Detailed information    

insolico Bioinformatically predicted

Overview

Name   pilY1   Type   Machinery gene
Locus tag   ABFK61_RS07505 Genome accession   NZ_CP156041
Coordinates   1566740..1570594 (-) Length   1284 a.a.
NCBI ID   WP_000768943.1    Uniprot ID   A0A0J0ZLJ4
Organism   Acinetobacter baumannii strain D78     
Function   assembly of type IV pilus (predicted from homology)   
DNA binding and uptake

Genomic Context

Location: 1561740..1575594
Locus tag Gene name Coordinates (strand) Size (bp) Protein ID Product Description
  ABFK61_RS07470 (ABFK61_07470) - 1562504..1563445 (+) 942 WP_153957607.1 triacylglycerol lipase -
  ABFK61_RS07475 (ABFK61_07475) rplS 1563497..1563865 (-) 369 WP_000014562.1 50S ribosomal protein L19 -
  ABFK61_RS07480 (ABFK61_07480) trmD 1564073..1564813 (-) 741 WP_000464595.1 tRNA (guanosine(37)-N1)-methyltransferase TrmD -
  ABFK61_RS07485 (ABFK61_07485) rimM 1564859..1565407 (-) 549 WP_000189236.1 ribosome maturation factor RimM -
  ABFK61_RS07490 (ABFK61_07490) rpsP 1565427..1565678 (-) 252 WP_000260334.1 30S ribosomal protein S16 -
  ABFK61_RS07495 (ABFK61_07495) pilE 1565825..1566250 (-) 426 WP_000788336.1 type IV pilin protein Machinery gene
  ABFK61_RS07500 (ABFK61_07500) pilY2 1566247..1566729 (-) 483 WP_001046489.1 prepilin-type N-terminal cleavage/methylation domain-containing protein Machinery gene
  ABFK61_RS07505 (ABFK61_07505) pilY1 1566740..1570594 (-) 3855 WP_000768943.1 VWA domain-containing protein Machinery gene
  ABFK61_RS07510 (ABFK61_07510) pilX 1570606..1571424 (-) 819 WP_000149374.1 PilX N-terminal domain-containing pilus assembly protein Machinery gene
  ABFK61_RS07515 (ABFK61_07515) pilW 1571421..1572422 (-) 1002 WP_000079197.1 PilW family protein Machinery gene
  ABFK61_RS07520 (ABFK61_07520) pilV 1572423..1572983 (-) 561 WP_002194578.1 type IV pilus modification protein PilV Machinery gene
  ABFK61_RS07525 (ABFK61_07525) fimU 1572977..1573450 (-) 474 WP_001214060.1 GspH/FimT family pseudopilin Machinery gene
  ABFK61_RS07530 (ABFK61_07530) ispH 1573620..1574570 (-) 951 WP_000407064.1 4-hydroxy-3-methylbut-2-enyl diphosphate reductase -
  ABFK61_RS07535 (ABFK61_07535) gmk 1574693..1575322 (+) 630 WP_000015937.1 guanylate kinase -

Sequence

Protein


Download         Length: 1284 a.a.        Molecular weight: 138115.41 Da        Isoelectric Point: 7.3066

>NTDB_id=1001482 ABFK61_RS07505 WP_000768943.1 1566740..1570594(-) (pilY1) [Acinetobacter baumannii strain D78]
MKLKLKNFKPNNLWYAVCSSSMIFTWLMTSSVVQASDLQIYASPTAGKKTIVMMLDTSGSMTNNSYGENRLAMLKNGMNA
FLASNNPVLNDTRVGLGNFSANGDSRSGQILVAAAPLGDASTLNTVGSQRYKLKQAVANLTAGGSTPSAHAYAEAAAYLM
GTTTYSETNYAIRKDSYIKRVRRSDNRTEYSYCTNYRDSQIDTANLWQPCRSNSYWSSWSTNNPGVDNATAYDTSSDWTY
YYTYYYTTFNYAVANADSGIPKSKSNDTASNPNIVVDRNATNSNAVYQSPLPAVANRQSCDGQGIYFLSDGEPNNTTNTR
SASVMSTALGSTFGADFNCSGGLSNTTADSGWACMGEFAKRLFDKTKNPAGVSIQTAFVGFGSDFSSLNSSDVKNACRLS
SRTQSDRKGDDACSPNQSTNAVAAPGYGNGGFFPTQSSQGVTDSVIAFINNLDKVPLEPLTTGAISVPYDALNPKNLQEY
GYLRAFEPNPANTYLTWRGNLKKYHVVLSGANAGAFEANSGGLVYNASGAFRTGTKDYWNSSTYTDGGKVFLGGSYANVP
LPIAGQPETRDAEGNITKYYYAVQSKIRNLFTDVSAVAADGSLTKISTSGTNLLKIPAAPPEETNPFDTVANTASYVLGK
FDPSTGQNILKAFPISLKLKILNYLGYSTDINATTLPSSLVTSNEPYLSMGGSIHSLPVQLTYNGTLDDNGNLTSAREQS
ILYGTMEGGLHIVDASSGIEQMVFVPADILNDSVASKALVVGQSDASAPAHGMDGAWVSDPAYNITTVGSGSSAVSKVTA
KQMNIYGGMRMGGSSYYGLDVLSPTSPKLLFRIGADQNDYSRMGQSWSKPVLANIRYNGSIRRVLIVGGGYDQCYEKPNI
TLTDACFTNGKAKGNAVYIIDAKTGQRLWWTSDTGSNTDNANMKHSIVSRISTLDRDADGLVDHLYFGDLGGQIFRVDLN
NNQTKTNSTYSSFGVRVVRLANLATNDSTYDGTNDYTGGNAPRFYEPPTVTIHDYGIHTFITVGIASGDRSTPLDVYPLT
GREGMTPASALSGRPVNNVYGIIDRDFVKKNLMSLTDNQLETKDITRTGLRKNPQILRTGETRVAQIFFPTTGVGKGGWY
RSLSSTSDGTEKANNSFRIKGGLKAFEEPMAITGNLIILVYDPQGTGIVAADPCLPRVVGETDRQTYCLPFGACLNSDGS
IDQNKENHSGFETQTGTNCPVGASECNKNVIGSGIRSVTFVPTEDNPPTTNSCGKLKLSGNEQGTGQWQCTSHLVPTRWY
ERYR

Nucleotide


Download         Length: 3855 bp        

>NTDB_id=1001482 ABFK61_RS07505 WP_000768943.1 1566740..1570594(-) (pilY1) [Acinetobacter baumannii strain D78]
ATGAAACTAAAATTGAAGAATTTTAAGCCAAATAATTTATGGTATGCCGTCTGTTCAAGCTCAATGATATTCACATGGCT
GATGACAAGCTCTGTGGTGCAAGCAAGTGATTTACAAATTTATGCCTCACCTACAGCAGGTAAAAAAACAATTGTGATGA
TGTTGGATACATCAGGAAGTATGACCAACAATAGTTATGGTGAAAACCGCTTAGCCATGCTTAAAAATGGTATGAATGCT
TTTTTGGCTAGCAATAACCCTGTCTTAAATGATACGCGAGTAGGTTTAGGAAATTTCTCGGCAAATGGTGACAGCCGAAG
TGGACAAATTTTAGTGGCTGCTGCTCCTTTAGGTGATGCAAGTACTTTAAATACGGTAGGCTCACAACGTTATAAATTAA
AACAAGCTGTTGCTAATTTAACTGCGGGAGGCTCAACACCTTCAGCCCACGCTTATGCTGAAGCAGCTGCTTACTTAATG
GGGACAACCACATATTCAGAGACGAATTATGCTATTCGTAAAGATAGTTATATCAAACGTGTAAGAAGATCTGATAATAG
AACTGAATATTCATATTGTACTAATTACCGTGATTCGCAAATTGATACAGCCAACCTATGGCAACCTTGTCGTTCAAATA
GTTATTGGAGTAGCTGGTCAACAAATAATCCAGGTGTGGATAATGCTACTGCTTATGATACTTCATCTGACTGGACTTAT
TACTATACTTATTACTACACCACTTTTAATTATGCTGTAGCAAATGCAGATAGCGGTATTCCAAAATCTAAATCAAACGA
TACAGCTAGCAATCCGAATATTGTTGTAGACCGAAATGCTACTAACTCCAATGCAGTGTATCAGTCACCTTTACCTGCAG
TAGCGAATCGCCAGAGTTGTGATGGACAAGGTATTTACTTCTTATCGGATGGCGAACCGAACAATACAACAAATACACGT
TCGGCAAGTGTCATGTCGACTGCTTTAGGTAGTACTTTTGGAGCTGATTTTAATTGTTCTGGAGGTTTATCTAACACTAC
GGCAGACTCTGGTTGGGCTTGTATGGGAGAGTTTGCAAAAAGATTATTTGATAAAACAAAGAACCCTGCCGGAGTTTCTA
TTCAAACAGCATTTGTCGGTTTTGGTAGTGACTTTTCTAGTTTGAATTCTTCTGATGTAAAAAATGCCTGCCGTTTAAGT
TCGAGAACCCAGTCTGACCGAAAAGGAGATGATGCGTGTTCACCGAATCAATCTACAAATGCGGTAGCTGCACCAGGTTA
TGGAAATGGTGGTTTTTTCCCTACTCAGAGTTCACAAGGCGTAACAGACAGCGTTATCGCATTTATTAATAATTTAGATA
AAGTTCCTTTAGAACCCTTAACCACAGGTGCTATCTCAGTTCCATATGATGCATTGAATCCCAAAAATTTACAGGAATAT
GGTTATTTACGAGCTTTTGAGCCAAATCCAGCTAACACGTACTTAACATGGCGTGGAAATTTAAAGAAATATCATGTTGT
TTTATCTGGAGCGAATGCTGGTGCTTTTGAGGCCAATTCTGGCGGATTAGTCTACAATGCAAGTGGGGCTTTTAGAACTG
GAACAAAGGATTATTGGAATAGCTCTACTTATACTGACGGAGGCAAAGTCTTTTTAGGTGGTTCATATGCGAATGTGCCT
TTACCCATTGCTGGACAACCTGAAACACGTGATGCAGAAGGGAATATCACAAAATATTATTACGCAGTACAAAGTAAAAT
CCGCAACTTATTTACTGATGTTTCCGCCGTTGCAGCAGATGGTAGCTTAACGAAAATTTCAACTTCTGGAACTAATTTGC
TAAAAATTCCAGCTGCTCCACCAGAAGAAACTAATCCTTTTGATACGGTGGCTAATACAGCAAGTTATGTTTTAGGTAAA
TTTGATCCATCAACTGGACAAAATATTTTAAAAGCTTTTCCTATAAGCTTGAAATTAAAAATATTAAATTATTTAGGTTA
TTCAACAGATATTAATGCAACAACTCTGCCTTCATCTTTGGTTACATCGAATGAACCTTATTTATCGATGGGGGGAAGTA
TTCACTCTTTACCGGTTCAACTAACCTACAATGGAACCCTAGATGATAATGGGAATTTAACATCTGCCCGAGAACAATCC
ATCCTCTATGGAACTATGGAAGGCGGATTACATATTGTGGATGCTTCATCTGGTATTGAGCAAATGGTCTTTGTTCCTGC
AGATATTTTAAATGATTCAGTTGCTTCCAAAGCTTTAGTTGTTGGTCAAAGTGATGCTTCAGCTCCCGCTCATGGTATGG
ACGGAGCTTGGGTATCTGATCCAGCCTATAATATTACTACAGTGGGAAGTGGTAGCTCGGCAGTATCAAAAGTAACTGCA
AAGCAAATGAATATTTATGGCGGCATGCGTATGGGAGGAAGTAGCTACTACGGACTAGATGTATTAAGCCCTACTTCACC
GAAACTGCTTTTTAGAATAGGGGCAGACCAGAATGACTATAGCCGTATGGGTCAAAGCTGGTCTAAACCCGTACTCGCGA
ACATCCGTTATAACGGTTCTATTAGACGCGTCCTGATTGTTGGCGGTGGTTATGATCAGTGTTATGAAAAACCAAATATT
ACGTTGACTGACGCTTGCTTTACCAATGGAAAAGCAAAAGGAAATGCTGTCTATATTATTGACGCAAAAACTGGTCAGCG
TTTGTGGTGGACAAGTGATACAGGTTCTAATACTGATAACGCCAATATGAAGCATAGTATTGTTAGCCGTATTAGTACTT
TAGACCGTGATGCTGATGGCTTAGTCGACCATCTATATTTTGGAGATTTAGGCGGACAAATTTTTCGCGTAGACCTTAAT
AATAATCAGACAAAAACCAATTCGACCTATAGCAGTTTTGGTGTCAGAGTTGTGCGTTTAGCGAATTTAGCAACAAATGA
TTCAACTTATGATGGCACAAATGATTATACAGGTGGGAATGCTCCTCGTTTTTATGAGCCTCCAACAGTAACGATCCACG
ATTATGGAATTCACACTTTTATTACAGTAGGAATTGCATCAGGAGACCGTAGTACACCTTTAGATGTTTACCCACTCACA
GGTCGTGAAGGTATGACGCCTGCAAGTGCATTAAGTGGACGTCCTGTAAATAATGTATATGGAATTATTGATAGAGACTT
TGTTAAAAAGAACTTAATGTCTTTAACTGATAATCAGCTTGAAACAAAAGATATTACACGGACAGGCTTAAGAAAAAATC
CACAAATTCTAAGAACAGGTGAAACAAGAGTAGCTCAAATTTTCTTCCCAACTACAGGAGTAGGTAAAGGTGGTTGGTAT
CGCTCGCTTTCTAGTACGAGCGATGGTACAGAAAAAGCTAATAATAGTTTTCGTATTAAAGGAGGACTCAAAGCTTTTGA
GGAACCAATGGCAATTACGGGTAATTTAATTATTCTAGTTTATGACCCTCAAGGAACGGGAATTGTTGCGGCAGATCCTT
GCCTACCTCGTGTTGTGGGAGAAACAGACCGACAAACTTATTGTTTACCATTTGGAGCTTGTCTTAATTCTGATGGGTCA
ATCGATCAAAATAAAGAGAATCACAGTGGGTTTGAAACACAAACTGGTACTAATTGCCCAGTAGGGGCTTCTGAATGTAA
TAAAAACGTTATTGGCTCTGGTATTCGTAGCGTAACATTTGTACCAACGGAGGATAACCCACCTACGACTAATAGTTGTG
GGAAATTAAAGCTGTCTGGTAATGAGCAAGGGACTGGACAGTGGCAATGTACGAGTCATTTAGTTCCTACGCGTTGGTAT
GAGCGTTATCGTTAA

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

90

100

0.904

Multiple sequence alignment