Detailed information    

insolico Bioinformatically predicted

Overview


Name   rexA   Type   Machinery gene
Locus tag   K6976_RS05920 Genome accession   NZ_CP082202
Coordinates   1185657..1189307 (-) Length   1216 a.a.
NCBI ID   WP_222759066.1    Uniprot ID   -
Organism   Streptococcus suis strain SS389     
Function   homologous recombination (predicted from homology)   
Homologous recombination

Genomic Context


Location: 1180657..1194307
Locus tag Gene name Coordinates (strand) Size (bp) Protein ID Product Description
  K6976_RS05900 (K6976_05900) fic 1180676..1181277 (-) 602 Protein_1118 protein adenylyltransferase Fic -
  K6976_RS05905 (K6976_05905) - 1181370..1182611 (-) 1242 WP_222759065.1 SEC-C metal-binding domain-containing protein -
  K6976_RS05910 (K6976_05910) parE 1182639..1184582 (-) 1944 WP_172076267.1 DNA topoisomerase IV subunit B -
  K6976_RS05915 (K6976_05915) plsY 1184725..1185369 (+) 645 WP_167787147.1 glycerol-3-phosphate 1-O-acyltransferase PlsY -
  K6976_RS05920 (K6976_05920) rexA 1185657..1189307 (-) 3651 WP_222759066.1 helicase-exonuclease AddAB subunit AddA Machinery gene
  K6976_RS05925 (K6976_05925) rexB 1189307..1192573 (-) 3267 WP_222759068.1 ATP-dependent nuclease subunit B Machinery gene

Sequence


Protein


Download         Length: 1216 a.a.        Molecular weight: 139607.73 Da        Isoelectric Point: 4.9638

>NTDB_id=527054 K6976_RS05920 WP_222759066.1 1185657..1189307(-) (rexA) [Streptococcus suis strain SS389]
MAFEQFLSAEEIKAVQLAEANSDKQQKRTPEQIEAIYTHGQNVLVSASAGSGKTFVMVQRILDKLKRGVGIDQLFISTFT
VKAAGELKERIEKNLNETIAETTDMELRRHLSAQLADLTKADIGTMDSFTQKLVTTYGYSLGISPQFRILQDETEKASLK
KEVFDQLFADYLEEDENGEFRKLVRNFSGNRKDNSGFRQVVYQVHDFSQSTSSPTKWLKEQAVQADLYSQERIEQILEQG
FKEKVLDKLYQAADFFRYHVEWGRNDFGSAKYFANVEEVLDLLTGLDSLDQKDLMERVERILLINDQSRGKGLTNANRPK
DEHLIAFKEEYNAGKSQIISGLRDLGQEVYELTLLRDYQAQALPLLVLLRDFVLDFSQAYLDVKIKEAAFEFGDIGHFAI
RILEENADIRQFFQEKYHEVMVDEYQDNNHSQERMLDLLSNGHNRFMVGDIKQSIYRFRQADPMIFQEKFELYQANPQAG
KLILLKENFRSQIEVLEATNAIFTRLMDRQVGEIKYDDTHSLVAGSPGQKIAQPKHEMEYLIYDQQESAHSSADAEEETP
LTAGEIEVVAKEIIRLHNEEGADFKDITLLVQKRTHNDLIMSIFEKHGIPIVADGGAASYLQSLEVMIMLDTLRVINNPL
NDYALVALLKSPMFRFDEDELTRISLQAGTGFFYQKMELAQQASGQHPELMSGELKKKITDFLSILENWRAFAKLHSIYD
LIWKIFNEKFYYDYVGALPNGSKRQANLYALGLRANQFEKTGYKGLSRFIAMIDRALANDKDLADVQEFLPQNAVQLMTI
HKSKGLEFKYVFLMNIDKRFNLEDHYQSVIISRKNGLGIQYLADMKDKINSPLPQVRVLMNTLPYQNNLQELKIANLSEQ
MRLLYVALTRAEKKLYLVGKGNADKLAEKYDGKKEDGVLAQSTRESMATFQDWILAIDEAFSGEDLHFKKVFVTDEDLTE
EKIGKLTLKSKLENASLKDIRQSEDIAQALDQLSSVQELNERYKAAIELPSLRTPSQIKKLYEPVLEQEGMEVMEKYQPK
RTFDLPDFSKKPKITGAQVGSAVHELMQRLDLSWLVTEDTVREALEAVHAEQAVKDKINVQMILDFFDTDLGREILANTD
KLHREAPFASLQTDSLSQEQFVLRGIIDGYLLYDDHIVLFDYKTDKYDQPSQLSQRYQAQMQLYAEALKKAYKIERVDCH
LILLGGERIEVVEVNI

Nucleotide


Download         Length: 3651 bp        

>NTDB_id=527054 K6976_RS05920 WP_222759066.1 1185657..1189307(-) (rexA) [Streptococcus suis strain SS389]
ATGGCTTTTGAACAATTTTTAAGCGCGGAAGAAATCAAGGCTGTGCAGCTGGCGGAAGCCAATTCTGATAAGCAACAAAA
ACGCACACCTGAGCAGATTGAAGCCATCTACACGCACGGTCAGAATGTTCTGGTCTCTGCATCGGCTGGGTCAGGTAAGA
CCTTTGTTATGGTTCAACGGATTTTGGATAAGTTGAAGCGTGGTGTGGGAATCGACCAGCTCTTTATCTCGACCTTTACA
GTCAAAGCGGCTGGTGAATTGAAGGAGCGGATCGAGAAAAATCTCAATGAAACCATTGCGGAGACGACCGATATGGAGTT
ACGTCGGCATTTGTCTGCCCAGTTGGCAGATTTGACCAAGGCGGATATTGGGACCATGGATTCCTTTACGCAGAAATTGG
TCACAACCTACGGTTATAGCCTTGGTATTTCTCCGCAGTTTCGGATTTTACAGGATGAGACAGAAAAAGCGAGTCTGAAA
AAAGAGGTTTTTGACCAGCTCTTTGCAGATTATCTTGAAGAGGATGAGAATGGTGAATTCCGCAAACTAGTTCGCAATTT
TTCGGGCAACCGCAAGGATAATAGTGGTTTCCGTCAGGTTGTTTATCAGGTGCATGATTTTAGCCAATCGACGAGCAGTC
CAACTAAATGGCTGAAAGAGCAGGCTGTTCAAGCTGATTTGTACAGTCAAGAGCGTATAGAGCAGATCTTAGAGCAAGGC
TTTAAGGAAAAAGTATTAGACAAGCTCTATCAAGCTGCAGATTTCTTCCGCTACCATGTGGAATGGGGCAGAAATGACTT
TGGTTCCGCCAAGTATTTTGCCAATGTAGAAGAAGTCTTGGATTTGCTGACAGGTTTAGATAGTCTGGACCAGAAGGACT
TGATGGAGCGGGTTGAAAGAATCCTTCTCATCAATGACCAGTCCAGAGGCAAGGGTTTAACCAATGCCAATCGACCAAAA
GATGAACATTTGATAGCCTTTAAAGAAGAATACAATGCTGGCAAGAGCCAGATTATCTCAGGACTACGAGATTTGGGTCA
GGAAGTCTATGAGTTAACCCTGCTGAGAGACTATCAGGCTCAAGCTTTGCCACTGCTTGTATTATTACGTGACTTTGTCT
TGGATTTTTCGCAGGCTTATCTGGATGTCAAAATCAAGGAAGCAGCCTTTGAATTTGGCGATATTGGGCATTTCGCTATT
CGTATTTTAGAAGAAAATGCGGACATCCGCCAGTTTTTCCAAGAAAAATACCACGAAGTCATGGTGGACGAGTACCAGGA
TAACAACCATAGCCAAGAGCGAATGCTGGACCTGCTGTCTAACGGTCACAACCGCTTTATGGTGGGCGACATTAAGCAGT
CCATCTATCGATTCCGTCAGGCGGATCCGATGATTTTCCAAGAGAAATTTGAACTGTATCAGGCAAATCCTCAGGCCGGG
AAATTGATTCTGCTCAAGGAAAACTTCCGTAGTCAGATTGAGGTCTTGGAGGCAACAAATGCTATTTTCACGCGCCTGAT
GGACCGTCAAGTAGGGGAAATCAAGTATGACGACACCCACAGTCTGGTGGCTGGTAGTCCTGGTCAAAAAATTGCCCAGC
CCAAGCATGAGATGGAATACTTGATTTACGACCAGCAGGAGAGCGCACATTCATCAGCGGATGCTGAGGAGGAAACACCT
CTGACTGCTGGTGAAATTGAGGTCGTTGCAAAAGAGATTATTCGTCTTCACAATGAAGAAGGGGCAGACTTCAAGGACAT
CACTCTCTTGGTGCAAAAACGGACGCACAATGACCTCATCATGTCCATTTTTGAAAAACATGGGATTCCTATTGTGGCAG
ATGGCGGAGCAGCCTCCTATCTGCAATCTTTAGAAGTTATGATCATGCTGGATACCTTGCGGGTTATCAATAACCCACTC
AATGATTACGCCTTGGTTGCCCTGCTTAAATCGCCCATGTTCCGATTTGATGAGGATGAGCTGACACGGATTTCCTTGCA
GGCTGGGACAGGTTTCTTTTACCAGAAAATGGAATTAGCCCAGCAAGCAAGTGGGCAACATCCTGAACTGATGTCAGGAG
AGTTGAAGAAGAAAATCACGGATTTCTTGTCTATTTTGGAAAATTGGCGTGCCTTTGCCAAACTGCACTCTATTTATGAC
TTGATCTGGAAGATTTTCAATGAAAAATTCTACTATGACTATGTCGGTGCTCTTCCAAATGGCAGCAAGCGTCAGGCCAA
TCTATACGCACTAGGTCTGCGTGCCAACCAGTTTGAAAAAACAGGCTATAAGGGCTTGTCCCGCTTCATCGCCATGATTG
ACCGTGCCTTAGCAAATGATAAGGATTTGGCAGATGTACAAGAGTTTCTACCGCAAAATGCTGTACAGCTTATGACAATT
CACAAGTCTAAAGGGTTGGAGTTCAAATATGTCTTCCTCATGAATATCGATAAACGATTCAACTTGGAAGACCATTATCA
ATCAGTTATTATCAGTCGAAAAAATGGTCTAGGCATTCAATATTTAGCGGATATGAAAGATAAGATAAATAGCCCATTGC
CTCAGGTGCGAGTCTTAATGAACACCCTTCCTTATCAAAACAATCTCCAAGAGTTAAAAATTGCCAATCTATCGGAACAA
ATGCGGTTGCTCTACGTTGCACTAACGCGTGCAGAGAAGAAGCTGTATCTGGTTGGAAAGGGCAATGCTGACAAGTTAGC
TGAAAAATACGATGGTAAGAAGGAAGATGGCGTCCTTGCCCAATCAACTCGTGAAAGCATGGCGACCTTCCAAGACTGGA
TTCTAGCCATTGATGAGGCCTTCTCAGGAGAAGACTTGCACTTCAAGAAAGTCTTTGTAACGGACGAGGATTTGACGGAG
GAGAAGATTGGTAAACTTACATTGAAGAGTAAGCTAGAAAACGCCAGCCTTAAAGATATTCGTCAATCAGAAGACATTGC
CCAGGCCCTGGACCAGTTGTCTTCTGTTCAAGAGTTGAACGAACGCTATAAGGCTGCCATTGAATTGCCAAGTTTACGCA
CTCCAAGTCAAATCAAGAAACTCTATGAGCCTGTCTTGGAACAAGAAGGCATGGAAGTTATGGAAAAATACCAGCCAAAA
CGGACCTTCGACTTGCCAGATTTCTCCAAGAAACCAAAAATCACTGGAGCCCAAGTCGGTTCAGCAGTGCATGAACTCAT
GCAACGCTTGGATCTGTCTTGGTTGGTGACAGAAGATACGGTAAGAGAAGCCCTAGAAGCTGTTCATGCTGAGCAAGCAG
TTAAAGACAAAATCAATGTTCAGATGATTTTGGATTTCTTTGATACAGATTTAGGAAGAGAAATTCTAGCCAATACGGAC
AAACTTCACCGAGAAGCACCGTTTGCAAGTTTGCAAACAGATTCTTTATCGCAGGAACAATTTGTCCTTCGAGGGATTAT
CGATGGCTACCTACTATATGATGATCATATTGTCCTCTTTGATTACAAGACAGACAAATATGACCAACCAAGCCAACTCA
GCCAACGTTACCAAGCTCAAATGCAACTCTATGCCGAGGCATTGAAAAAAGCCTACAAGATAGAGCGTGTAGACTGTCAT
TTGATTTTGCTTGGTGGGGAAAGGATTGAAGTGGTAGAAGTCAACATATAG


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

52.085

100

0.524