Detailed information    

insolico Bioinformatically predicted

Overview


Name   rexB   Type   Machinery gene
Locus tag   GKC13_RS01575 Genome accession   NZ_CP046134
Coordinates   284333..287653 (+) Length   1106 a.a.
NCBI ID   WP_207559843.1    Uniprot ID   -
Organism   Streptococcus thermophilus strain MAG_rmk202_sterm     
Function   homologous recombination (predicted from homology)   
Homologous recombination

Genomic Context


Location: 279333..292653
Locus tag Gene name Coordinates (strand) Size (bp) Protein ID Product Description
  GKC13_RS01550 (GKC13_01545) - 280407..281409 (+) 1003 Protein_296 DUF6574 domain-containing protein -
  GKC13_RS01555 - 281454..281594 (+) 141 WP_172838683.1 hypothetical protein -
  GKC13_RS01560 (GKC13_01550) - 281871..282491 (+) 621 WP_207559844.1 hypothetical protein -
  GKC13_RS10445 (GKC13_01555) - 282709..283139 (+) 431 Protein_299 LytTR family DNA-binding domain-containing protein -
  GKC13_RS10450 (GKC13_01560) - 283192..283843 (+) 652 Protein_300 hypothetical protein -
  GKC13_RS01575 (GKC13_01565) rexB 284333..287653 (+) 3321 WP_207559843.1 ATP-dependent nuclease subunit B Machinery gene
  GKC13_RS01580 (GKC13_01570) rexA 287643..291296 (+) 3654 WP_207559842.1 helicase-exonuclease AddAB subunit AddA Machinery gene
  GKC13_RS01585 (GKC13_01575) - 291690..292421 (-) 732 WP_084829849.1 DUF554 domain-containing protein -

Sequence


Protein


Download         Length: 1106 a.a.        Molecular weight: 126774.61 Da        Isoelectric Point: 5.0304

>NTDB_id=350141 GKC13_RS01575 WP_207559843.1 284333..287653(+) (rexB) [Streptococcus thermophilus strain MAG_rmk202_sterm]
MKLLYTDMSQDLTEILTEQASSYAQKGKRVFYIAPSALSFEKERKVLEYLPQSASFDITVTRFTQMARYFILNTSNPKTQ
LDDTGLAMIFYKVLLHMGNDELKVYGRLRKDSNFINQLVDLYKELQQANMTVLDLQHLDQVEKQEDLVRIFSAAQDLLLA
GDFDNQSKLSAFFKEITSGHLDEALSNTVLVIDGFTRFSAEEEALVALLNDKCHQIVVGTYTSQKAYKANFVYGNVYQAS
VDFLRTLAQTYKVIPDYVTTDKEGNLSFARISRLLESRHDFSTVDETVTEQDKHALKVWEVVNQKEEVAQVAKSIRQLLA
DGKRYKDILVLLGDEESYKLHVGQIFRKFDIPYYFGKEESMSSHPLVEFVDSLERIKRYNYRAEDLLNLVKSGLYGGFAQ
EDLDLFEYYVNFADIKGRHKFLSDFTANSRDKYNLDQINALRSQLIEPLDKFLNSRKQKGSSLLKKLVVFLEAVQLPSQM
VELSTKASEAEKEQNEQVWKAFTHILEQVETIFGDESLSVDDFLSILRSGMLACDYRTVPATVDVVNVKKYDLIQPHSAP
YVFALGMTQSHFPKVGQNKSLLSDEERSRINEATDEHRRLDIVTQINSKRGHFVAMSLFNAASEQLVLSQPQIINESQDD
MSVYLKELLDLGIPLVEKGRNRFEAMGDQIGNYRDLLSTVIALNSSHLDLDLDKETQTFWSVAVRYLRKRLDKDQVLIPK
VIDDVTTTKVDDQVMQLVFPEEEPLKLSATALTTFYNNQYLYFLRYVLELEELESIHPDARHHGTYLHRVFERVMGDSSS
ESFDDKLEKAIAQTNQDQPFEILYTEDQESRFSRQILEDIARSTASVLRDNAAVKVEREEVKFDLLLANSIKITGIIDRV
DRLTDGALGVVDYKTGKNVFDIQKFYNGLSPQLVTYLEALRQTYKVDADQLFGAMYLHMQVPQLNLAQIGLEKLAAQAHK
ELTYKGLFVASETEHLTGGNYDLQKTVTYDKEDLETLLDYNIKLFRSAAEVIRSGNFAINPYTEDCKSVQGDQIKSITHF
EADRHMGQARKLLRLPKKGKKEAYLELMAKTEEENQMQVSENTISFPVIDHAVRVDKKDQEDNHVD

Nucleotide


Download         Length: 3321 bp        

>NTDB_id=350141 GKC13_RS01575 WP_207559843.1 284333..287653(+) (rexB) [Streptococcus thermophilus strain MAG_rmk202_sterm]
ATGAAATTACTTTATACGGATATGTCTCAGGATTTAACAGAAATTCTGACGGAGCAGGCGTCTAGCTATGCTCAAAAGGG
AAAGAGGGTTTTTTATATTGCTCCTAGTGCCCTATCCTTTGAAAAGGAGCGAAAGGTTTTAGAATACCTGCCTCAGTCAG
CATCTTTTGACATTACGGTGACTCGTTTTACTCAGATGGCTAGGTATTTTATTCTCAATACGAGTAACCCAAAGACTCAG
TTGGATGATACAGGTTTGGCCATGATTTTTTATAAAGTGTTGTTGCACATGGGCAATGATGAGCTCAAGGTCTATGGCCG
TTTGCGTAAGGATAGCAACTTTATTAATCAATTAGTGGACCTTTATAAAGAGTTGCAGCAGGCCAATATGACAGTATTAG
ATTTACAGCATTTGGATCAGGTTGAAAAACAAGAGGATTTGGTAAGGATTTTCAGTGCAGCTCAGGACCTCTTGTTGGCA
GGAGATTTTGACAATCAATCAAAGCTTAGTGCCTTCTTTAAGGAAATTACCTCAGGACATCTGGATGAGGCCTTGAGTAA
CACAGTTTTGGTCATTGATGGTTTTACCCGTTTCTCGGCTGAGGAGGAGGCTCTGGTTGCACTCTTGAACGACAAGTGCC
ACCAGATTGTAGTGGGGACCTATACTAGTCAAAAAGCTTATAAGGCCAATTTTGTTTATGGCAATGTTTATCAAGCCTCA
GTGGATTTCTTGAGGACTTTGGCTCAGACATATAAGGTGATACCCGACTACGTGACGACAGACAAGGAGGGCAATCTTTC
TTTTGCGCGTATTAGTCGTCTTTTGGAGAGCCGTCATGACTTTAGTACGGTAGATGAGACGGTAACTGAGCAGGATAAGC
ATGCCCTGAAGGTTTGGGAAGTGGTCAACCAGAAAGAAGAAGTGGCCCAGGTTGCCAAGAGTATTCGCCAGTTGCTGGCA
GATGGCAAGCGTTACAAGGATATTTTGGTCTTGCTTGGTGACGAGGAGAGTTATAAGCTTCACGTGGGGCAGATTTTCCG
AAAATTTGATATTCCTTATTATTTCGGTAAGGAAGAAAGCATGTCTAGCCATCCTTTGGTGGAGTTTGTGGATTCGCTAG
AGCGTATCAAGCGCTATAACTACCGTGCTGAGGATTTGCTTAACCTTGTAAAATCCGGTCTCTATGGTGGTTTTGCTCAA
GAGGATTTAGATCTTTTTGAGTATTATGTCAATTTTGCGGATATCAAGGGGCGTCATAAATTCTTGTCTGATTTTACAGC
TAATAGTCGTGATAAGTATAATTTAGACCAGATCAATGCCTTGCGGTCACAATTGATAGAGCCCTTGGACAAGTTTCTTA
ATAGTCGCAAACAAAAGGGATCTAGTCTACTCAAGAAACTGGTGGTCTTTTTAGAGGCTGTGCAACTGCCAAGTCAGATG
GTTGAATTGTCCACCAAGGCCAGTGAAGCTGAAAAAGAACAGAATGAACAGGTTTGGAAGGCTTTCACTCATATCTTGGA
GCAGGTTGAGACTATCTTTGGAGACGAATCGCTCTCAGTGGACGACTTTTTGTCTATCTTGCGTTCGGGAATGTTGGCCT
GTGATTACCGTACGGTTCCAGCCACTGTTGATGTGGTCAATGTGAAAAAATACGACTTAATACAGCCACATTCGGCTCCG
TATGTTTTTGCCTTGGGGATGACCCAGTCACATTTTCCTAAGGTAGGACAAAATAAGAGTCTCCTGTCTGATGAGGAGCG
TAGTCGTATCAATGAGGCGACGGATGAGCACAGGAGATTGGATATTGTTACGCAGATCAATAGTAAGCGAGGTCATTTTG
TGGCTATGTCGCTTTTCAATGCTGCTAGTGAACAATTAGTGCTTAGTCAGCCACAAATTATAAATGAAAGTCAAGATGAC
ATGTCTGTTTATTTGAAGGAGCTTCTTGACCTTGGTATTCCATTGGTGGAAAAGGGACGCAATCGTTTCGAAGCAATGGG
GGACCAGATTGGGAACTATAGAGACCTTCTGTCGACTGTCATTGCCCTTAACAGTAGTCATTTGGATCTTGACTTGGACA
AAGAAACCCAGACTTTCTGGTCGGTTGCTGTACGCTATCTCCGTAAGCGACTTGATAAGGATCAAGTCTTGATTCCAAAG
GTGATTGACGATGTGACGACAACCAAGGTGGACGATCAGGTCATGCAGTTGGTCTTTCCGGAGGAAGAACCACTGAAATT
ATCAGCTACAGCTCTGACGACCTTCTATAACAACCAATATCTTTATTTCTTGCGTTATGTTTTGGAACTTGAGGAGCTAG
AGTCTATCCATCCGGATGCTCGACACCACGGGACTTATTTACACCGAGTCTTTGAGCGTGTGATGGGTGATTCGTCATCA
GAAAGCTTCGATGATAAATTGGAAAAGGCCATTGCTCAGACCAATCAGGATCAACCTTTTGAAATTCTCTATACCGAGGA
CCAAGAGAGTCGTTTCTCTCGTCAGATTTTGGAGGACATTGCGCGTTCAACTGCCAGTGTTCTACGTGACAATGCGGCGG
TTAAGGTTGAGCGTGAGGAAGTCAAGTTTGACTTGCTTTTAGCAAATAGCATCAAGATTACTGGGATTATTGACCGAGTG
GACCGTTTAACAGATGGTGCTCTGGGTGTTGTTGACTATAAAACAGGTAAAAATGTCTTTGATATTCAGAAATTCTACAA
TGGCCTCAGTCCGCAATTGGTGACCTATCTGGAGGCTCTCCGTCAAACCTATAAGGTTGATGCTGATCAACTTTTTGGGG
CTATGTATCTTCACATGCAGGTCCCACAGCTTAACCTAGCTCAGATTGGTTTGGAAAAGCTAGCGGCTCAGGCTCATAAG
GAATTGACTTATAAGGGACTTTTTGTGGCTTCAGAAACGGAGCATTTGACTGGTGGAAACTATGATCTGCAAAAGACTGT
CACCTATGACAAGGAGGATTTAGAAACCTTGTTGGACTACAATATTAAGCTCTTTAGGAGTGCTGCTGAAGTTATTCGAA
GTGGGAATTTTGCGATCAATCCTTATACTGAGGATTGCAAGTCTGTTCAAGGGGATCAAATCAAGTCTATTACTCACTTC
GAGGCCGACCGCCACATGGGACAGGCTCGTAAACTCTTGCGTTTACCCAAAAAGGGCAAGAAGGAAGCCTATTTGGAGTT
GATGGCAAAAACTGAGGAAGAGAATCAGATGCAAGTTTCTGAAAATACTATCTCCTTTCCAGTCATTGATCATGCTGTGA
GAGTAGACAAAAAAGACCAGGAGGATAACCATGTTGACTAA

Domains


Predicted by InterProScan.

(747-1027)


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
  rexB Streptococcus pneumoniae R6

43.015

98.373

0.423


Multiple sequence alignment