Detailed information    

insolico Bioinformatically predicted

Overview


Name   rexB   Type   Machinery gene
Locus tag   ACJVG6_RS08675 Genome accession   NZ_CP177180
Coordinates   1839139..1842459 (-) Length   1106 a.a.
NCBI ID   WP_004183412.1    Uniprot ID   -
Organism   Streptococcus salivarius strain MRD-KRBY     
Function   homologous recombination (predicted from homology)   
Homologous recombination

Genomic Context


Location: 1834139..1847459
Locus tag Gene name Coordinates (strand) Size (bp) Protein ID Product Description
  ACJVG6_RS08665 - 1834411..1835142 (+) 732 WP_002891763.1 DUF554 domain-containing protein -
  ACJVG6_RS08670 rexA 1835496..1839149 (-) 3654 WP_004183410.1 helicase-exonuclease AddAB subunit AddA Machinery gene
  ACJVG6_RS08675 rexB 1839139..1842459 (-) 3321 WP_004183412.1 ATP-dependent nuclease subunit B Machinery gene
  ACJVG6_RS08680 - 1842710..1844083 (-) 1374 WP_004183414.1 GHKL domain-containing protein -
  ACJVG6_RS08685 - 1844119..1845429 (-) 1311 WP_004183415.1 hypothetical protein -
  ACJVG6_RS08690 - 1845650..1847101 (-) 1452 WP_004183416.1 IS1182 family transposase -

Sequence


Protein


Download         Length: 1106 a.a.        Molecular weight: 126039.41 Da        Isoelectric Point: 4.8651

>NTDB_id=969629 ACJVG6_RS08675 WP_004183412.1 1839139..1842459(-) (rexB) [Streptococcus salivarius strain MRD-KRBY]
MKLLYTDMSQDLTEILTEQATSYAQKGKRVFYIAPNALSFEKERKVLEYLPQSASFEITVTRFTQMARYFILNTSNPKTQ
LDDTGLAMIFYKVLSHMGDDELKVYGRLRKDSNFINQLVDLYKELQQANMTVLDLQHLDQVEKQEDLLRIFSAAQDLLLA
GDFDNQSKLSAFFKEITSGHLDKALSNTVLVIDGFTRFSAEEEALVALLNDKCHQIVIGTYTSQKAYSANFVYGNVYQAS
VDFLRTLAQTYKVTPDYVTTDKEGNPSFAHISRLLESRHDFSTIDEQLTAQDKQALQVWEVVNQKEEVAQVAKSIRQLLA
DGKRYKDILVLLGDEESYKLQVGQIFRKFDIPYYFGKEETMSSHPLVQFVDSLERIKRYNYRAEDLLNLIKSGLYGGFAQ
EDLDLFEYYVNFADIKGRHKFLSDFTANSRDKYDLDQLNALRSQLVEPLDKLLNSRKQKGSSLLKKLVVFLEAVQVPSKM
AALTGKASEAEKEQNEQVWKAFTQLLEQVETIFGEETLSVDDFLSILRSGMLACDYRTVPATVDVVNVKKYDLIQPHSAP
YVFALGMTQSHFPKVGQNKSLLSDEERSRINEATDEHRSLDIVTQSNSQRGHFVAMSLFNAASEQLVLSQPQILNETQDD
MSVYLKELLDLGLSLVEKGRNRFEAKGDQIGNYKDLLSTVIALNSSHLDADLDKETQTFWSVAVRYLRKRLDKDQVLIPN
VIDDVTTTKVDDQVMQLVFPREEPLKLSASALTTFYNNQYLYFLRYVLGLEELESIHPDARHHGTYLHRVFERVMGDSSS
ENFDDKLEKAIAQTNQEQPFEILYTEDQESRLSRQILEDIARSTASVLRDNAAVKVEREEAKFDLLLANSIKITGIIDRV
DRLTDGALGVVDYKSGKNVFDIQKFYNGLSPQLVTYLEALRQTYKVDADQLFGAMYLHMQDPQLNLAQFGLDKLAAQAHK
ELTYKGLFVASETEHLAGGNYDLQKTVTYDKEDLETLLEYNIKLFTGAAEVIRSGNFAVNPYTEDGKSVQGNQIKAITHF
EADRHMGQARKLLRLPSKGKKEAYLELMAKDEDDNEMQVAETIVPFPVTEQAVTVDKKDQEDNHVD

Nucleotide


Download         Length: 3321 bp        

>NTDB_id=969629 ACJVG6_RS08675 WP_004183412.1 1839139..1842459(-) (rexB) [Streptococcus salivarius strain MRD-KRBY]
ATGAAATTACTTTATACGGATATGTCTCAGGATTTAACAGAAATTCTGACGGAGCAGGCAACCAGCTATGCTCAAAAGGG
AAAGAGGGTCTTTTATATTGCCCCTAATGCCCTGTCATTTGAGAAGGAGCGTAAGGTCTTGGAATACCTGCCTCAGTCAG
CATCCTTTGAGATTACGGTGACTCGTTTTACTCAGATGGCTAGATATTTCATTCTCAATACGAGCAACCCCAAAACGCAG
CTGGATGATACTGGTCTGGCCATGATTTTTTATAAGGTGTTGTCGCATATGGGCGATGATGAGCTCAAGGTTTATGGCCG
TTTGCGCAAGGATAGTAACTTTATTAATCAATTGGTAGACCTTTACAAAGAGTTGCAGCAGGCTAATATGACGGTTCTGG
ATTTGCAGCATTTGGATCAGGTTGAGAAACAAGAGGATTTGCTCAGGATTTTCAGTGCGGCTCAGGATCTCTTGTTGGCA
GGAGATTTTGACAATCAATCAAAACTTAGTGCCTTCTTCAAGGAAATTACCTCAGGACATCTGGATAAGGCACTGAGTAA
TACGGTTTTGGTCATTGATGGCTTTACGCGTTTCTCTGCCGAGGAGGAGGCCCTAGTTGCCCTCTTGAATGATAAGTGCC
ACCAAATTGTCATTGGGACTTATACCAGTCAAAAAGCTTATAGTGCTAACTTTGTTTACGGCAATGTTTATCAGGCTTCA
GTGGATTTTCTGAGAACTCTGGCTCAGACCTATAAGGTGACACCCGACTATGTGACGACAGACAAAGAGGGGAATCCTTC
TTTTGCACATATTAGCCGTCTTTTGGAGAGCCGTCATGATTTTAGTACGATTGACGAGCAGCTGACTGCTCAGGACAAGC
AAGCTTTGCAGGTTTGGGAAGTGGTCAACCAAAAGGAAGAAGTGGCTCAGGTTGCTAAGAGTATTCGTCAGTTGCTAGCA
GATGGCAAGCGCTATAAGGATATCTTGGTCTTGCTAGGTGATGAGGAGAGTTATAAGCTTCAGGTGGGTCAGATTTTTCG
AAAATTTGATATTCCCTATTATTTCGGTAAGGAAGAAACCATGTCTAGCCATCCTTTGGTGCAGTTTGTGGATTCCTTGG
AGCGGATCAAACGCTACAATTACCGTGCTGAGGATTTACTTAATCTCATAAAATCCGGTCTCTATGGTGGTTTTGCTCAA
GAGGATTTAGACCTTTTTGAGTATTATGTCAATTTTGCAGATATCAAGGGGCGTCACAAGTTCCTTTCTGATTTCACGGC
TAATAGTCGTGATAAGTATGATTTGGACCAGCTCAATGCCTTGAGGTCACAACTGGTAGAGCCTTTGGACAAGTTGCTTA
ACAGTCGCAAACAGAAGGGGTCTAGTCTGCTCAAAAAACTTGTGGTTTTTTTAGAGGCTGTGCAAGTGCCAAGTAAGATG
GCTGCTTTGACTGGCAAGGCCAGTGAGGCCGAAAAAGAGCAGAATGAACAGGTCTGGAAGGCTTTCACACAACTCTTGGA
GCAGGTTGAGACTATTTTTGGGGAAGAAACTCTGTCAGTGGACGACTTTTTGTCCATTTTGCGTTCAGGAATGTTGGCCT
GTGATTACCGTACGGTCCCAGCCACTGTCGATGTGGTTAATGTGAAGAAATACGATTTGATTCAACCACACTCTGCTCCT
TATGTTTTTGCCTTGGGAATGACCCAGTCGCATTTTCCAAAGGTAGGGCAAAATAAGAGTCTCCTGTCTGACGAGGAACG
TAGTCGTATCAATGAAGCTACGGACGAGCACAGAAGTTTGGATATTGTTACGCAGAGCAATAGCCAGCGGGGACATTTCG
TGGCTATGTCACTTTTTAATGCGGCTAGTGAACAATTGGTGCTTAGTCAGCCACAAATTCTCAATGAGACTCAAGATGAC
ATGTCGGTTTATTTGAAGGAGCTGCTTGACCTTGGTCTTTCTTTGGTTGAAAAGGGACGTAATCGTTTCGAGGCTAAGGG
TGACCAGATTGGGAACTACAAGGACCTTCTATCAACTGTCATCGCCCTTAACAGTAGCCATTTAGATGCTGATTTGGATA
AGGAAACGCAGACTTTCTGGTCAGTTGCTGTGCGTTATCTCCGTAAGCGACTTGATAAGGACCAAGTCTTGATTCCAAAT
GTGATTGACGATGTGACGACAACCAAGGTGGATGATCAAGTCATGCAGCTGGTCTTTCCGAGGGAAGAACCACTGAAATT
ATCAGCCTCGGCTCTGACGACCTTCTATAACAACCAATATCTTTATTTCTTGCGTTATGTTTTGGGACTTGAAGAGTTGG
AGTCCATCCATCCAGATGCTCGACACCACGGGACTTATTTGCACCGTGTCTTTGAGCGTGTTATGGGGGATTCTTCGTCA
GAAAACTTCGATGATAAATTGGAAAAGGCTATTGCTCAGACCAATCAGGAACAACCCTTTGAAATTCTCTATACAGAGGA
CCAAGAGAGTCGCTTGTCTCGTCAGATTTTGGAAGATATCGCCCGTTCAACTGCCAGTGTTTTGCGTGACAATGCGGCTG
TTAAGGTTGAGCGTGAGGAAGCCAAGTTTGATTTGCTCTTAGCAAATAGCATCAAGATTACAGGGATTATTGACCGTGTG
GACCGTTTAACGGATGGGGCTCTGGGTGTCGTTGACTACAAGTCAGGTAAAAATGTCTTTGACATTCAAAAATTCTACAA
TGGCCTCAGCCCACAGTTGGTAACCTATCTAGAAGCCCTTCGACAAACCTATAAAGTCGATGCTGATCAGCTTTTTGGTG
CCATGTATCTTCACATGCAGGACCCACAGCTTAACTTAGCTCAGTTTGGTCTGGATAAGCTAGCAGCTCAGGCTCATAAG
GAATTGACCTATAAGGGACTCTTTGTGGCTTCAGAGACGGAGCATCTGGCTGGTGGAAACTATGATTTACAAAAGACTGT
CACCTACGACAAGGAGGACCTAGAGACCTTGTTAGAATACAATATCAAGCTCTTTACAGGTGCTGCTGAAGTTATTAGAA
GCGGGAATTTTGCGGTCAATCCTTATACTGAGGATGGCAAGTCTGTTCAAGGGAATCAAATCAAGGCTATTACTCATTTT
GAGGCCGACCGCCACATGGGACAGGCTCGAAAACTCTTGCGTTTACCAAGTAAGGGCAAGAAGGAAGCCTATTTGGAGCT
GATGGCAAAAGATGAGGACGATAATGAGATGCAAGTTGCTGAAACTATCGTCCCCTTTCCAGTCACTGAACAAGCTGTGA
CAGTAGACAAAAAAGACCAGGAGGACAACCATGTTGACTAA

Domains


Predicted by InterProScan.

(747-1023)


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

43.526

98.463

0.429