Detailed information    

insolico Bioinformatically predicted

Overview


Name   rexA   Type   Machinery gene
Locus tag   GPW69_RS05715 Genome accession   NZ_LR738724
Coordinates   1147526..1151176 (-) Length   1216 a.a.
NCBI ID   WP_171841456.1    Uniprot ID   -
Organism   Streptococcus suis isolate 9401240     
Function   homologous recombination (predicted from homology)   
Homologous recombination

Genomic Context


Location: 1142526..1156176
Locus tag Gene name Coordinates (strand) Size (bp) Protein ID Product Description
  GPW69_RS05690 - 1142885..1143337 (-) 453 WP_074391171.1 hypothetical protein -
  GPW69_RS05695 - 1143340..1143843 (-) 504 WP_074391172.1 YkvA family protein -
  GPW69_RS05700 fic 1143876..1144478 (-) 603 WP_074391173.1 protein adenylyltransferase Fic -
  GPW69_RS05705 parE 1144502..1146451 (-) 1950 WP_074391174.1 DNA topoisomerase IV subunit B -
  GPW69_RS05710 plsY 1146594..1147238 (+) 645 WP_044762136.1 glycerol-3-phosphate 1-O-acyltransferase PlsY -
  GPW69_RS05715 rexA 1147526..1151176 (-) 3651 WP_171841456.1 helicase-exonuclease AddAB subunit AddA Machinery gene
  GPW69_RS05720 rexB 1151176..1154442 (-) 3267 WP_074391176.1 ATP-dependent nuclease subunit B Machinery gene

Sequence


Protein


Download         Length: 1216 a.a.        Molecular weight: 139634.02 Da        Isoelectric Point: 5.1102

>NTDB_id=1007158 GPW69_RS05715 WP_171841456.1 1147526..1151176(-) (rexA) [Streptococcus suis isolate 9401240]
MAFEQFLSAEEIKAVQLAEANSDKQQKRTPEQIEAIYTHGQNVLVSASAGSGKTFVMVQRILDKLKRGVGIDQLFISTFT
VKAAGELKERVEKNLNETIAETTDMELRRHLSAQLADLTKADIGTMDSFTQKLVITYGYSLGISPQFRILQDETEKASLK
KEVFDQLFADYLEQDENGTFRKLVHNFSGNRKDNSGFRQVVYQVHDFSQSTSSPTKWLKEQAVQADLYSQERIEQILEQG
FKEKVLDKLYQATDFFRYHVEWGRNDFGSAKYFANVEEVLDLLTGLDSLDQKGLMERVERILLINDQSRGKGLTNVNRPK
DEHLIAFKEEYNAGKNQIISELRDLGQEVYELTLLKDYQVQALPLLVLLRDFVLDFSQAYLDVKIKEAAFEFGDIGHFAI
RILEENADIRQFFQEKYHEVMVDEYQDNNHSQERMLDLLSNGHNRFMVGDIKQSIYRFRQADPMIFQEKFELYQANPQAG
KLILLKENFRSQIEVLEATNAIFTRLMDRQVGEIKYDDTHSLVAGSPGQKIAQPKHEMEYLIYDQQDSAPSSTDAEEETP
LTAGEIEVVAKEIIRLHNEEGADFKDITLLVQKRTHNDLIMSIFEKHGIPIVADGGAASYLQSLEVMIMLDTLRVINNSL
NDYALVALLKSPMFRFDEDELTRISLQAGTGFFYQKMELAQQASGQYPELMSGELKKKITDFLSILKNWRAFAKLHSIYD
LIWKIFNEKFYYDYVGALTNGSKRQANLYALGLRANQFEKTGYKGLSRFIAMIDRALANDKDLADVQEFLPQNAVQLMTI
HKSKGLEFKYVFLMNIDKRFNLEDHYQSVIISRKNGLGIQYLADMKDKVNSPLPQVRVLMNTLPYQNNLQELKIANLSEQ
MRLLYVALTRAVKKLYLVGKGNADKLAEKYDGKKEDGVLAQSTRESMATFQDWILAIDEAFSGEDLHFKKVFVTDEDLTE
EKIGKLTLKNKLEDASLKDIRQSEDIVQALDQLSSVQKLNARYKAAIELPSLRTPSQIKKLYEPVLEQEGMEVMEKYQPK
RTFNLPDFSKKPKITGAQVGSAVHELMQRLDLSWLVTEDTVREALETVHAEQAVKDKINIQMILDFFDTDLGREILANTD
KLHREAPFASLQTDSLSQEQFVLRGIIDGYLLYDDHIVLFDYKTDKYDQPSQLSQRYQAQMQLYAEALKKAYKIDRVDCH
LILLGGERIEVVEVNI

Nucleotide


Download         Length: 3651 bp        

>NTDB_id=1007158 GPW69_RS05715 WP_171841456.1 1147526..1151176(-) (rexA) [Streptococcus suis isolate 9401240]
ATGGCTTTTGAACAATTTTTAAGCGCGGAAGAAATCAAGGCTGTGCAGCTGGCGGAAGCTAATTCTGATAAGCAACAAAA
ACGCACACCTGAGCAGATTGAAGCCATCTACACGCACGGTCAGAATGTTCTGGTCTCTGCATCGGCAGGGTCAGGAAAGA
CCTTCGTTATGGTTCAACGGATTTTGGATAAGTTGAAGCGTGGTGTGGGAATCGACCAGCTCTTTATCTCGACCTTTACA
GTCAAAGCGGCTGGTGAATTGAAGGAGCGGGTTGAGAAAAATCTCAATGAAACCATTGCTGAGACGACCGATATGGAATT
GCGTCGGCATTTGTCGGCCCAGTTGGCGGATTTGACCAAGGCGGACATTGGGACCATGGACTCCTTTACGCAGAAATTGG
TCATAACCTATGGTTATAGTCTTGGCATTTCTCCGCAGTTTCGGATTTTACAGGATGAGACAGAAAAAGCGAGTCTGAAA
AAAGAGGTTTTTGATCAGCTCTTTGCAGATTATCTTGAACAGGATGAAAATGGTACATTCCGCAAACTGGTTCACAATTT
TTCAGGCAACCGCAAGGATAATAGTGGTTTTCGTCAAGTTGTTTATCAGGTGCATGATTTTAGTCAATCGACGAGCAGTC
CAACTAAATGGCTGAAAGAGCAGGCTGTTCAAGCTGATTTGTACAGTCAAGAGCGTATAGAGCAGATCTTAGAGCAAGGC
TTTAAGGAAAAAGTATTAGACAAGCTCTATCAAGCTACAGATTTCTTCCGCTACCATGTGGAATGGGGCAGAAATGACTT
TGGTTCCGCCAAGTATTTTGCCAATGTGGAAGAAGTCTTGGATTTGTTGACAGGTTTAGATAGTCTGGACCAGAAGGGCT
TGATGGAGCGGGTTGAAAGAATCCTTCTCATCAATGACCAGTCCAGAGGCAAGGGCCTGACCAATGTCAATCGACCAAAA
GATGAGCATTTGATAGCCTTTAAAGAAGAATACAATGCTGGCAAGAACCAGATTATCTCAGAATTACGAGATTTGGGTCA
GGAAGTTTATGAATTGACCCTGCTGAAAGATTATCAGGTTCAAGCTTTGCCACTGCTTGTATTATTACGTGACTTTGTCT
TGGATTTTTCGCAGGCTTATCTGGATGTCAAAATCAAGGAAGCAGCCTTTGAATTTGGCGATATTGGGCATTTCGCTATT
CGTATTTTAGAAGAAAATGCGGACATCCGCCAGTTTTTCCAAGAAAAATACCACGAAGTCATGGTGGACGAGTACCAGGA
TAACAACCATAGCCAAGAACGGATGTTGGACTTGCTGTCTAACGGGCATAATCGCTTTATGGTGGGCGACATTAAGCAGT
CCATCTATCGATTCCGTCAGGCGGATCCGATGATTTTCCAAGAGAAATTTGAACTGTATCAGGCAAATCCTCAGGCTGGG
AAATTGATTCTGCTCAAGGAAAACTTCCGTAGTCAGATTGAGGTCTTGGAGGCAACAAATGCTATTTTCACGCGCCTGAT
GGACCGCCAAGTAGGGGAAATCAAGTATGACGACACCCACAGTCTGGTGGCTGGTAGTCCTGGTCAAAAAATTGCCCAGC
CCAAGCATGAGATGGAATACTTGATTTACGACCAGCAGGATAGTGCACCTTCTTCAACGGATGCTGAGGAGGAAACTCCT
CTGACTGCTGGTGAAATTGAGGTCGTTGCAAAAGAGATTATTCGTCTTCACAATGAAGAAGGAGCAGACTTCAAAGACAT
CACTCTCTTGGTGCAAAAACGAACGCACAATGATCTCATTATGTCCATTTTTGAAAAACATGGGATTCCTATTGTGGCAG
ATGGCGGAGCAGCCTCCTATCTGCAATCTTTAGAAGTCATGATTATGCTGGATACCTTGCGGGTTATCAACAATTCGCTC
AATGACTATGCCTTGGTTGCCCTTCTCAAATCGCCTATGTTCCGATTCGATGAGGATGAGCTGACACGGATTTCCTTGCA
GGCTGGGACAGGTTTCTTTTACCAGAAAATGGAATTAGCCCAGCAAGCAAGTGGGCAGTACCCTGAACTGATGTCAGGAG
AGTTGAAGAAGAAAATCACGGATTTCTTGTCTATTTTGAAAAACTGGCGTGCCTTTGCCAAGCTGCACTCTATTTATGAC
TTGATCTGGAAGATTTTCAATGAAAAATTCTACTATGACTATGTCGGTGCTCTTACAAATGGCAGCAAGCGTCAGGCCAA
TCTCTATGCACTAGGTCTGCGTGCCAACCAGTTTGAAAAAACAGGCTACAAGGGCTTGTCCCGCTTCATCGCCATGATTG
ACCGTGCCTTAGCAAACGACAAGGACTTGGCAGATGTACAAGAGTTTCTACCGCAAAATGCTGTACAGCTTATGACCATT
CACAAGTCAAAAGGTTTGGAGTTCAAATATGTCTTCCTCATGAACATCGATAAGCGATTCAACTTGGAAGACCATTACCA
GTCAGTCATCATCAGCCGGAAAAATGGTCTAGGTATCCAATATTTAGCGGATATGAAAGATAAGGTAAATAGCCCATTAC
CTCAGGTGCGAGTCTTAATGAACACCCTTCCTTATCAAAATAATCTCCAAGAGCTAAAAATTGCCAATCTTTCAGAACAA
ATGCGGTTGCTTTATGTTGCACTAACGCGTGCAGTGAAGAAGCTGTATCTGGTTGGAAAGGGCAATGCTGACAAGTTAGC
TGAAAAATACGATGGTAAGAAGGAAGATGGCGTCCTTGCCCAATCAACTCGTGAAAGTATGGCGACCTTCCAAGACTGGA
TTCTAGCCATTGATGAGGCCTTCTCAGGAGAAGACTTGCACTTCAAGAAAGTCTTTGTAACGGATGAGGATTTGACAGAG
GAGAAGATTGGTAAACTGACATTGAAGAATAAGCTTGAAGACGCCAGCCTTAAAGATATTCGTCAATCAGAAGATATTGT
CCAGGCCTTGGACCAATTATCTTCTGTCCAAAAGTTGAATGCCCGCTATAAGGCTGCCATCGAATTACCAAGTTTACGTA
CTCCAAGTCAAATCAAGAAACTCTATGAGCCTGTCTTGGAACAAGAAGGCATGGAAGTTATGGAAAAATACCAGCCAAAA
CGAACCTTCAACTTGCCAGATTTCTCCAAGAAACCAAAAATCACTGGAGCCCAAGTCGGTTCAGCAGTCCATGAACTCAT
GCAACGCTTGGATCTGTCTTGGTTGGTGACAGAAGATACGGTAAGAGAAGCCCTAGAAACTGTTCATGCTGAGCAAGCGG
TTAAAGACAAAATCAATATTCAGATGATTTTAGATTTCTTTGATACAGACTTAGGAAGAGAAATTCTAGCCAATACGGAC
AAACTCCACCGAGAAGCTCCATTTGCAAGTTTGCAGACAGATTCTTTGTCGCAGGAACAATTTGTCCTTCGTGGGATTAT
CGATGGCTACCTACTGTACGATGACCATATTGTCCTCTTTGATTACAAGACTGACAAGTATGACCAACCAAGCCAACTCA
GCCAACGTTACCAAGCTCAAATGCAACTCTATGCCGAGGCATTGAAAAAAGCCTACAAGATAGATCGTGTAGACTGTCAT
TTGATTTTGCTTGGTGGGGAGAGGATTGAAGTGGTTGAAGTCAACATATAG


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

51.84

100

0.521