Detailed information    

insolico Bioinformatically predicted

Overview


Name   rexA   Type   Machinery gene
Locus tag   EGX82_RS01035 Genome accession   NZ_CP033822
Coordinates   210993..214616 (-) Length   1207 a.a.
NCBI ID   WP_000143226.1    Uniprot ID   Q8E5T9
Organism   Streptococcus agalactiae strain FDAARGOS_512     
Function   homologous recombination (predicted from homology)   
Homologous recombination

Genomic Context


Location: 205993..219616
Locus tag Gene name Coordinates (strand) Size (bp) Protein ID Product Description
  EGX82_RS01020 (EGX82_01020) - 206618..208528 (-) 1911 WP_000584918.1 ABC-F family ATP-binding cassette domain-containing protein -
  EGX82_RS01025 (EGX82_01025) mnmE 208656..210032 (+) 1377 WP_123922112.1 tRNA uridine-5-carboxymethylaminomethyl(34) synthesis GTPase MnmE -
  EGX82_RS01030 (EGX82_01030) - 210063..210980 (-) 918 WP_000634649.1 magnesium transporter CorA family protein -
  EGX82_RS01035 (EGX82_01035) rexA 210993..214616 (-) 3624 WP_000143226.1 helicase-exonuclease AddAB subunit AddA Machinery gene
  EGX82_RS01040 (EGX82_01040) rexB 214606..217839 (-) 3234 WP_000772292.1 ATP-dependent nuclease subunit B Machinery gene
  EGX82_RS01045 (EGX82_01045) - 218017..218919 (+) 903 WP_000686767.1 neutral zinc metallopeptidase -

Sequence


Protein


Download         Length: 1207 a.a.        Molecular weight: 139386.77 Da        Isoelectric Point: 5.3977

>NTDB_id=284864 EGX82_RS01035 WP_000143226.1 210993..214616(-) (rexA) [Streptococcus agalactiae strain FDAARGOS_512]
MTFKPFLNPEDIAVIQTEEKNSDKKQKRTPEQIEAIYTFGNNVLVSASAGSGKTFVMVERILDKLLRGVPIDSLFISTFT
VKAAGELKERLEKKINESLKSAESDDLKQFLTQQLVGIQTADIGTMDAFTQKIVNQYGYTLGISPIFRILQDKNEQDVIK
NEVYADLFSDYMTGKNAASFIKLVKNFSGNRKDSKAFREMVYKVYAFSQSTDNPKRWMQTVFLKGAQTYTDFEAIPDQEV
SSLLNVMQTTANQLRDLTDQEDYKQLTAKGVPTANYKKHLKIIENLVHWSQDFNLLYGKKGLANLARDITNVIPSGNDVT
VAGVKYPIFKQLHNRIVGLKHLEVIFKYQGESLFLLELLQSFVLDFSEQYLQEKIQENAFEFSDIAHFAIQILEENHDIR
QLYQDKYHEVMVDEYQDNNHTQERMLELLSNGHNRFMVGDIKQSIYRFRQADPQIFNDKYKAYQDNPSQGKLIILKENFR
SQSEVLDSTNSVFTHLMDEEVGDILYDESHQLKAGSPRQQERHPNNKTQVLLLDTDEDDINDSDSQQYDISPAEAKLVAK
EIIRLHKEENVPFQDITLLVSSRTRNDGILQTFDRYGIPLVTDGGEQNYLKSVEVMVMLDTLRSIDNPLNDYALVALLRS
PMFGFNEDDLTRIAIQDVKMAFYHKVKLSYHKEGHHSDLITPELSSKIDHFMKTFQTWRDFAKWHSLYDLIWKIYNDRFY
YDYVGALPKAEQRQANLYALALRANQFEKTGFKGLSRFIRMIDKVLENENDLADVEVALPQNAVNLMTIHKSKGLEFKYV
FILNIDKKFSMVDITSPLILSRNQGIGIKYVADMRHELEEELLPAVKVSMETLPYQLNKRELRLATLSEQMRLLYVAMTR
AEKKLYLVGKASQTKWADHYDLVSENNHLPLASRETFVTFQDWLLAVHETYKKQELFYDINFVSLEELTDHHIGMVNPSL
PFNPDNKAENRQSEDIVRAISVLESVEQINQTYKAAIELPTVRTPSQVKKFYEPILDIEGVDVMETITKTSVDFKLPDFS
TSKKQDPAALGSAVHELMQRIEMSSHVKMEDIQKALTEVNAETSVKAAIQIEKINYFFQETSLGKYIQEEVEHLHREAPF
AMLKEDPESGEKFVVRGIIDGYLLLENRIILFDYKTDKFVNPLELKERYQGQMALYAEALKKSYEIEKIDKYLILLGGKQ
LEVVKMD

Nucleotide


Download         Length: 3624 bp        

>NTDB_id=284864 EGX82_RS01035 WP_000143226.1 210993..214616(-) (rexA) [Streptococcus agalactiae strain FDAARGOS_512]
ATGACCTTTAAGCCTTTCTTAAATCCAGAAGATATTGCTGTTATTCAGACAGAAGAAAAAAATTCTGATAAAAAACAAAA
GCGAACGCCTGAACAAATTGAAGCCATTTATACTTTTGGTAACAATGTCCTGGTATCAGCTTCGGCTGGTTCTGGAAAGA
CTTTTGTAATGGTTGAGCGGATTTTAGATAAACTTTTAAGAGGGGTTCCGATTGACTCTTTGTTTATCTCAACATTTACA
GTAAAAGCGGCAGGTGAGCTCAAAGAACGTTTAGAAAAGAAAATAAACGAGTCTTTGAAATCCGCAGAATCAGATGATTT
AAAACAGTTTCTCACCCAGCAACTTGTAGGCATTCAAACAGCTGATATTGGTACTATGGATGCTTTTACGCAAAAAATAG
TTAACCAATATGGTTATACTTTGGGCATATCACCTATATTTAGGATTTTACAAGATAAAAATGAGCAAGACGTCATAAAG
AATGAGGTCTATGCTGATTTATTTTCTGACTACATGACTGGGAAGAATGCAGCTTCATTCATAAAATTAGTCAAAAATTT
CTCAGGTAATCGTAAAGATAGCAAAGCTTTTCGAGAAATGGTTTATAAAGTTTATGCTTTTAGCCAGTCCACCGATAACC
CCAAGCGCTGGATGCAAACAGTTTTTCTAAAAGGTGCACAAACTTACACTGATTTTGAAGCTATTCCAGATCAAGAAGTT
TCAAGCCTTTTAAATGTAATGCAAACAACTGCTAATCAATTACGTGATTTAACGGATCAAGAAGATTATAAGCAATTAAC
TGCTAAAGGGGTTCCGACAGCAAATTACAAAAAACACCTTAAAATAATTGAAAATTTAGTCCATTGGTCTCAAGACTTTA
ATTTGCTGTATGGAAAAAAAGGATTGGCTAATTTGGCACGTGATATCACTAATGTGATTCCTTCAGGCAATGATGTTACA
GTTGCTGGCGTTAAATATCCTATCTTTAAACAATTGCATAATCGTATCGTTGGACTTAAGCACTTAGAAGTTATTTTTAA
GTATCAAGGAGAATCTCTTTTCTTGTTAGAATTATTGCAATCCTTTGTTCTAGATTTCTCAGAACAATATTTACAGGAGA
AGATTCAAGAAAATGCTTTTGAATTTTCTGATATTGCCCATTTTGCAATTCAAATATTGGAAGAAAATCATGATATTAGG
CAACTTTATCAAGATAAGTATCATGAAGTAATGGTTGATGAGTATCAGGACAATAACCATACCCAAGAGAGAATGTTAGA
ATTATTGTCTAATGGACATAATCGTTTCATGGTTGGAGACATAAAACAATCAATTTACCGTTTTCGTCAGGCTGATCCAC
AAATTTTTAATGATAAATACAAAGCTTACCAAGACAATCCAAGTCAAGGGAAATTAATTATTCTGAAAGAGAATTTTCGG
AGTCAATCAGAGGTTTTAGACAGTACAAATAGTGTGTTTACACATCTTATGGATGAAGAAGTAGGAGACATTCTTTATGA
TGAAAGTCACCAATTAAAAGCTGGTAGTCCAAGACAGCAAGAAAGACATCCGAATAATAAAACACAAGTTTTACTATTAG
ATACTGATGAAGATGATATAAATGACAGTGATAGTCAACAATATGATATTAGCCCAGCTGAAGCAAAGTTAGTCGCAAAA
GAAATTATTCGATTGCATAAAGAAGAGAATGTTCCCTTTCAAGATATCACCCTCTTAGTTTCTTCAAGGACAAGGAATGA
TGGTATCTTACAAACTTTTGACCGTTATGGTATTCCTTTGGTAACTGACGGTGGGGAGCAAAATTACTTAAAATCAGTCG
AAGTGATGGTAATGCTTGATACTTTGCGGTCAATTGATAATCCCTTAAATGATTATGCTCTAGTTGCTCTTTTGAGATCT
CCCATGTTTGGCTTTAATGAAGATGATTTAACAAGAATTGCTATTCAGGATGTCAAAATGGCTTTTTATCATAAAGTGAA
ATTGTCTTATCATAAAGAAGGTCATCATAGTGATTTAATTACTCCAGAATTATCTTCTAAAATAGATCACTTTATGAAAA
CATTCCAGACTTGGCGTGATTTTGCTAAATGGCATTCGCTTTATGATTTAATATGGAAAATATATAATGACCGTTTTTAT
TATGATTATGTAGGAGCTCTGCCTAAAGCTGAGCAACGTCAAGCCAATCTATATGCCTTGGCACTTCGAGCAAATCAGTT
TGAAAAAACAGGTTTCAAGGGTTTATCACGCTTTATTCGAATGATTGATAAAGTTTTAGAAAATGAAAATGATTTGGCAG
ATGTTGAGGTGGCATTACCGCAAAATGCTGTTAACCTAATGACTATACACAAATCAAAGGGTCTTGAGTTTAAGTATGTA
TTTATTTTAAATATTGATAAGAAATTTTCAATGGTAGACATAACTTCCCCTCTTATTTTAAGCCGAAATCAAGGGATTGG
TATTAAATATGTTGCTGATATGCGACATGAACTCGAAGAAGAGCTACTGCCTGCAGTAAAGGTTAGCATGGAAACACTTC
CTTACCAACTTAATAAAAGAGAGTTACGCTTAGCTACTTTATCAGAGCAAATGCGTTTACTTTACGTAGCTATGACACGT
GCAGAGAAAAAATTATATCTGGTTGGTAAGGCTAGTCAAACCAAATGGGCTGATCATTATGACTTAGTATCTGAAAATAA
TCATCTCCCATTAGCTAGTCGTGAGACTTTTGTGACCTTTCAAGATTGGTTACTGGCTGTTCATGAAACCTATAAGAAAC
AAGAGTTGTTTTATGACATCAACTTCGTATCATTAGAGGAATTAACAGATCACCACATAGGGATGGTTAATCCTAGTCTA
CCTTTCAATCCCGATAATAAGGCAGAGAATCGTCAGTCTGAAGATATCGTGCGCGCGATTAGCGTGTTAGAATCTGTTGA
ACAGATTAATCAAACTTATAAAGCGGCTATTGAGTTACCGACAGTAAGAACACCAAGTCAAGTCAAAAAATTCTATGAGC
CTATTCTAGATATAGAAGGCGTTGATGTGATGGAAACTATTACTAAAACATCAGTAGATTTTAAGTTACCTGATTTTTCT
ACAAGTAAAAAGCAAGACCCAGCAGCTTTAGGATCTGCTGTACATGAATTAATGCAACGCATAGAGATGTCATCTCATGT
CAAAATGGAAGATATTCAAAAAGCCTTGACAGAAGTGAATGCTGAAACAAGTGTCAAAGCGGCTATTCAGATTGAAAAAA
TCAACTATTTTTTCCAAGAAACCTCACTCGGTAAGTATATACAAGAAGAAGTAGAACATCTGCATCGAGAGGCACCTTTT
GCCATGTTAAAAGAAGATCCGGAGAGTGGTGAGAAATTCGTTGTACGTGGTATTATTGATGGGTATCTACTATTAGAAAA
TCGGATAATTCTATTTGATTATAAGACTGATAAATTTGTCAATCCTCTGGAATTAAAAGAACGCTATCAGGGACAAATGG
CTTTATATGCAGAAGCTTTAAAAAAATCTTACGAGATAGAAAAGATAGACAAATACTTAATTCTTTTAGGTGGTAAACAG
CTAGAAGTGGTAAAAATGGATTAA


Secondary structure


Protein secondary structures were predicted by S4PRED and visualized by seqviz.



3D structure


Source ID Structure
  AlphaFold DB Q8E5T9

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

50.325

100

0.514


Multiple sequence alignment