Detailed information    

insolico Bioinformatically predicted

Overview


Name   clpC   Type   Regulator
Locus tag   QAB28_RS02730 Genome accession   NZ_CP143645
Coordinates   591382..594180 (+) Length   932 a.a.
NCBI ID   WP_015649747.1    Uniprot ID   -
Organism   Pseudomonas aeruginosa strain CPO100     
Function   degradation of ComK; degradation of DegU (predicted from homology)   
Competence regulation

Genomic Context


Location: 586382..599180
Locus tag Gene name Coordinates (strand) Size (bp) Protein ID Product Description
  QAB28_RS02705 (QAB28_002705) dbpA 586600..587976 (-) 1377 WP_003118837.1 ATP-dependent RNA helicase DbpA -
  QAB28_RS02710 (QAB28_002710) - 588324..588533 (+) 210 WP_003084710.1 cold-shock protein -
  QAB28_RS02715 (QAB28_002715) - 588684..589205 (+) 522 WP_033895225.1 ATP-dependent zinc protease -
  QAB28_RS02720 (QAB28_002720) - 589199..589573 (-) 375 WP_003142684.1 DUF1232 domain-containing protein -
  QAB28_RS02725 (QAB28_002725) mdtD 589575..591008 (-) 1434 WP_003084717.1 multidrug transporter subunit MdtD -
  QAB28_RS02730 (QAB28_002730) clpC 591382..594180 (+) 2799 WP_015649747.1 AAA family protein disaggregase ClpG Regulator
  QAB28_RS02735 (QAB28_002735) - 594282..594860 (+) 579 WP_003084725.1 DUF2780 domain-containing protein -
  QAB28_RS02740 (QAB28_002740) - 595179..596066 (-) 888 WP_003099939.1 acyltransferase -
  QAB28_RS02745 (QAB28_002745) - 596209..596718 (+) 510 WP_003113269.1 ATP-dependent zinc protease -
  QAB28_RS02750 (QAB28_002750) creB 596803..597492 (+) 690 WP_003113268.1 two-component system response regulator CreB -
  QAB28_RS02755 (QAB28_002755) creC 597492..598916 (+) 1425 WP_015649746.1 two-component system sensor histidine kinase CreC -

Sequence


Protein


Download         Length: 932 a.a.        Molecular weight: 103414.06 Da        Isoelectric Point: 6.9549

>NTDB_id=843744 QAB28_RS02730 WP_015649747.1 591382..594180(+) (clpC) [Pseudomonas aeruginosa strain CPO100]
MAQELCAICHERPAVARVSLVQNGQRRELALCELHYRQLMRQQRMRSPLESLFGGGSPFDEIFSGFGEQSPVTPVRAREP
EAVDIAEYFSKQTTEYLQRAAQVAAEFGKREVDTEHLLYALADADVVQAVLKQFGLSPADLKQYIEANAVRGASKGEASE
DMTISPRVKSALQHAFALSRELGHSYVGPEHLLLGLAAVPDSFAGTLLKKYGLTEQALRQKAVKVVGKGAEDGRVDGPSK
TPQLDKFSRDLTRLAREGKLDPVIGRSKEVETTIEVLARRKKNNPVLIGEPGVGKTAIVEGLAQRMVQGEVPEVLRDKRL
VELNINAMVAGAKYRGEFEERLKQVMDELQAAQSEIILFIDEVHTIVGAGQGGGEGGLDVANVLKPAMARGEMNLIGATT
LNEYQKYIEKDAALERRFQPVFIPEPTVEQTISILRGLRDKLEGHHKVTIRDEAFVAAAELSDRYIGNRFLPDKAIDLID
QAAARVRIASTSRPAEIQELEAELAQLKREQDYAASRKWYDEAKVFEKRIQERKEHLEQITERWQQTQGSKTEEVRVEDI
AEIISRLTGIPVTELTAEEREKLLQMEERLLQRVIGQQEAITAVSDAVRLARAGLRQGSRPIATFLFLGPTGVGKTELAK
ALAEVVFGDEDAMIRIDMSEYMERHAVSRLIGAPPGYVGYDEGGQLTERVRRRPYSVILLDEIEKAHADVNNILLQVFDD
GRLTDGKGRVVDFTNTIIIATSNLGSELIMKNAQAGEFAQPPEKLKRELMTTLRGHFRPEFLNRLDEVIVFESLSKAQIE
DIVRLQLERVKRAAHAQDIYLHIDDSLVGHLAEEAYQPEFGARELKRQIRQQLETRLATAMLKGEVKEGETVTFFYDAKD
GVGYRKGAAPKPAARKKSGAGETPKGRATAARKPAAKKGAAAKGKADKPKAK

Nucleotide


Download         Length: 2799 bp        

>NTDB_id=843744 QAB28_RS02730 WP_015649747.1 591382..594180(+) (clpC) [Pseudomonas aeruginosa strain CPO100]
ATGGCCCAGGAACTTTGCGCTATCTGCCACGAACGTCCCGCCGTCGCCCGCGTCAGCCTGGTACAGAACGGCCAGCGCCG
CGAACTCGCCCTCTGCGAACTGCACTACCGCCAGTTGATGCGCCAGCAGCGCATGCGCTCGCCGCTGGAGTCGCTGTTCG
GCGGCGGCAGCCCGTTCGACGAGATCTTCTCCGGCTTCGGCGAGCAGAGCCCGGTCACCCCGGTGCGCGCCCGCGAGCCG
GAGGCGGTGGACATCGCCGAATACTTCAGCAAGCAGACCACCGAGTACCTGCAACGCGCCGCGCAGGTCGCCGCCGAATT
CGGCAAGCGCGAAGTGGACACCGAGCACCTGCTCTACGCCCTGGCCGACGCCGACGTGGTGCAGGCGGTGCTCAAGCAGT
TCGGCCTGTCGCCGGCCGACCTCAAGCAGTACATCGAGGCCAACGCCGTGCGCGGCGCCAGCAAGGGCGAGGCGAGCGAG
GACATGACCATCTCGCCGCGGGTGAAGAGCGCCTTGCAGCATGCCTTCGCCCTGTCCCGCGAACTCGGCCACAGCTATGT
CGGCCCCGAGCACCTGTTGCTCGGCCTGGCGGCGGTGCCGGACAGCTTCGCCGGGACGCTCCTGAAGAAGTACGGCCTGA
CCGAGCAGGCGCTACGGCAGAAAGCGGTCAAGGTGGTCGGCAAGGGCGCCGAGGACGGCCGCGTGGACGGCCCGAGCAAG
ACTCCGCAACTGGACAAGTTCAGCCGCGACCTGACCCGGCTGGCCCGCGAAGGCAAGCTCGATCCGGTGATCGGCCGCTC
GAAGGAAGTCGAGACCACCATCGAGGTGCTCGCCCGGCGCAAGAAGAACAACCCGGTGCTGATCGGCGAGCCCGGCGTCG
GCAAGACCGCCATCGTCGAAGGCCTGGCCCAGCGCATGGTCCAGGGCGAGGTGCCGGAGGTGCTGCGCGACAAGCGCCTG
GTCGAACTGAACATCAACGCCATGGTCGCCGGCGCCAAGTACCGCGGCGAGTTCGAGGAACGCCTCAAGCAGGTGATGGA
CGAACTGCAGGCGGCGCAGAGCGAGATCATCCTGTTCATCGACGAGGTGCACACCATCGTCGGTGCCGGCCAGGGCGGCG
GCGAAGGCGGGCTGGACGTGGCCAACGTGCTGAAGCCGGCGATGGCGCGCGGCGAGATGAACCTGATCGGCGCCACCACC
CTCAACGAGTACCAGAAGTACATCGAGAAGGACGCCGCGCTGGAGCGGCGCTTCCAGCCGGTGTTCATCCCCGAGCCGAC
GGTGGAGCAGACCATCTCCATCCTCCGTGGCCTGCGCGACAAGCTCGAAGGCCACCACAAGGTGACCATCCGCGACGAGG
CCTTCGTCGCCGCCGCCGAGCTGTCCGACCGCTACATCGGCAACCGCTTCCTGCCGGACAAGGCCATCGACCTGATCGAC
CAGGCCGCCGCCCGCGTGCGCATCGCCAGCACCTCGCGGCCGGCCGAGATCCAGGAACTGGAGGCCGAGCTGGCGCAGCT
CAAGCGCGAGCAGGACTACGCCGCCAGCCGCAAGTGGTACGACGAGGCGAAGGTCTTCGAGAAACGCATCCAGGAACGCA
AGGAACACCTCGAGCAGATCACCGAGCGCTGGCAGCAGACCCAGGGGTCGAAGACCGAGGAGGTGCGGGTCGAGGACATC
GCCGAGATCATCTCCAGGCTCACCGGCATCCCGGTCACCGAACTGACCGCCGAGGAGCGCGAGAAGCTCCTGCAGATGGA
AGAGCGCCTGCTCCAGCGGGTGATCGGCCAGCAGGAAGCGATCACCGCGGTCAGCGACGCCGTGCGCCTGGCCCGCGCCG
GGCTGCGCCAGGGCAGCCGGCCGATCGCCACCTTCCTGTTCCTCGGCCCGACCGGGGTGGGCAAGACCGAGCTGGCCAAG
GCCCTGGCCGAGGTGGTGTTCGGCGACGAAGACGCGATGATCCGCATCGACATGAGCGAATACATGGAGCGCCACGCGGT
GTCCCGGCTGATCGGTGCGCCGCCGGGCTACGTCGGCTACGACGAGGGCGGCCAGCTCACCGAGCGGGTGCGCCGGCGGC
CTTACAGCGTGATCCTGCTCGACGAGATCGAGAAGGCCCACGCCGACGTCAACAACATCCTCCTGCAGGTGTTCGACGAC
GGCCGCCTGACCGACGGCAAGGGGCGCGTGGTGGACTTCACCAATACCATCATCATCGCCACCAGCAACCTAGGCTCCGA
GCTGATCATGAAGAACGCCCAGGCCGGCGAGTTCGCCCAGCCGCCGGAGAAGCTCAAGCGCGAACTGATGACTACCCTGC
GCGGACATTTCCGCCCGGAATTCCTCAACCGCCTCGACGAGGTGATCGTCTTCGAGTCGCTGAGCAAGGCGCAGATCGAG
GACATCGTGCGCCTGCAACTGGAGCGGGTGAAGCGCGCCGCGCACGCTCAGGACATCTACCTGCACATCGACGACAGCCT
GGTCGGCCACCTCGCCGAAGAGGCCTACCAGCCGGAGTTCGGCGCCCGCGAGCTGAAGCGGCAGATCCGCCAGCAACTGG
AGACGCGCCTGGCCACGGCGATGCTCAAGGGCGAGGTGAAAGAGGGCGAGACGGTCACCTTCTTCTACGACGCCAAGGAC
GGCGTCGGCTACCGCAAGGGCGCCGCGCCGAAGCCGGCGGCACGCAAGAAATCCGGCGCCGGCGAGACGCCCAAGGGCCG
CGCGACGGCGGCGAGGAAGCCGGCGGCGAAGAAAGGCGCCGCCGCCAAGGGCAAGGCCGACAAGCCGAAGGCCAAGTGA


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
  clpC Bacillus subtilis subsp. subtilis str. 168

50

86.052

0.43

  clpC Lactococcus lactis subsp. lactis strain DGCC12653

44.862

85.622

0.384

  clpC Streptococcus thermophilus LMD-9

42.805

88.734

0.38

  clpC Streptococcus thermophilus LMG 18311

42.563

88.734

0.378

  clpC Streptococcus mutans UA159

41.383

88.412

0.366