Detailed information    

insolico Bioinformatically predicted

Overview


Name   rexA   Type   Machinery gene
Locus tag   RMQ61_RS06440 Genome accession   NZ_CP135090
Coordinates   1291700..1295350 (-) Length   1216 a.a.
NCBI ID   WP_313926179.1    Uniprot ID   -
Organism   Streptococcus suis strain ID48908     
Function   homologous recombination (predicted from homology)   
Homologous recombination

Genomic Context


Location: 1286700..1300350
Locus tag Gene name Coordinates (strand) Size (bp) Protein ID Product Description
  RMQ61_RS06415 (RMQ61_06420) - 1287200..1287651 (-) 452 Protein_1222 GTP pyrophosphokinase -
  RMQ61_RS06420 (RMQ61_06425) - 1287680..1288183 (-) 504 WP_313926177.1 YkvA family protein -
  RMQ61_RS06425 (RMQ61_06430) fic 1288216..1288818 (-) 603 WP_105211809.1 protein adenylyltransferase Fic -
  RMQ61_RS06430 (RMQ61_06435) parE 1288842..1290791 (-) 1950 WP_313926178.1 DNA topoisomerase IV subunit B -
  RMQ61_RS06435 (RMQ61_06440) plsY 1290934..1291578 (+) 645 WP_012775062.1 glycerol-3-phosphate 1-O-acyltransferase PlsY -
  RMQ61_RS06440 (RMQ61_06445) rexA 1291700..1295350 (-) 3651 WP_313926179.1 helicase-exonuclease AddAB subunit AddA Machinery gene
  RMQ61_RS06445 (RMQ61_06450) rexB 1295350..1298616 (-) 3267 WP_313926180.1 ATP-dependent nuclease subunit B Machinery gene

Sequence


Protein


Download         Length: 1216 a.a.        Molecular weight: 139668.96 Da        Isoelectric Point: 5.0888

>NTDB_id=809037 RMQ61_RS06440 WP_313926179.1 1291700..1295350(-) (rexA) [Streptococcus suis strain ID48908]
MAFEAFLSAEEIKAVQLAEANSDKQQKRTPEQIEAIYTHGQNVLVSASAGSGKTFVMVQRILDKLKRGVGIDQLFISTFT
VKAAGELKERIEKNLNETIAETTDMELRRHLSAQLADLTKADIGTMDSFTQKLVTTYGYSLGISPQFRILQDETEKASLK
KEVFDQLFADYLEKDENGAFRKLVRNFSGNRKDNSGFRQVVYQVHDFSQSTSSPTKWLKEQAVQADLYSQERIEQILEQG
FKEKVLDKLYQAADFFRYHVEWGRNDFGSAKYFSSVEDVIELLTGIEHLESKQLMERVERILLINDQSRGKGLTNANRPK
DEHLIAFKEEYNAGKSQLISGLRDLGQEVYELTLLKDYQDQAVPLLILLRDFVLDFSQAYLDVKIKEAAFEFGDIGHFAI
RILEENADIRQFFQEKYHEVMVDEYQDNNHSQERMLDLLSNGHNRFMVGDIKQSIYRFRQADPMIFQEKFELYQENPQAG
KLILLKENFRSQIEVLEATNAIFTRLMDRQVGEIKYDDTHSLVAGSPGQKIAQPKHEMEYLIYDQQDSANSSTDAEEETP
LTAGEIEVVAKEIIRLHNEEGADFKDITLLVQKRTHNDLIMSIFEKHGIPIVADGGAASYLQSLEVMIMLDTLRVINNPL
NDYALVALLKSPMFRFDEDELTRISLQAGTGFFYQKMEIAQQTNGQHPELMSGELKKKIKDFLSILENWRAFAKMHSIYD
LIWKIFNEKFYYDYVGALPNGSKRQANLYALGLRANQFEKTGYKGLSRFIAMIDRALANDKDLADVQEFLPQNAVQLMTI
HKSKGLEFKYVFLMNIDKRFNLEDHYQSVIISRKNGLGIQYLADMKDKVNSPLPQVRVLMNTLPYQNNLQELKIANLSEQ
MRLLYVALTRAEKKLYLVGKGNADKLAEKYDGKKENGVLAQSTRESMATFQDWILAIDEAFSGEDLHFKKVFVTDEDLTE
EKIGKLTLKSKLEDASLKDIRQSEDIAQALDQLSSVQELNERYKAAIELPSLRTPSQIKKLYEPILEQEGMEVMEKYQPK
RTFNLPDFSKKPKITGAQVGSAVHELMQRLDLSWLVTEDTVRAALEAVHAEQAIKDKINVQMILDFFDTDLGREILANTD
KLHREAPFASLQTDSVSQENFVLRGIIDGYLLYDDHIVLFDYKTDKYDQPIQLSQRYQAQMQLYAETLKKAYKIDRVDCH
LILLGGERIEVVEVNI

Nucleotide


Download         Length: 3651 bp        

>NTDB_id=809037 RMQ61_RS06440 WP_313926179.1 1291700..1295350(-) (rexA) [Streptococcus suis strain ID48908]
ATGGCTTTTGAAGCATTTTTAAGCGCGGAAGAAATCAAGGCTGTGCAGCTGGCGGAAGCTAATTCTGATAAGCAACAAAA
ACGAACACCTGAGCAGATTGAAGCCATCTACACGCACGGTCAGAATGTTCTGGTCTCTGCATCGGCTGGGTCAGGAAAGA
CTTTCGTCATGGTTCAACGTATTTTGGATAAGTTGAAGCGTGGTGTCGGGATTGACCAGCTCTTTATCTCGACCTTTACA
GTCAAAGCGGCTGGTGAATTGAAGGAGCGGATTGAGAAAAATCTCAATGAAACCATTGCGGAGACGACGGATATGGAATT
GCGACGGCATTTGTCGGCTCAGTTGGCGGATTTGACTAAGGCAGATATTGGGACCATGGACTCCTTTACGCAGAAATTGG
TCACAACCTACGGTTATAGCCTTGGTATTTCTCCGCAGTTTCGGATTTTACAGGATGAGACTGAAAAAGCAAGTCTAAAA
AAAGAGGTTTTTGACCAGCTCTTTGCAGATTATCTTGAAAAGGATGAAAATGGTGCATTCCGCAAACTGGTTCGCAATTT
TTCGGGCAACCGCAAGGATAACAGTGGTTTCCGTCAGGTTGTTTATCAGGTGCATGATTTTAGCCAATCGACGAGCAGTC
CAACTAAATGGCTGAAAGAGCAGGCTGTTCAAGCTGATTTGTACAGTCAAGAGCGTATTGAGCAGATCTTAGAGCAGGGA
TTTAAGGAAAAAGTTTTAGACAAGCTCTATCAAGCTGCAGATTTCTTCCGCTACCATGTGGAATGGGGCAGAAATGACTT
TGGTTCTGCTAAGTATTTTTCAAGCGTTGAAGATGTAATCGAATTGTTAACTGGTATAGAGCATCTGGAATCCAAGCAGT
TGATGGAACGGGTTGAAAGAATCCTTCTCATCAACGACCAGTCCAGAGGAAAAGGCCTGACCAATGCCAATCGACCAAAA
GATGAGCATTTGATAGCCTTTAAAGAAGAATACAATGCTGGCAAGAGCCAGCTTATCTCAGGATTACGCGATTTGGGTCA
GGAAGTTTATGAATTAACCCTGCTGAAAGACTATCAGGATCAAGCTGTGCCCTTGCTGATATTATTACGTGACTTTGTCT
TGGATTTTTCGCAGGCTTATCTGGATGTCAAAATCAAGGAAGCAGCTTTTGAATTTGGCGATATTGGGCATTTCGCTATT
CGCATTTTAGAAGAAAATGCGGACATTCGCCAGTTTTTCCAAGAAAAATACCACGAAGTCATGGTGGACGAGTACCAGGA
TAACAACCATAGCCAAGAGCGAATGTTGGACCTGCTGTCTAACGGTCACAACCGCTTTATGGTGGGCGACATTAAGCAGT
CCATCTATCGATTCCGTCAGGCGGATCCGATGATTTTCCAAGAGAAATTTGAATTGTATCAGGAAAATCCTCAGGCAGGG
AAATTGATTTTGCTCAAGGAAAACTTCCGCAGTCAGATTGAGGTCTTGGAGGCAACAAATGCTATTTTCACGCGCCTGAT
GGACCGTCAAGTAGGGGAAATCAAGTATGACGACACCCACAGTCTGGTGGCTGGTAGTCCTGGTCAAAAAATTGCCCAGC
CCAAGCATGAGATGGAATACTTGATTTATGACCAGCAGGATAGCGCAAACTCATCAACGGATGCTGAGGAGGAAACACCT
CTGACTGCTGGTGAAATTGAGGTCGTTGCAAAAGAGATTATTCGTCTTCACAATGAAGAAGGAGCAGACTTCAAGGACAT
CACTCTCTTGGTACAAAAGCGGACGCACAATGACCTCATTATGTCCATTTTTGAAAAACATGGGATTCCAATTGTGGCAG
ATGGCGGAGCAGCCTCCTATCTGCAATCTTTAGAAGTCATGATTATGCTGGATACCTTGCGGGTTATCAATAATCCACTC
AATGACTATGCCTTGGTTGCTCTTCTCAAATCGCCTATGTTCCGATTCGATGAGGATGAGCTGACACGGATTTCCTTGCA
GGCTGGGACAGGTTTCTTTTACCAGAAAATGGAAATAGCCCAGCAAACAAATGGGCAACATCCTGAACTTATGTCAGGAG
AGTTGAAGAAGAAAATCAAGGATTTCTTATCTATTTTGGAAAACTGGCGTGCTTTTGCCAAAATGCATTCTATTTATGAC
CTGATTTGGAAGATTTTCAATGAAAAATTCTACTATGACTATGTCGGTGCTCTTCCAAATGGCAGCAAGCGTCAGGCCAA
TCTATACGCACTTGGTCTGCGTGCCAACCAGTTTGAAAAAACAGGCTACAAGGGATTGTCTCGCTTCATCGCCATGATTG
ATCGTGCCTTAGCAAATGACAAGGACTTGGCAGATGTACAAGAGTTTCTACCGCAAAATGCTGTACAGCTTATGACTATT
CACAAGTCAAAAGGTTTGGAGTTCAAGTATGTCTTCCTCATGAACATCGATAAGCGATTTAACTTGGAAGACCATTACCA
ATCAGTCATCATCAGCCGGAAAAATGGTCTAGGTATCCAATATTTAGCAGATATGAAAGATAAGGTAAATAGCCCATTAC
CTCAGGTGCGAGTCTTAATGAACACCCTCCCTTATCAAAATAATCTCCAAGAGCTAAAAATTGCCAATCTTTCGGAACAA
ATGCGGTTGCTTTATGTTGCACTAACGCGTGCTGAGAAGAAGCTGTATCTGGTTGGAAAGGGTAATGCTGACAAGTTAGC
TGAAAAATACGATGGCAAAAAGGAAAATGGCGTACTAGCCCAATCAACTCGTGAAAGTATGGCGACCTTCCAAGACTGGA
TTCTAGCCATTGATGAGGCCTTCTCAGGAGAAGACTTGCACTTCAAGAAAGTCTTTGTGACGGATGAGGATTTGACAGAG
GAGAAGATTGGTAAACTTACATTGAAGAGTAAGCTAGAAGACGCCAGCCTTAAAGATATTCGTCAATCAGAAGACATCGC
CCAGGCCTTGGACCAGTTGTCTTCTGTCCAAGAGTTGAACGAACGCTATAAGGCTGCTATAGAATTGCCAAGTTTACGGA
CTCCAAGTCAAATCAAGAAGCTCTATGAGCCTATTTTGGAACAAGAAGGCATGGAAGTTATGGAAAAATACCAGCCCAAA
CGGACCTTCAACTTGCCAGATTTCTCCAAGAAACCAAAAATCACTGGAGCCCAAGTCGGTTCAGCAGTGCATGAACTCAT
GCAACGCTTGGATCTGTCTTGGTTGGTGACAGAAGATACGGTAAGAGCAGCCCTAGAAGCTGTTCATGCTGAGCAAGCGA
TTAAAGATAAAATCAATGTTCAGATGATTTTGGATTTCTTTGATACAGACTTAGGAAGAGAAATTCTAGCCAATACGGAC
AAACTCCACCGAGAAGCTCCATTTGCAAGTTTGCAGACAGATTCTGTATCTCAGGAAAACTTTGTCCTTCGTGGGATTAT
CGATGGCTACCTACTGTATGATGATCATATTGTCCTCTTTGATTACAAGACAGACAAATATGACCAACCAATCCAACTCA
GCCAACGTTACCAAGCTCAAATGCAACTCTATGCGGAGACATTGAAAAAAGCCTACAAGATAGATCGTGTAGACTGCCAT
TTGATTTTGCTTGGTGGGGAGAGAATAGAAGTGGTCGAAGTCAACATATAG


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
  rexA Streptococcus pneumoniae R6

51.547

100

0.521