Detailed information    

insolico Bioinformatically predicted

Overview


Name   rexA   Type   Machinery gene
Locus tag   DK878_RS06975 Genome accession   NZ_CP031379
Coordinates   1401064..1404717 (-) Length   1217 a.a.
NCBI ID   WP_002935480.1    Uniprot ID   -
Organism   Streptococcus suis strain ISU2660     
Function   homologous recombination (predicted from homology)   
Homologous recombination

Genomic Context


Location: 1396064..1409717
Locus tag Gene name Coordinates (strand) Size (bp) Protein ID Product Description
  DK878_RS06950 (DK878_07185) - 1396710..1397162 (-) 453 WP_002935488.1 hypothetical protein -
  DK878_RS06955 (DK878_07190) - 1397165..1397659 (-) 495 WP_002935487.1 YkvA family protein -
  DK878_RS06960 (DK878_07195) fic 1397692..1398294 (-) 603 WP_002935485.1 protein adenylyltransferase Fic -
  DK878_RS06965 (DK878_07200) parE 1398318..1400267 (-) 1950 WP_002935482.1 DNA topoisomerase IV subunit B -
  DK878_RS06970 (DK878_07205) plsY 1400410..1401054 (+) 645 WP_009909724.1 glycerol-3-phosphate 1-O-acyltransferase PlsY -
  DK878_RS06975 (DK878_07210) rexA 1401064..1404717 (-) 3654 WP_002935480.1 helicase-exonuclease AddAB subunit AddA Machinery gene
  DK878_RS06980 (DK878_07215) rexB 1404717..1407983 (-) 3267 WP_002935479.1 ATP-dependent nuclease subunit B Machinery gene

Sequence


Protein


Download         Length: 1217 a.a.        Molecular weight: 139686.11 Da        Isoelectric Point: 5.0587

>NTDB_id=265563 DK878_RS06975 WP_002935480.1 1401064..1404717(-) (rexA) [Streptococcus suis strain ISU2660]
MAFEQFLSAEEIKAVQLAEANSDKQQKRTPEQIEAIYTHGQNVLVSASAGSGKTFVMVQRILDKLKRGVGIDQLFISTFT
VKAAGELKERIEKNLNETIAETMDMDLRRHLSAQLADLTKADIGTMDSFTQKLVTTYGYSLGISPQFRILQDETEKASLK
KEVFDQLFADYLEQDENGAFRKLVRNFSGNRKDNGGFRQVVYQVHDFSQSTSSPTKWLKEQAVQADLYSQERIELILEQG
FKEKVLDKLYQAADFFRYHVEWGRNDFGSAKYFANVEEVLDLLTGLDSLDQKDLMERVEKVLLINDQSRGKGLTNANRPK
DEHLIAFKEEYNAGKSQIISGLRDLGQEVYELTLLKDYQIQALPMLILLRDFVLDFSQAYLDVKIKEAAFEFGDIGHFAI
RILEENVDIRQFFQEKYHEVMVDEYQDNNHSQERMLDLLSNGHNRFMVGDIKQSIYRFRQADPMIFQEKFELYQADSQAG
KLILLKENFRSQIEVLEATNAIFTRLMDRQVGEIKYDETHSLVAGSPGQKIAQPKHEMEYLIYDQQDSANSSTDAEEETP
LTAGEIEVVAKEIIRLHNEEGADFKDITLLVQKRTHNDLIISIFEKHGIPIVADGGAASYLQSLEVMIMLDTLRVINNPL
NDYALVALLKSPMFRFDEDELTRISLQAGTGFFYQKMEIAQQTNGQHPELMSGELKKKIKDFLSILENWRAFAKMHSIYD
LIWKIFNEKFYYDYVGALPNGSKRQANLYALGLRANQFEKTGYKGLSRFIVMIDRALANDKDLADVQEFLPQNAVQLMTI
HKSKGLEFKYVFLMNIDKRFNLEDHYQSVIISRKNGLGIQYLADMKDKVNSPLPQVRVLMNTLPYQDNLQELKIANLSEQ
MRLLYVALTRAEKKLYLVGKGNADKLAKKYDGKKADGVLAQSTRESVATFQDWILAIDEAFSGEDLHFKKVFVTDEDLTE
EKIGKLTLKSKLEDASLKDIRQSEDIAQALDQLSSVQELNERYKVAIELPSLRTPSQIKKLYEPILEQEGMEVMEKYQPK
RTFNLPDFSKKPKITGAQVGSAVHELMQRLDLSWLVTEDTVREALEAVHAEQAIKDKINVQMILDFFDTDLGREILANTD
KLHREAPFASLQTDSVSQENFVLRGIIDGYLLYDDHIVLFDYKTDKYDQPSQLSQRYQAQMQLYAEALKKAYKIDRVDCH
LILLGGERIEVVEVKVN

Nucleotide


Download         Length: 3654 bp        

>NTDB_id=265563 DK878_RS06975 WP_002935480.1 1401064..1404717(-) (rexA) [Streptococcus suis strain ISU2660]
ATGGCTTTTGAACAATTTTTAAGCGCAGAAGAAATCAAGGCTGTGCAGCTGGCGGAAGCCAATTCTGATAAGCAACAAAA
ACGCACACCTGAGCAGATTGAAGCCATCTACACGCACGGTCAGAATGTTCTGGTCTCTGCATCGGCTGGGTCAGGAAAGA
CCTTCGTCATGGTTCAACGGATTTTGGATAAGTTGAAGCGTGGCGTAGGGATTGATCAGCTCTTTATCTCGACCTTTACA
GTCAAAGCGGCTGGTGAGTTGAAGGAGCGGATCGAGAAAAATCTCAATGAAACCATTGCGGAGACGATGGATATGGACTT
GCGTCGGCATTTGTCAGCCCAGTTGGCGGATTTGACCAAGGCGGATATTGGGACAATGGACTCCTTTACGCAGAAATTGG
TAACGACTTACGGTTATAGCCTTGGCATTTCTCCACAGTTTCGGATTTTACAGGATGAGACAGAAAAAGCGAGTCTGAAA
AAAGAGGTTTTTGACCAGCTCTTTGCAGATTATCTTGAACAGGATGAAAATGGTGCATTCCGAAAATTGGTACGCAATTT
TTCAGGCAACCGGAAGGATAATGGTGGTTTCCGTCAGGTTGTTTATCAGGTGCATGATTTTAGCCAATCGACAAGCAGTC
CAACTAAATGGCTGAAAGAGCAGGCTGTTCAAGCTGATTTGTACAGTCAAGAGCGTATAGAGCTGATCTTAGAGCAAGGC
TTTAAGGAAAAAGTGTTAGACAAGCTCTATCAAGCTGCAGATTTCTTCCGCTACCATGTGGAATGGGGCAGAAATGACTT
TGGTTCCGCCAAGTATTTTGCAAATGTGGAAGAAGTTTTAGATTTGCTGACAGGTTTAGATAGTCTGGACCAGAAGGACT
TGATGGAGCGGGTTGAAAAAGTCCTTCTTATCAACGACCAGTCCAGAGGCAAGGGTCTGACCAATGCCAATCGACCAAAA
GATGAGCATTTGATAGCCTTTAAAGAAGAATACAATGCTGGCAAGAGCCAGATTATCTCTGGACTACGAGATTTGGGGCA
GGAAGTTTATGAATTAACCCTGCTGAAAGACTATCAGATTCAAGCTTTGCCAATGCTGATATTATTACGTGACTTTGTCT
TGGATTTTTCGCAGGCTTATCTGGATGTCAAAATCAAGGAAGCAGCTTTTGAATTTGGCGATATTGGGCATTTCGCTATT
CGTATTTTAGAAGAAAATGTGGACATTCGCCAGTTTTTCCAAGAAAAATACCACGAAGTCATGGTGGACGAGTACCAGGA
TAACAACCATAGCCAAGAGCGAATGCTGGACCTGCTGTCTAACGGTCACAACCGCTTTATGGTGGGCGATATTAAGCAGT
CCATCTATCGATTCCGTCAGGCGGATCCGATGATTTTCCAAGAGAAATTTGAACTTTACCAGGCAGATTCTCAGGCTGGA
AAATTGATTTTGCTTAAGGAAAATTTCCGTAGTCAGATTGAGGTCTTGGAGGCGACAAATGCTATTTTCACGCGCCTGAT
GGACCGTCAAGTAGGGGAAATCAAGTATGATGAAACCCACAGTCTAGTGGCTGGTAGTCCTGGTCAAAAAATTGCCCAGC
CCAAGCATGAGATGGAATACTTGATTTACGACCAGCAGGATAGCGCAAACTCTTCAACGGATGCTGAGGAAGAAACACCT
CTGACTGCTGGTGAAATCGAGGTTGTTGCAAAAGAGATTATTCGTCTTCACAATGAAGAAGGAGCAGACTTCAAGGACAT
CACTCTCTTGGTGCAAAAACGGACGCACAATGACCTCATTATATCCATTTTTGAAAAACATGGGATTCCAATTGTGGCAG
ATGGCGGAGCAGCCTCCTATCTGCAATCTTTAGAAGTCATGATTATGCTGGATACCTTGCGGGTTATCAATAATCCACTC
AATGACTATGCCTTGGTTGCTCTTCTCAAATCGCCTATGTTCCGATTCGATGAGGATGAGCTGACACGGATTTCCTTGCA
GGCTGGGACAGGTTTCTTTTACCAGAAAATGGAAATAGCCCAGCAAACAAATGGGCAACATCCTGAACTTATGTCAGGAG
AGTTGAAGAAGAAAATCAAGGATTTCTTATCTATTTTGGAAAACTGGCGTGCTTTTGCCAAAATGCATTCTATTTATGAC
CTGATTTGGAAGATTTTCAATGAAAAATTCTACTATGACTATGTCGGTGCTCTTCCAAATGGCAGCAAGCGTCAGGCAAA
TCTATATGCCCTAGGTTTGCGTGCCAACCAGTTTGAAAAAACAGGCTACAAGGGCTTGTCTCGTTTCATCGTCATGATTG
ACCGTGCCTTAGCAAATGACAAGGACTTGGCAGATGTACAAGAGTTTCTACCGCAAAATGCTGTTCAGCTGATGACCATT
CATAAGTCAAAAGGTCTAGAGTTCAAATATGTCTTCCTCATGAACATCGATAAACGATTCAACTTGGAAGACCATTACCA
GTCAGTCATCATCAGCCGGAAAAATGGTCTAGGTATCCAATATTTAGCGGATATGAAAGATAAGGTGAATAGCCCATTAC
CTCAGGTGCGAGTCTTAATGAACACCCTTCCTTATCAAGATAATCTCCAAGAGCTAAAAATTGCCAATCTTTCAGAACAA
ATGCGGTTGCTTTATGTTGCACTAACGCGTGCCGAGAAGAAGCTGTATCTGGTTGGAAAGGGCAATGCTGATAAGTTAGC
TAAAAAATACGATGGCAAAAAGGCAGATGGCGTACTAGCCCAATCAACTCGTGAAAGCGTGGCGACCTTCCAAGACTGGA
TTCTAGCCATTGATGAGGCCTTCTCAGGAGAAGACTTGCACTTCAAGAAAGTCTTTGTGACGGATGAGGATTTGACAGAG
GAGAAGATTGGAAAACTTACATTGAAGAGTAAGCTAGAAGATGCCAGCCTTAAAGATATTCGTCAATCAGAAGACATTGC
TCAGGCCTTGGACCAGTTGTCTTCTGTTCAAGAGTTGAACGAACGCTATAAGGTTGCCATTGAATTGCCAAGTTTACGGA
CTCCAAGTCAAATCAAGAAACTCTATGAGCCTATTTTGGAACAAGAAGGCATGGAAGTTATGGAAAAATACCAGCCAAAA
CGGACCTTCAACTTGCCAGATTTCTCCAAGAAACCTAAAATCACTGGAGCCCAAGTCGGTTCAGCAGTGCATGAACTCAT
GCAACGCTTGGATCTGTCTTGGTTGGTGACAGAAGATACGGTAAGAGAAGCCCTAGAAGCTGTTCATGCTGAGCAAGCGA
TTAAAGATAAAATCAATGTTCAGATGATTTTGGATTTCTTTGATACAGACTTAGGAAGAGAAATTCTAGCCAATACGGAC
AAACTCCACCGAGAAGCACCATTTGCAAGTTTGCAGACAGATTCTGTATCTCAGGAAAACTTTGTCCTTCGTGGGATTAT
AGATGGCTACCTACTATATGATGATCATATTGTCCTCTTTGATTACAAGACAGACAAATATGACCAACCAAGCCAACTCA
GCCAACGTTACCAAGCTCAAATGCAACTCTATGCCGAGGCATTGAAAAAAGCCTACAAGATAGATCGTGTAGACTGCCAT
TTGATTTTGCTTGGTGGGGAGAGAATAGAAGTGGTCGAAGTCAAGGTAAACTAA


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


Multiple sequence alignment