Detailed information    

insolico Bioinformatically predicted

Overview


Name   recJ   Type   Machinery gene
Locus tag   GJ664_RS00640 Genome accession   NZ_CP046037
Coordinates   129631..131943 (-) Length   770 a.a.
NCBI ID   WP_025016402.1    Uniprot ID   -
Organism   Latilactobacillus sakei strain CBA3614     
Function   homologous recombination (predicted from homology)   
Homologous recombination

Genomic Context


Location: 124631..136943
Locus tag Gene name Coordinates (strand) Size (bp) Protein ID Product Description
  GJ664_RS00615 (GJ664_00615) - 125766..127511 (-) 1746 WP_025016406.1 ABC transporter ATP-binding protein -
  GJ664_RS00620 (GJ664_00620) - 127653..127883 (-) 231 WP_011374970.1 YneF family protein -
  GJ664_RS00625 (GJ664_00625) - 127964..128206 (-) 243 WP_011374971.1 DUF896 domain-containing protein -
  GJ664_RS00630 (GJ664_00630) dinR/lexA 128341..128955 (+) 615 WP_011374972.1 transcriptional repressor LexA Regulator
  GJ664_RS00635 (GJ664_00635) - 129089..129607 (-) 519 WP_011374973.1 adenine phosphoribosyltransferase -
  GJ664_RS00640 (GJ664_00640) recJ 129631..131943 (-) 2313 WP_025016402.1 single-stranded-DNA-specific exonuclease RecJ Machinery gene
  GJ664_RS00645 (GJ664_00645) galE 132088..133080 (+) 993 WP_061827025.1 UDP-glucose 4-epimerase GalE -
  GJ664_RS00650 (GJ664_00650) - 133166..133531 (+) 366 WP_011374976.1 DUF1304 domain-containing protein -
  GJ664_RS00655 (GJ664_00655) - 133548..133874 (+) 327 WP_011374977.1 heavy metal-binding domain-containing protein -
  GJ664_RS00660 (GJ664_00660) - 133925..135643 (-) 1719 WP_061827024.1 WxL domain-containing protein -
  GJ664_RS00665 (GJ664_00665) - 135633..136028 (-) 396 WP_016265361.1 LPXTG cell wall anchor domain-containing protein -

Sequence


Protein


Download         Length: 770 a.a.        Molecular weight: 84839.63 Da        Isoelectric Point: 4.5390

>NTDB_id=349666 GJ664_RS00640 WP_025016402.1 129631..131943(-) (recJ) [Latilactobacillus sakei strain CBA3614]
MEAQYEWQLKPVPTEDELQTITKDNPLPKAAAQLLWQRGLRDAEQINDFMNPNVGQLHDPYALHDMQKAIDRIQEAIVNG
EKITIYGDYDADGITSTTLMKETLDDLGADVEVYVPNRFKDGYGPNLEAYKRLIENGTQLIVTVDNGVSGLEPIAYAQEH
GVDVVVTDHHELPSELPNAVAIVHPRHPEGQYPFGELCGVGVAFKVATALLEEIPYDKLDLAAIGTVCDIVPLVDENRTL
VSLGLQQLQNTDRPGLVALCQSAGLEQATLDATNIGFGIGPRLNAIGRLGDATLGVQLLTTLDDEEAVEQAQFIEQQNKK
RQGLVQEITATAMTIAETPENQASATLVIAHEGWHEGVLGIVASHVVEQTGKPTLVLTIDPETGLAKGSGRSVTAFHLFK
ALDAHRELLVHFGGHHMAVGLTAKVDQLALIQTAMNEYAQVNQLDLTGRQPLPVDLALTLADITPDLYQALQQLAPFGSD
NPEPLIELSAPQLADVKQIGADQKHLKMMAVDQQQQLAVLAFNKGALMPDLTAAEDVKLVGSLSENTWRGQTTLQLMVKD
LATSGQVVLDQRSNRLTKQLFQSTGDYVFFNDKMREQLQSYLPAGSQALLATDEQVATSQELIVVDEPADLTAFEQFYQQ
QQAAKLSLIFYAKHSAYLEGMPTKQQFATFLVYLRKHPNIEKARLAELAAYLKLQLPLMIFMLQVFFDLGFVRIERGLIT
AELQPEKHALESAPSYQKRLAKIEMEKQLVYSTFTEVKDWLATLPAVANR

Nucleotide


Download         Length: 2313 bp        

>NTDB_id=349666 GJ664_RS00640 WP_025016402.1 129631..131943(-) (recJ) [Latilactobacillus sakei strain CBA3614]
TTGGAAGCACAATATGAATGGCAATTAAAACCAGTACCAACTGAAGATGAATTACAAACAATTACAAAAGACAATCCGCT
ACCCAAGGCTGCGGCCCAACTTTTGTGGCAACGTGGCTTGCGGGATGCAGAGCAGATCAATGATTTTATGAATCCCAATG
TCGGTCAACTTCACGATCCATACGCTTTGCATGATATGCAAAAGGCGATTGATCGAATTCAAGAAGCGATTGTGAACGGC
GAAAAAATTACGATTTATGGCGATTATGACGCGGACGGGATCACAAGTACCACTTTGATGAAGGAAACTTTAGACGACTT
AGGTGCCGATGTTGAAGTCTATGTGCCTAATCGTTTTAAGGATGGCTACGGGCCTAATTTAGAAGCTTATAAACGCTTGA
TTGAAAATGGCACCCAATTAATTGTGACCGTCGATAACGGGGTGAGTGGCTTAGAACCAATCGCTTATGCGCAAGAACAC
GGTGTTGACGTGGTCGTGACCGATCACCATGAATTACCATCAGAATTACCCAACGCAGTGGCGATTGTGCATCCCAGACA
TCCAGAAGGGCAATATCCTTTTGGCGAACTCTGTGGGGTCGGTGTGGCGTTTAAAGTGGCGACTGCTTTATTAGAAGAGA
TTCCTTACGATAAATTAGATTTAGCCGCAATCGGGACGGTTTGTGATATCGTCCCCCTAGTTGATGAAAACCGGACATTG
GTTAGTTTAGGCTTACAACAATTACAAAATACCGATCGACCAGGTTTGGTCGCATTGTGTCAATCAGCTGGCTTAGAACA
AGCGACACTAGATGCCACTAACATTGGCTTTGGGATTGGTCCCCGTTTAAACGCAATTGGTCGTTTAGGTGATGCAACTC
TTGGTGTGCAACTATTGACGACGCTTGATGACGAAGAAGCAGTCGAGCAGGCCCAATTTATTGAACAACAAAATAAAAAA
CGCCAAGGTCTAGTGCAAGAAATTACGGCAACGGCAATGACAATTGCTGAAACACCGGAAAACCAAGCGAGTGCCACCTT
AGTTATTGCCCACGAAGGTTGGCATGAAGGGGTTCTAGGGATTGTGGCTAGTCATGTTGTTGAACAGACCGGTAAACCAA
CCTTAGTCTTGACGATTGACCCGGAAACTGGTTTAGCTAAAGGCTCTGGCCGTAGTGTGACAGCTTTCCATTTATTTAAA
GCGTTAGATGCCCACCGTGAATTATTGGTTCATTTTGGTGGCCATCACATGGCAGTTGGCTTGACTGCTAAGGTTGATCA
ATTAGCGCTGATTCAAACTGCAATGAACGAGTATGCGCAAGTTAATCAGTTAGATTTAACGGGACGCCAACCATTACCAG
TTGATTTGGCGCTGACGTTGGCTGATATTACACCTGATTTATATCAAGCATTGCAACAACTGGCACCGTTTGGCAGTGAT
AATCCAGAACCGTTAATCGAACTTAGCGCGCCCCAGTTGGCCGATGTCAAACAAATCGGTGCTGATCAGAAACATTTGAA
GATGATGGCGGTCGATCAACAACAACAATTAGCGGTTTTAGCTTTCAATAAAGGGGCTTTGATGCCCGATTTAACTGCCG
CTGAAGATGTGAAATTAGTCGGGAGTTTGAGTGAGAATACTTGGCGTGGCCAGACGACGTTGCAATTAATGGTAAAAGAC
CTTGCTACAAGTGGGCAAGTCGTACTTGATCAACGCAGCAATCGCCTGACAAAACAATTATTCCAATCAACAGGCGACTA
CGTCTTTTTTAATGATAAAATGCGCGAGCAACTGCAGTCTTATTTACCGGCAGGGAGTCAGGCGCTGTTAGCGACCGATG
AACAAGTTGCCACAAGCCAAGAGTTGATTGTGGTCGATGAACCAGCTGATTTAACTGCTTTTGAACAATTTTATCAACAA
CAACAGGCTGCTAAATTAAGCTTAATTTTTTATGCCAAACACTCTGCTTACTTAGAAGGAATGCCGACAAAACAACAGTT
TGCGACCTTCTTAGTTTACTTACGGAAGCATCCGAACATTGAAAAAGCGCGGTTAGCTGAATTAGCAGCGTATTTAAAAT
TACAATTACCGTTAATGATTTTCATGTTGCAGGTGTTTTTTGACCTCGGATTTGTTAGAATAGAACGTGGTCTGATTACG
GCCGAGTTACAACCTGAAAAGCATGCACTGGAAAGTGCACCAAGTTATCAAAAACGATTAGCTAAAATTGAAATGGAAAA
ACAGCTTGTTTATTCAACCTTTACCGAGGTGAAAGACTGGCTAGCAACTCTCCCAGCAGTAGCAAATCGCTAA


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

40.604

98.831

0.401

  recJ Bacillus subtilis subsp. subtilis str. 168

37.371

100

0.377