Detailed information    

insolico Bioinformatically predicted

Overview


Name   recJ   Type   Machinery gene
Locus tag   AWB63_RS02905 Genome accession   NZ_CP014144
Coordinates   590045..592246 (-) Length   733 a.a.
NCBI ID   WP_037598870.1    Uniprot ID   -
Organism   Streptococcus salivarius strain JF     
Function   homologous recombination (predicted from homology)   
Homologous recombination

Genomic Context


Location: 585045..597246
Locus tag Gene name Coordinates (strand) Size (bp) Protein ID Product Description
  AWB63_RS02880 (AWB63_02880) - 585987..586748 (-) 762 WP_002884107.1 hypothetical protein -
  AWB63_RS02885 (AWB63_02885) nth 586876..587520 (-) 645 WP_038675827.1 endonuclease III -
  AWB63_RS02890 (AWB63_02890) - 587520..588218 (-) 699 WP_004182658.1 DnaD domain-containing protein -
  AWB63_RS02895 (AWB63_02895) metA 588291..589235 (-) 945 WP_038675823.1 homoserine O-acetyltransferase MetA -
  AWB63_RS02900 (AWB63_02900) - 589408..589926 (-) 519 WP_004182660.1 adenine phosphoribosyltransferase -
  AWB63_RS02905 (AWB63_02905) recJ 590045..592246 (-) 2202 WP_037598870.1 single-stranded-DNA-specific exonuclease RecJ Machinery gene
  AWB63_RS02910 (AWB63_02910) - 592558..592962 (-) 405 WP_038675821.1 GNAT family N-acetyltransferase -
  AWB63_RS02915 (AWB63_02915) - 592997..593221 (-) 225 Protein_542 class I SAM-dependent methyltransferase -
  AWB63_RS02920 (AWB63_02920) - 593233..594000 (-) 768 WP_013990734.1 SDR family NAD(P)-dependent oxidoreductase -
  AWB63_RS02925 (AWB63_02925) rnz 594000..594929 (-) 930 WP_002884122.1 ribonuclease Z -
  AWB63_RS02930 (AWB63_02930) - 594961..595602 (-) 642 WP_037598872.1 cystathionine beta-lyase -
  AWB63_RS02935 (AWB63_02935) hflX 595595..596833 (-) 1239 WP_038677002.1 GTPase HflX -

Sequence


Protein


Download         Length: 733 a.a.        Molecular weight: 82262.34 Da        Isoelectric Point: 4.3132

>NTDB_id=144397 AWB63_RS02905 WP_037598870.1 590045..592246(-) (recJ) [Streptococcus salivarius strain JF]
MITSTYDWKINTKEPDAGFFKLAKERGLAETAAKIAYERGITTEDTLEDFLKADLSHLHDPYLLHDMDKAVARIRQAIEN
YEQILVYGDYDADGMTSASIVKEALEMMGAEARVYLPNRFTDGYGPNESVYKYFIEQEGISLIVTVDNGVAGNEAIAYAQ
EQGVDVIVTDHHSMPAQLPDAYAIVHPEHPDTDYPFKYLAGCGVAFKLATALLETIPTEMLDLVAIGTIADMVSLTDENR
IMVKVGLEILKTTERIGLQELLRISDVDPTTISEETVGFKLAPQLNALGRLDDPNPAIELLTGFDDEEAQAIALEINAKN
EERKEVVQNIFDEAITMVDPDKPVQVLAKEGWHPGVLGIVAGRIMEQISQTVVVLNIEDGLAKGSARSLESINIFHALDD
HRDIFTAFGGHAGAAGMTLPEENLGRLSEILCHYVYDNDIDTSAKNTLNLDEELQLSELSLDTIKSLEKLAPFGMDNKKP
VFWLHDITVTQARTMGQNGAHLKFKVKQGKDSFDVVAFNKGNLLQEFQQAQGLELAVTLSVNVWNGQTTLQLMLEDARVD
GVQLFDFRSKNMSLPEGLPSVEEAADTEPAVVLNTLPESATELKEWFEGKDFQAIYFKNSIKEAYYLTGYGTREQFARLY
KTIYQFPEFDVRYKLDELSHYLKIDKILLIKMIQIFDELDFVTIDNGVMTVNKEAEKREIEDSQIFQDLKRLVKFQELMA
LGTPQEIYDWLYK

Nucleotide


Download         Length: 2202 bp        

>NTDB_id=144397 AWB63_RS02905 WP_037598870.1 590045..592246(-) (recJ) [Streptococcus salivarius strain JF]
ATGATTACATCAACGTATGATTGGAAAATAAACACAAAAGAGCCAGATGCTGGCTTTTTTAAACTTGCCAAAGAACGTGG
GTTGGCAGAAACAGCAGCCAAGATTGCCTATGAACGTGGCATTACGACAGAAGATACTCTTGAAGACTTTCTAAAGGCTG
ATTTATCACACCTTCATGATCCTTATCTTCTTCATGATATGGATAAGGCAGTGGCTAGAATTCGTCAGGCCATTGAAAAT
TATGAGCAAATCTTAGTCTATGGAGACTATGATGCGGATGGAATGACGTCAGCATCGATTGTCAAGGAAGCCCTTGAAAT
GATGGGGGCTGAAGCTAGAGTCTATTTGCCTAACCGGTTTACAGATGGTTATGGGCCAAACGAAAGTGTCTACAAGTACT
TCATTGAACAGGAAGGCATTTCACTCATTGTTACAGTGGATAATGGAGTAGCGGGTAATGAGGCTATCGCTTATGCGCAA
GAGCAAGGTGTGGACGTTATCGTTACAGACCATCACAGTATGCCGGCACAGCTTCCAGATGCCTATGCCATTGTCCATCC
AGAGCATCCAGATACCGATTATCCTTTTAAGTATTTGGCAGGTTGTGGTGTAGCTTTCAAATTGGCAACTGCCCTCCTTG
AAACTATTCCTACTGAGATGTTGGACTTGGTAGCCATTGGTACCATTGCCGATATGGTTAGCCTAACGGATGAAAATCGT
ATTATGGTCAAGGTCGGCCTGGAAATTCTAAAGACTACTGAGCGTATTGGACTGCAAGAGTTACTCCGTATTTCAGATGT
AGACCCAACAACGATTTCTGAAGAAACGGTAGGATTTAAACTGGCCCCTCAACTCAATGCCTTGGGGCGCTTAGATGATC
CAAATCCAGCCATTGAACTGCTGACCGGATTTGACGATGAAGAAGCCCAAGCCATTGCTCTGGAAATCAATGCTAAAAAT
GAAGAACGTAAGGAAGTTGTTCAAAACATCTTTGATGAAGCCATAACCATGGTAGACCCGGACAAACCTGTTCAGGTTCT
GGCCAAGGAAGGCTGGCATCCTGGCGTTCTAGGTATTGTGGCGGGGCGTATCATGGAACAAATCAGTCAGACAGTAGTGG
TTTTGAATATTGAAGATGGCTTGGCTAAGGGTTCCGCTCGTAGTTTGGAATCTATCAATATCTTCCATGCCCTTGATGAC
CACCGAGACATCTTTACTGCTTTTGGAGGACATGCTGGAGCGGCGGGGATGACCCTTCCTGAAGAAAATCTTGGACGACT
ATCAGAGATTTTGTGTCATTATGTCTACGATAATGACATTGATACGAGTGCCAAAAATACGTTAAATTTAGACGAGGAGC
TCCAGCTCAGTGAGCTTAGCTTGGATACCATCAAGAGCCTTGAAAAATTAGCACCTTTTGGTATGGACAATAAAAAGCCA
GTCTTTTGGCTACATGATATTACCGTTACTCAAGCTAGGACTATGGGACAAAACGGAGCCCATCTTAAGTTTAAGGTGAA
GCAAGGCAAGGATAGCTTTGACGTTGTCGCTTTTAATAAAGGTAATCTGCTTCAAGAATTTCAACAAGCTCAAGGTTTGG
AATTGGCAGTGACCTTGTCTGTTAATGTTTGGAATGGACAGACAACGCTACAGCTCATGCTAGAAGATGCGCGTGTGGAT
GGTGTTCAATTATTTGATTTTCGATCAAAAAACATGTCACTGCCTGAAGGTCTACCATCGGTAGAAGAAGCAGCAGACAC
AGAGCCTGCGGTTGTCCTCAACACCCTACCTGAATCAGCGACAGAATTAAAAGAGTGGTTTGAAGGTAAAGATTTTCAGG
CTATCTATTTTAAAAATAGCATTAAGGAAGCCTATTATCTGACAGGTTATGGAACAAGAGAGCAATTTGCAAGGCTCTAT
AAAACCATTTATCAATTCCCAGAATTCGATGTCCGCTATAAACTGGATGAACTCAGTCATTACCTTAAAATCGACAAGAT
TCTCCTGATTAAGATGATTCAAATCTTTGATGAATTGGATTTTGTGACTATTGATAATGGTGTTATGACAGTCAATAAAG
AAGCTGAAAAACGTGAGATTGAGGACAGTCAGATTTTCCAAGATCTGAAACGACTCGTTAAGTTCCAAGAACTTATGGCT
TTGGGAACACCACAGGAAATTTATGACTGGCTTTATAAGTAG


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
  recJ Streptococcus pneumoniae strain D39V

68.071

100

0.683

  recJ Bacillus subtilis subsp. subtilis str. 168

37.532

100

0.398


Multiple sequence alignment