Detailed information    

insolico Bioinformatically predicted

Overview


Name   rexB   Type   Machinery gene
Locus tag   SSUJS14_RS04265 Genome accession   NC_017618
Coordinates   860250..863516 (+) Length   1088 a.a.
NCBI ID   WP_014636381.1    Uniprot ID   -
Organism   Streptococcus suis JS14     
Function   homologous recombination (predicted from homology)   
Homologous recombination

Genomic Context


Location: 855250..868516
Locus tag Gene name Coordinates (strand) Size (bp) Protein ID Product Description
  SSUJS14_RS11215 (SSUJS14_0840) - 855257..855421 (+) 165 WP_012775058.1 hypothetical protein -
  SSUJS14_RS04255 (SSUJS14_0841) - 855785..859660 (+) 3876 Protein_783 MucBP domain-containing protein -
  SSUJS14_RS11340 (SSUJS14_0843) - 859723..859959 (+) 237 WP_014636380.1 LPXTG cell wall anchor domain-containing protein -
  SSUJS14_RS04265 (SSUJS14_0844) rexB 860250..863516 (+) 3267 WP_014636381.1 ATP-dependent nuclease subunit B Machinery gene
  SSUJS14_RS04270 (SSUJS14_0845) rexA 863516..867166 (+) 3651 WP_012775061.1 helicase-exonuclease AddAB subunit AddA Machinery gene
  SSUJS14_RS04275 (SSUJS14_0846) plsY 867288..867932 (-) 645 WP_012775062.1 glycerol-3-phosphate 1-O-acyltransferase PlsY -

Sequence


Protein


Download         Length: 1088 a.a.        Molecular weight: 124491.71 Da        Isoelectric Point: 5.0909

>NTDB_id=40580 SSUJS14_RS04265 WP_014636381.1 860250..863516(+) (rexB) [Streptococcus suis JS14]
MKLVYTDIRNPLTQYLTEQTATFAEQGKRVFYIAPNSLSFEMERKVLEYLPEQATFDIIVTRFGQLARYLMIDRKEAGQP
LDDVGLAMIFFRVLSQFEDGDLKVYGRLQTDFGFINQLVALYKELQRANMSILDLEAMDSPDKQADLVKIFLAVTDILSK
EGFEHQSKLAQLTGLVETGQLDEQLKNIVLVVDGFSRFSAEEEALVSALNERVSEILIGVYASKKAVQATYAEGNVYQAN
VDFLRQLSAQFQTKATYIGQEPVLDSIGKFSKNMEAYYDYSGTMIDLTPPDQEKIQLWEVVNQKEEVEQVATAIRQHVHQ
GARYKDILLLLGDVDSYKLQIGKIFDKYDIPYYFGKAEEMSHHPLVHFVESLERLRRYRFRAEDLLNLLKSGLYASISQK
ELDLFESYILFADMKGQAAFSRAFSVNGRADYDAEVIKEKRLVYDLTVLEPLRAKIMEPLNQLFKAGPQSGTALLEKFMA
FLEAIDLPKNMEKMSRNLSEVEQEKEEQVWKSFTHLLENFHQIFGKEKLKMDDFLAILQAGMQASHYRTVPATVDVVNVK
SYDLIEPHTAKYVYAIGMGQSNFPKVAKNTSLLTEEEMEKVNLVSASSSRFDLVSRENIKKNHAAMMSLLNSATEQLVIS
TPQIYNEGEDSLSPYIKILQKMGLKSEERGRIKTLSPQDIGHYKSLLSRLIESERPSLETEEWEGQRAFWTVLVRHLKKK
LESQSIEIPTITGDIASKQLSDETLAALYPEDKPLNLSASSLTNFYNNQYLYFVRNVLRLREQESIHPTAFQHGLFLHRI
FERVVMDQSELDFDQKVDKAILRTRDEAEFAMFYNQDADARYTEEVLDKIARSSATILRDNDLVEIDGQEKSFRQDKALV
FDLQNGKSVHVNGTIDRLDTLQINQAVGVVDYKSSDQSFSVGDFYNGLKPQLVTYLAALQELDETKDKPVFGAMYLHLQD
PIIKLKDTKNLEQLEGAANTSLVYKGLFLKEESLGLNHFYQTRNQLYTEDEFAVLLNHNQELYKQAAMDILAGRFAINPY
TKDGRSVAGEQLKAITGFEADRHMGMARRLVKEAKRQDWMERMKGGQD

Nucleotide


Download         Length: 3267 bp        

>NTDB_id=40580 SSUJS14_RS04265 WP_014636381.1 860250..863516(+) (rexB) [Streptococcus suis JS14]
ATGAAATTAGTCTATACAGATATTCGCAATCCTCTGACGCAGTATTTGACAGAACAGACAGCAACATTTGCCGAGCAGGG
CAAACGTGTTTTTTATATTGCTCCAAACTCTCTATCCTTTGAGATGGAACGCAAGGTCTTGGAATACCTGCCTGAACAGG
CAACTTTTGATATTATCGTGACCCGTTTTGGGCAATTGGCCCGCTATTTGATGATTGATAGGAAAGAAGCAGGTCAACCG
CTGGATGATGTTGGTCTGGCAATGATTTTCTTTCGTGTTCTATCGCAATTTGAAGATGGCGACTTGAAAGTCTATGGTCG
TTTACAGACAGATTTTGGTTTCATTAACCAGCTAGTTGCTTTATACAAAGAATTGCAACGGGCAAATATGTCTATTTTGG
ACTTGGAAGCCATGGACTCACCAGATAAGCAGGCTGATTTGGTAAAGATTTTTCTGGCTGTAACAGACATTTTGTCCAAA
GAAGGCTTTGAGCATCAGTCTAAGTTAGCACAGTTGACTGGCTTGGTAGAAACTGGTCAGTTGGATGAGCAGTTGAAGAA
CATTGTGCTGGTGGTAGACGGATTTTCTCGTTTTTCGGCAGAAGAAGAAGCTTTAGTAAGTGCTTTAAATGAACGGGTGT
CGGAAATCCTGATTGGTGTATATGCCAGCAAGAAAGCTGTGCAAGCCACCTATGCGGAAGGCAACGTCTATCAAGCCAAC
GTTGACTTTTTACGTCAGTTATCAGCGCAGTTCCAGACTAAGGCAACTTATATTGGTCAAGAGCCGGTCTTGGACAGTAT
CGGTAAATTTTCAAAGAATATGGAAGCCTATTATGACTACAGCGGGACCATGATAGACTTGACTCCACCAGACCAAGAAA
AAATCCAACTCTGGGAGGTTGTTAACCAAAAAGAAGAAGTGGAGCAAGTTGCGACTGCAATTCGTCAGCATGTGCATCAA
GGTGCTCGCTATAAAGACATCTTGTTGCTCTTGGGTGACGTGGATAGCTACAAGTTGCAGATTGGCAAGATTTTTGACAA
GTATGACATTCCTTACTATTTCGGTAAGGCAGAGGAGATGAGTCATCATCCGTTGGTCCATTTTGTGGAGTCCTTGGAGC
GCTTGCGTCGCTATCGTTTTCGTGCGGAAGACCTGCTCAATCTCCTCAAATCTGGTTTGTACGCCAGCATTTCCCAAAAG
GAGCTGGACCTATTTGAGTCTTACATCCTTTTTGCGGATATGAAGGGGCAGGCTGCTTTTTCGAGGGCTTTTTCGGTCAA
TGGCAGAGCAGACTATGATGCTGAAGTCATCAAGGAGAAAAGGCTTGTCTATGATTTGACTGTCTTGGAACCCCTACGTG
CTAAGATTATGGAACCTTTGAACCAGCTGTTTAAGGCTGGACCACAATCTGGAACTGCCTTGCTTGAGAAATTTATGGCA
TTTTTGGAGGCAATTGATCTTCCTAAAAATATGGAAAAAATGTCTCGAAATTTGAGTGAAGTAGAGCAAGAAAAAGAAGA
GCAGGTCTGGAAAAGTTTTACCCATCTTCTTGAGAATTTTCATCAGATTTTCGGAAAAGAAAAGTTGAAAATGGATGATT
TTCTGGCTATTTTACAGGCTGGAATGCAGGCCAGCCACTATCGTACCGTTCCTGCAACAGTTGATGTGGTCAATGTCAAA
TCCTATGATTTGATCGAGCCGCACACTGCAAAGTATGTTTATGCTATCGGAATGGGTCAGTCAAATTTTCCAAAAGTTGC
CAAGAATACCAGTCTATTGACAGAAGAAGAGATGGAAAAAGTCAATCTTGTCTCGGCTAGTTCCTCACGTTTCGATTTGG
TCAGCCGAGAGAATATCAAGAAGAACCATGCTGCTATGATGTCTCTGCTTAATTCTGCGACGGAACAGTTAGTCATTTCT
ACTCCTCAGATTTATAACGAAGGCGAAGATAGTCTCTCCCCATATATCAAGATTCTCCAAAAAATGGGGTTGAAATCCGA
AGAACGTGGTCGGATTAAAACACTTAGTCCACAAGACATCGGTCACTACAAGAGTCTCTTATCCCGTTTGATTGAGTCGG
AAAGACCAAGCCTTGAAACAGAGGAGTGGGAAGGGCAGAGGGCCTTCTGGACAGTCTTGGTTCGCCATTTGAAGAAGAAA
TTGGAGTCGCAAAGCATTGAAATTCCGACCATTACTGGTGATATTGCTTCTAAACAACTTTCAGATGAAACCTTGGCTGC
TTTATATCCAGAGGATAAGCCGCTCAATCTTTCTGCATCCAGCTTGACCAATTTCTACAATAACCAATATCTTTACTTTG
TCCGTAATGTTCTTCGCCTGCGGGAACAGGAATCCATCCATCCGACTGCCTTTCAGCATGGTTTGTTCTTGCATCGGATT
TTTGAACGAGTGGTCATGGACCAATCTGAGCTAGATTTTGATCAAAAAGTGGACAAGGCAATTCTGCGTACGCGTGACGA
GGCAGAATTTGCTATGTTTTATAACCAGGATGCGGATGCTCGTTATACGGAGGAGGTGCTGGATAAGATTGCTCGTTCCA
GTGCGACTATTTTGCGGGATAATGATTTGGTTGAAATTGATGGCCAGGAAAAGAGTTTCCGTCAGGATAAGGCGCTGGTT
TTTGACCTTCAAAATGGCAAGAGTGTGCATGTAAATGGTACCATTGACCGCTTGGATACCTTACAAATCAATCAGGCTGT
CGGTGTTGTGGATTACAAGTCCAGCGACCAATCTTTTTCAGTTGGGGATTTTTATAATGGTCTCAAACCTCAGTTGGTGA
CCTACTTGGCAGCCTTACAAGAGCTGGATGAAACCAAGGATAAACCTGTTTTTGGGGCTATGTATTTGCATTTGCAGGAT
CCGATTATCAAATTAAAAGACACGAAGAATTTAGAACAGCTAGAAGGAGCTGCCAATACTAGCTTGGTTTACAAGGGGCT
TTTCTTGAAGGAGGAAAGTCTGGGGCTCAATCATTTTTATCAGACTCGTAACCAACTCTACACGGAAGATGAGTTTGCGG
TTTTATTGAACCACAACCAAGAACTATACAAACAAGCTGCCATGGACATTCTGGCTGGTCGCTTTGCTATTAACCCTTAT
ACCAAAGATGGGCGTTCGGTGGCAGGTGAGCAGCTGAAGGCAATCACTGGTTTTGAGGCGGATCGGCACATGGGCATGGC
ACGGCGGTTGGTCAAAGAGGCCAAGCGTCAAGATTGGATGGAACGAATGAAAGGAGGTCAGGACTAA

Domains


Predicted by InterProScan.

(757-1041)


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

44.968

100

0.456