGGTTTTTTCCCTACTCAGAGTTCACAAGGCGTAACAGACAGCGTTATCGCATTTATTAATAATTTAGATA
AAGTTCCTTTAGAACCCTTAACCACAGGTGCTATCTCAGTTCCATATGATGCATTGAATCCCAAAAATTTACAGGAATAT
GGTTATTTACGAGCTTTTGAGCCAAATCCAGCTAACACGTACTTAACATGGCGTGGAAATTTAAAGAAATATCATGTTGT
TTTATCTGGAGCGAATGCAGGTGCTTTTGAGGCCAATTCTGGCGGATTAGTCTACAATGCAAGTGGGGCTTTTAGGACTG
GAACAAAGGATTATTGGAATAGCTCTACTTATACTGACGGAGGCAAAGTCTTTTTAGGTGGTTCATATGCGAATGTGCCT
TTACCCATTGCTGGACAACCTGAAACACGTGATGCAGAAGGGAATATCACAAAATATTATTACGCAGTACAAAGTAAAAT
CCGCAACTTATTTACTGATGTTTCCGCCGTTGCAGCAGATGGTAGCTTAACGAAAATTTCAACTTCTGGAACTAATTTGC
TAAAAATTCCAGCTGCTCCACCAGAAGGAACTAATCCTTTTGATACGGTGGCTAATACAGCAAGTTATGTCTTAGGTAAA
TTTGATCCATCAACTGGACAAAATATTTTAAAAGCTTTTCCTATAAGCTTGAAATTAAAAATATTAAATTATTTAGGTTA
TTCAACAGATATTAATGCAACAACTCTGCCTCCATCTTTGGTTACATCGAATGAACCTTATTTATCGATGGGGGGAAGTA
TTCACTCTTTACCGGTTCAACTAACCTACAATGGAACACTAGATGATAATGGGAATTTAACATCTGCCCGAGAACAATCC
ATCCTCTATGGAACTATGGAAGGCGGATTACATATTGTGGATGCTTCATCTGGTATTGAGCAAATGGTCTTTGTTCCTGC
AGATATTTTAAATGATTCAGTTGCTTCCAAAGCTTTAGTTGTTGGTCAAAGTGATGCTTCAGCTCCCGCTCATGGTATGG
ACGGAGCTTGGGTATCTGATCCAGCCTATAATATTACTACAGTGGGAAGTGGTAGCTCGGCAGTATCAAAAGTAACTGCA
AAGCAAATGAATATTTATGGCGGCATGCGCATGGGGGGAAGTAGCTACTACGGACTAGATGTATTAAGCCCTACTTCACC
GAAACTGCTTTTTAGAATAGGGGCAGACCAGACTGACTATAGCCGTATGGGTCAAAGCTGGTCTAAACCCGTACTCGCGA
ACATCCGTTATAACGGTTCTATTAGACGCGTCCTGATTGTTGGCGGTGGTTATGATCAGTGTTATGAAAAACCAAATATT
ACGTTGACTGACGCTTGCTTTACCAATGGAAAAGCAAAAGGAAACGCTGTCTATATTATTGACGCAAAAACTGGTCAGCG
TTTGTGGTGGACAAGTGATACAGGTTCTAATACTGATAACGCCAATATGAAGCATAGTATTGTTAGCCGTATTAGTACTT
TAGACCGTGATGCTGATGGCTTAGTCGACCATCTATATTTTGGAGATTTAGGCGGACAAATTTTTCGCGTAGACCTTAAT
AATAATCAGACAAAAACCAATTCGACCTATAGCAGTTTTGGTGTCAGAGTTGTGCGTTTAGCGAATTTAGCAACAAATGA
TTCAACTTATGATGGCACAAATGATTATACAGGTGGGAATGCTCCTCGTTTTTATGAGCCTCCAACAGTAACGATCCACG
ATTATGGAATTCACACTTTTATTACAGTAGGAATTGCATCAGGAGACCGTAGTACACCTTTAGATGTTTACCCACTCACA
GGTCGTGAAGGTATGACGCCTGCAAGTGCATTAAGTGGACGTCCTGTAAATAATGTATATGGAATTATTGATAGAGACTT
TGTTAAAAAGAACTTAATGTCTTTAACTGATAATCAGCTTGAAACAAAAGATATTACACGGACAGGCTTAAGAAAAAATC
CACAAATTCTAAGAACAGGTGAAACAAGAGTAGCTCAAATTTTCTTCCCCACTACAGGAGTAGGTAAAGGTGGTTGGTAT
CGCTCGCTTTCTAGTACGAGCGATGGTACAGAAAAAGCTAATAATAGTTTTCGTATTAAAGGAGGACTCAAAGCTTTTGA
GGAACCAATGGCAATTACGGGTAATTTAATTATTCCAGTTTATGACCCTCAAGGAACGGGAATTGTTGCGGCAGATCCTT
GTCTACCTCGTGTTGTGGGAGAAACAGACCGACAAACTTATTGTTTACCATTTGGTGCTTGTCTTAATCCGGATGGAACC
ATTAATTCAAATAAAGAAAACCCGAGCGGGTTTCAAACAAAAACTGGTAGTAACTGTCCAGCTGGAGTCTCTGAATGTAA
TACAAATGTCATTGGTGCAGGTATTCGTAATATCACATTTGTTCCAAAAAGAGATGAACCTCCTGTGACTAATAGTTGTG
GGAAATTACAGCTGTCTGGAAACGAGAACGGAACAGGTGAGTGGCAATGTACAAGTCATTTACTTCCTGTGCGCTGGTAT
GAGCGCTATCGCTAG

Domains

Predicted by InterproScan.

Neisseria PilC beta-propeller domain (T4P_PilY1)

(715-964)

von Willebrand factor type A domain (VWA_2)

(51-162)


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 (%) Ha-value
  pilY1 Acinetobacter baumannii D1279779

88.527

100

0.889