Detailed information    

insolico Bioinformatically predicted

Overview


Name   pepF   Type   Regulator
Locus tag   QUE82_RS06430 Genome accession   NZ_AP028059
Coordinates   1243354..1245183 (+) Length   609 a.a.
NCBI ID   WP_173401378.1    Uniprot ID   -
Organism   Bacillus subtilis subsp. natto strain NARUSE     
Function   degradation of XIP; competence shut-off (predicted from homology)   
Competence regulation

Genomic Context


Location: 1238354..1250183
Locus tag Gene name Coordinates (strand) Size (bp) Protein ID Product Description
  QUE82_RS06395 (BSNN_12110) yjbC 1239026..1239604 (+) 579 WP_003224597.1 GNAT family N-acetyltransferase -
  QUE82_RS06400 (BSNN_12120) spx 1239785..1240180 (+) 396 WP_014476435.1 transcriptional regulator Spx -
  QUE82_RS06405 (BSNN_12130) yjbE 1240223..1240879 (-) 657 WP_014479447.1 TerC family protein -
  QUE82_RS06410 - 1241049..1241189 (+) 141 WP_119122854.1 hypothetical protein -
  QUE82_RS06415 (BSNN_12140) mecA 1241156..1241812 (+) 657 WP_014479448.1 adaptor protein MecA Regulator
  QUE82_RS06420 - 1241807..1241929 (-) 123 WP_003245684.1 hypothetical protein -
  QUE82_RS06425 coiA 1242003..1243124 (+) 1122 WP_235091746.1 competence protein CoiA Machinery gene
  QUE82_RS06430 (BSNN_12160) pepF 1243354..1245183 (+) 1830 WP_173401378.1 oligoendopeptidase F Regulator
  QUE82_RS06435 (BSNN_12170) - 1245221..1245388 (-) 168 WP_003244944.1 hypothetical protein -
  QUE82_RS06440 (BSNN_12180) spxH 1245703..1246602 (-) 900 WP_003245184.1 protease adaptor protein SpxH -
  QUE82_RS06445 (BSNN_12190) bhbI 1246599..1246997 (-) 399 WP_003232928.1 group 2 truncated hemoglobin YjbI -
  QUE82_RS06450 (BSNN_12200) cwlQ 1247252..1247986 (-) 735 WP_014479451.1 bifunctional muramidase/murein lytic transglycosylase -
  QUE82_RS06455 (BSNN_12210) yjbK 1248001..1248573 (-) 573 WP_014479452.1 CYTH domain-containing protein -
  QUE82_RS06460 (BSNN_12220) - 1248698..1249066 (+) 369 WP_014479453.1 hypothetical protein -
  QUE82_RS06465 (BSNN_12230) yjbM 1249095..1249730 (+) 636 WP_003245294.1 GTP diphosphokinase -

Sequence


Protein


Download         Length: 609 a.a.        Molecular weight: 70100.02 Da        Isoelectric Point: 5.2218

>NTDB_id=92334 QUE82_RS06430 WP_173401378.1 1243354..1245183(+) (pepF) [Bacillus subtilis subsp. natto strain NARUSE]
MAEEKKANQLPDRSEVKAEDTWRLEDIFPSDEAWNKEFQAVKELIPNLSKYKGKLADSADHLYEALTYQDKVMERLGRLY
TYAHMRSDQDTGNSFYQGLNDKAGNLYTQAASATAYLVPEILSIEEDKLQQFILEKEELKLYSHAIEEITKERPHVLSEK
EEALLAEASEVLGSSSNTFSVLNNADITFPSIKDEDGNEKQITHGNFINFLESENREVRKNAFDAVYKTYGQYKNTMATT
LSGTVKKDNFYARVKKYKSAREAALSNNSIPEEVYDNLVKTINKHLPLLHRYIALRKKVLELDEVHIYDLYTPLVKDAGM
KVTYEEAKDYMLKGLAPLGEEYASILKEGLENRWVDVYENKGKRNGAYSSGAYGTNPYILMNWHNNVNNLFTLVHEFGHS
VHSYYTRKHQPYPYGNYSIFVAEVASTTNEALLGEYLLNNLEDEKQRLYILNHMLEGFRGTVFRQTMFAEFEHLIHTKAQ
EGEPLTPELLTKVYYDLNKKYFGDGMVIDKEIGLEWSRIPHFYYNYYVYQYATGYSAAQALSSQILKEGKPAVDRYIDFL
KAGSSQYPIDVLKKAGVDMTSPEPIEAACKMFEEKLDEMEELLMKVKQS

Nucleotide


Download         Length: 1830 bp        

>NTDB_id=92334 QUE82_RS06430 WP_173401378.1 1243354..1245183(+) (pepF) [Bacillus subtilis subsp. natto strain NARUSE]
ATGGCTGAGGAAAAAAAAGCAAACCAACTGCCTGACAGAAGTGAGGTAAAGGCAGAAGACACATGGAGACTTGAGGATAT
TTTTCCTAGTGATGAGGCCTGGAATAAAGAATTTCAAGCTGTAAAAGAATTAATTCCGAATTTATCTAAGTATAAAGGAA
AGCTGGCAGATTCAGCTGATCATTTATACGAGGCTCTTACGTATCAAGATAAAGTGATGGAGCGGCTGGGTAGGCTGTAC
ACATATGCGCATATGCGCTCTGACCAGGATACTGGGAACTCCTTTTACCAGGGGCTGAATGACAAGGCGGGAAACCTGTA
TACACAGGCTGCAAGCGCGACAGCTTATTTGGTTCCGGAGATTTTATCCATAGAAGAAGACAAACTGCAGCAGTTCATTC
TTGAAAAAGAAGAATTAAAGCTGTACTCTCATGCGATTGAGGAGATTACAAAGGAACGTCCGCATGTGCTGAGCGAGAAG
GAAGAGGCACTGCTTGCTGAAGCCTCCGAGGTACTGGGGTCATCTTCAAATACATTCAGCGTGTTAAATAACGCAGATAT
AACGTTTCCATCCATTAAAGACGAAGATGGGAATGAAAAACAGATCACTCACGGCAACTTTATTAATTTCTTGGAAAGTG
AAAACCGTGAAGTCCGCAAAAATGCGTTTGACGCAGTGTATAAAACGTACGGACAATATAAAAATACAATGGCCACGACG
CTTAGCGGCACTGTGAAAAAGGACAACTTCTACGCGAGAGTGAAAAAGTACAAGTCCGCGCGTGAGGCTGCGCTTTCTAA
CAACAGTATTCCTGAGGAAGTATACGATAACCTTGTTAAGACGATTAATAAGCATTTGCCGCTCCTGCACCGCTATATTG
CGCTAAGAAAGAAAGTGCTTGAGCTTGATGAAGTGCATATCTATGACCTGTATACACCGCTTGTGAAAGATGCTGGGATG
AAGGTGACATACGAGGAAGCCAAAGATTACATGCTGAAAGGCCTTGCACCTTTAGGGGAAGAATATGCCTCTATCCTAAA
AGAAGGACTGGAAAACCGCTGGGTGGACGTTTACGAAAATAAAGGCAAACGCAATGGGGCTTATTCATCAGGAGCTTACG
GCACGAATCCGTATATTTTGATGAACTGGCATAATAACGTCAATAATCTCTTTACGCTCGTGCACGAGTTTGGACATTCC
GTACACAGCTACTATACGAGAAAGCACCAGCCTTATCCATATGGCAATTACAGCATCTTTGTCGCGGAAGTTGCCTCTAC
GACAAATGAAGCGCTCCTTGGCGAATATCTGCTGAACAATTTAGAGGATGAAAAACAGCGCTTATATATTCTCAACCATA
TGCTTGAGGGCTTCAGGGGAACGGTTTTCAGACAAACGATGTTCGCTGAATTTGAACATCTGATCCATACAAAGGCGCAA
GAAGGCGAGCCGCTTACACCTGAGCTTCTGACAAAGGTCTATTACGACCTGAATAAAAAGTATTTTGGAGACGGCATGGT
GATTGATAAGGAAATCGGCCTTGAATGGTCGCGTATTCCGCACTTCTATTACAATTACTATGTGTATCAGTATGCGACAG
GGTACAGCGCTGCCCAAGCATTAAGCAGCCAGATTTTGAAGGAAGGAAAGCCGGCGGTTGACCGTTATATTGACTTCCTG
AAAGCGGGAAGCTCACAATACCCGATTGATGTCCTGAAAAAAGCGGGTGTTGATATGACGTCTCCAGAGCCAATCGAAGC
CGCGTGCAAAATGTTTGAAGAAAAACTTGATGAAATGGAAGAGCTGCTGATGAAAGTCAAGCAGTCTTAA


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
  pepF Streptococcus salivarius strain HSISS4

48.99

97.537

0.478


Multiple sequence alignment