Detailed information    

insolico Bioinformatically predicted

Overview


Name   rexA   Type   Machinery gene
Locus tag   J1N58_RS06375 Genome accession   NZ_CP071697
Coordinates   1326815..1330465 (-) Length   1216 a.a.
NCBI ID   WP_207560194.1    Uniprot ID   -
Organism   Streptococcus suis strain 1112S     
Function   homologous recombination (predicted from homology)   
Homologous recombination

Genomic Context


Location: 1321815..1335465
Locus tag Gene name Coordinates (strand) Size (bp) Protein ID Product Description
  J1N58_RS06355 (J1N58_06355) - 1322629..1323132 (-) 504 WP_024377841.1 YkvA family protein -
  J1N58_RS06360 (J1N58_06360) - 1323165..1323767 (-) 603 WP_207560192.1 Fic family protein -
  J1N58_RS06365 (J1N58_06365) parE 1323791..1325740 (-) 1950 WP_207560193.1 DNA topoisomerase IV subunit B -
  J1N58_RS06370 (J1N58_06370) plsY 1325883..1326527 (+) 645 WP_024419469.1 glycerol-3-phosphate 1-O-acyltransferase PlsY -
  J1N58_RS06375 (J1N58_06375) rexA 1326815..1330465 (-) 3651 WP_207560194.1 helicase-exonuclease AddAB subunit AddA Machinery gene
  J1N58_RS06380 (J1N58_06380) rexB 1330465..1333731 (-) 3267 WP_207560195.1 ATP-dependent nuclease subunit B Machinery gene

Sequence


Protein


Download         Length: 1216 a.a.        Molecular weight: 139702.28 Da        Isoelectric Point: 5.1467

>NTDB_id=478386 J1N58_RS06375 WP_207560194.1 1326815..1330465(-) (rexA) [Streptococcus suis strain 1112S]
MVFEQFLSTEEIKAVQLAEVNSDKQQKRTPEQIEVIYTHGQNILVSASAGSGKTFVMVQRILDKLKRGVGIDQLFISTFT
VKAAGELKERIEKNLNETIAETTDMELRRHLSAQLADLTKADIGTMDSFTQKLVTNYGYSLGISPQFRILQDETEKASLK
KEVFDQLFADYLEKDENGAFRKLVRNFSGNRKDNSGFRQVVYQVHDFSQSTSSPTKWLKEQAVQADLYSQERIEQILEQG
FKEKVLDKLYQAADFFRYHVEWGRNDFGSAKYFANVEEVLDLLTGLDSLDQKDLMERVERILLINDQSRGKGLTNANRPK
DEHLIAFKEEYNAGKSQIISGLRDLGQEVYELTLLKDYQIQALPMLILLRDFVLDFSQAYLDVKIKEAAFEFGDIGHFAI
RILEENVDIRQFFQEKYHEVMVDEYQDNNHSQERMLDLLSNGHNRFMVGDIKQSIYRFRQADPMIFQEKFELFQANPQAG
KLILLKENFRSQIEVLEATNAIFTRLMDRQVGEIKYDDTHSLVAGSPGQKIAQPKHEMEYFIYDQQDSANSSTDAEEETL
LTAGEIEVVAKEIIRLHNEEGADFKDITLLVQKRTHNDLIMSIFEKHGIPIVADGGAASYLQSLEVMIMLDTLRVINNPL
NDYALVALLKSPMFRFDEDELTRISLQAGTGFFYQKMELAHQASGQHPELMSGELKKKIKDFLSILENWRAFAKLHSIYD
LIWKIFNEKFYYDYVGALPNGSKRQANLYALGLRANQFEKTGYKGLSRFIAMIDRALANDKDLADVQEFLPQNAVQLMTI
HKSKGLEFKYVFLMNIDKRFNLEDHYQSVIISRKNGLGIQYLADMKDKVSSPLPQVRVLMNTLPYQNNLQELKIANLSEQ
MRLLYVALTRAEKKLYLVGKGNADKLAEKYDGKKEDGVLAQSTRESMATFQDWILAIAEAFSGEDLHFKKVFVTDEDLTE
EKIGKLTLKSKLEDASLKDIRQSEDIAQALDQLSSVQELNERYKAAIELPSLRTPSQIKKLYEPILEQEGIEVMEKYQPK
RTFNLPDFSKKPKITGAQVGSAVHELMQRLDLSWLVTEDTVRAALEAVHAEQAIKDKINVQMILDFFDTDLGREILANTD
KLHREAPFASLQTDPVSQENFVLRGIIDGYLLYDDHIVLFDYKTDKYDQPIQLSQRYQAQMQLYAEALKKAYKIDRVDCH
LILLGGERIEVVEVKI

Nucleotide


Download         Length: 3651 bp        

>NTDB_id=478386 J1N58_RS06375 WP_207560194.1 1326815..1330465(-) (rexA) [Streptococcus suis strain 1112S]
ATGGTTTTTGAACAATTTTTAAGCACGGAAGAAATCAAGGCTGTGCAGCTGGCGGAAGTCAATTCTGATAAGCAACAAAA
ACGCACACCTGAGCAGATTGAAGTCATCTACACGCACGGTCAGAATATTCTGGTCTCTGCATCGGCTGGGTCAGGAAAGA
CTTTCGTCATGGTTCAACGGATTTTGGATAAGTTGAAGCGTGGTGTGGGAATCGACCAGCTCTTTATCTCGACCTTTACA
GTCAAAGCGGCTGGTGAGTTGAAGGAGCGGATTGAGAAAAATCTCAATGAAACCATTGCGGAGACGACCGATATGGAATT
GCGTCGGCATTTGTCTGCCCAGTTGGCGGATTTGACTAAAGCAGATATTGGGACCATGGACTCCTTTACGCAGAAATTGG
TAACGAATTACGGTTATAGCCTTGGCATTTCTCCGCAGTTTCGGATTTTACAGGATGAGACAGAAAAAGCGAGTCTAAAA
AAAGAGGTTTTTGACCAGCTCTTTGCAGATTATCTTGAAAAGGATGAAAATGGTGCATTCCGCAAACTGGTTCGCAATTT
TTCAGGCAACCGCAAGGATAACAGTGGTTTCCGTCAGGTTGTTTATCAGGTGCATGATTTTAGCCAATCGACCAGCAGTC
CAACTAAATGGCTGAAAGAGCAGGCTGTTCAAGCTGATTTGTACAGTCAAGAGCGTATAGAGCAGATCTTAGAGCAAGGC
TTTAAGGAAAAAGTGTTAGACAAGCTCTATCAAGCTGCAGATTTCTTCCGCTACCATGTGGAATGGGGCAGAAATGACTT
TGGTTCTGCCAAGTATTTTGCCAATGTAGAAGAAGTTTTGGATTTGCTGACAGGTTTAGATAGTCTGGACCAGAAGGACT
TGATGGAGCGGGTTGAAAGAATTCTTCTCATCAATGACCAGTCCAGAGGCAAGGGCCTGACCAATGCCAATCGACCAAAA
GATGAGCATTTGATAGCCTTTAAAGAAGAATACAATGCAGGCAAGAGCCAGATTATCTCAGGACTACGAGATTTGGGTCA
GGAAGTTTATGAATTGACCCTGCTGAAAGACTATCAGATTCAAGCTTTGCCAATGCTGATATTATTACGTGACTTTGTCT
TGGATTTTTCGCAGGCTTATCTGGATGTCAAAATCAAGGAAGCAGCTTTTGAATTTGGCGATATTGGGCATTTCGCTATT
CGTATTTTAGAAGAAAATGTGGACATTCGCCAGTTTTTCCAAGAAAAATACCACGAAGTCATGGTGGACGAGTACCAGGA
TAACAACCATAGCCAAGAGCGAATGCTGGATCTGCTGTCTAACGGTCACAACCGCTTTATGGTGGGCGACATTAAGCAGT
CCATCTATCGATTCCGTCAGGCGGATCCAATGATTTTTCAAGAGAAATTTGAACTGTTTCAGGCAAATCCTCAGGCTGGG
AAATTGATTTTGCTCAAGGAAAATTTCCGGAGTCAGATTGAGGTCTTGGAGGCGACAAATGCTATTTTCACGCGGCTGAT
GGACCGTCAAGTAGGGGAAATCAAGTATGACGACACCCACAGTCTAGTGGCTGGTAGTCCTGGTCAAAAAATTGCCCAGC
CCAAGCATGAAATGGAATATTTCATTTATGACCAGCAGGATAGCGCAAACTCTTCAACGGATGCTGAGGAGGAAACACTT
CTGACTGCTGGTGAAATTGAGGTCGTTGCAAAAGAGATTATTCGCCTTCACAATGAAGAAGGAGCAGACTTCAAGGACAT
CACTCTCTTGGTACAAAAGCGGACGCACAATGATCTCATTATGTCCATTTTTGAAAAACATGGGATTCCAATTGTGGCAG
ATGGCGGAGCGGCCTCCTATCTGCAATCTTTAGAAGTCATGATTATGCTGGATACCTTGCGGGTTATCAATAATCCACTC
AATGACTATGCCTTGGTTGCCCTGCTTAAATCACCTATGTTCCGATTTGATGAAGATGAACTGACGCGGATTTCCTTGCA
GGCTGGGACAGGTTTCTTTTATCAGAAAATGGAACTAGCCCATCAAGCAAGTGGGCAACATCCTGAACTTATGTCAGGAG
AGTTGAAGAAGAAAATCAAGGATTTCTTGTCTATCTTAGAAAACTGGCGTGCTTTTGCCAAACTGCATTCTATCTATGAC
CTGATTTGGAAGATTTTCAATGAAAAATTCTACTATGACTATGTCGGTGCTCTTCCAAATGGCAGCAAGCGTCAGGCCAA
TCTATATGCACTAGGTCTGCGTGCCAACCAGTTTGAAAAAACAGGTTACAAGGGCTTGTCCCGCTTCATCGCTATGATTG
ACCGTGCCTTAGCAAATGATAAGGATTTGGCAGATGTACAAGAGTTTCTACCGCAAAATGCTGTACAGCTTATGACCATC
CATAAGTCAAAAGGTTTGGAGTTCAAATATGTCTTCCTCATGAACATCGATAAGCGATTCAACTTGGAAGACCATTACCA
GTCAGTCATTATCAGCCGGAAAAATGGTCTAGGTATCCAATATTTAGCGGATATGAAAGATAAGGTAAGTAGCCCATTAC
CTCAGGTGCGAGTCTTAATGAACACCCTTCCTTATCAAAATAATCTCCAAGAGTTAAAAATTGCCAATCTTTCAGAACAA
ATGCGGTTGCTTTACGTTGCACTAACGCGTGCCGAGAAGAAGCTGTATCTTGTCGGTAAGGGAAATGCTGACAAGTTAGC
TGAAAAATACGATGGCAAAAAGGAAGATGGCGTACTTGCCCAATCAACTCGTGAAAGTATGGCGACCTTCCAAGACTGGA
TTCTAGCCATTGCTGAGGCTTTTTCAGGAGAAGACTTGCATTTCAAGAAAGTCTTTGTAACGGACGAGGATTTGACAGAG
GAGAAGATTGGTAAACTTACATTGAAGAGTAAACTAGAAGATGCCAGCCTTAAAGATATTCGTCAATCAGAAGACATCGC
CCAGGCCTTGGACCAGTTGTCTTCTGTTCAAGAGTTGAACGAACGCTATAAGGCTGCTATAGAATTACCAAGTTTACGGA
CTCCAAGTCAAATCAAGAAGCTCTATGAGCCTATTTTGGAACAAGAAGGCATAGAAGTTATGGAAAAATACCAGCCAAAA
CGGACCTTTAACTTGCCAGATTTTTCCAAGAAACCAAAAATCACTGGAGCCCAAGTCGGTTCAGCAGTGCATGAACTCAT
GCAACGCTTGGATCTGTCTTGGTTGGTGACAGAAGATACGGTAAGAGCAGCTCTAGAAGCTGTTCATGCTGAGCAAGCGA
TTAAAGATAAAATCAATGTTCAGATGATTTTGGATTTCTTTGATACAGACTTAGGAAGAGAAATTCTAGCCAATACGGAC
AAACTCCACCGAGAAGCTCCATTTGCAAGTTTGCAGACAGATCCTGTATCTCAGGAAAACTTTGTCCTGCGTGGAATTAT
CGATGGCTACCTACTGTATGATGATCATATTGTCCTCTTTGATTACAAGACAGACAAATATGACCAACCAATCCAACTCA
GTCAACGTTACCAAGCTCAAATGCAACTCTATGCCGAGGCATTGAAAAAAGCCTACAAGATAGATCGTGTAGACTGCCAT
TTGATTTTGCTTGGTGGGGAGAGAATAGAAGTGGTTGAAGTCAAAATATAG


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

51.513

100

0.518