Detailed information    

insolico Bioinformatically predicted

Overview


Name   uvrA   Type   Machinery gene
Locus tag   JZ789_RS09585 Genome accession   NZ_CP071806
Coordinates   1907254..1910079 (-) Length   941 a.a.
NCBI ID   WP_024417775.1    Uniprot ID   -
Organism   Streptococcus suis strain GX69     
Function   homologous recombination (predicted from homology)   
Homologous recombination

Genomic Context


Location: 1902254..1915079
Locus tag Gene name Coordinates (strand) Size (bp) Protein ID Product Description
  JZ789_RS09560 (JZ789_09475) - 1903597..1904562 (+) 966 WP_002938271.1 LacI family DNA-binding transcriptional regulator -
  JZ789_RS09565 (JZ789_09480) nusB 1904644..1905063 (-) 420 WP_002938276.1 transcription antitermination factor NusB -
  JZ789_RS09570 (JZ789_09485) - 1905053..1905445 (-) 393 WP_015647326.1 Asp23/Gls24 family envelope stress response protein -
  JZ789_RS09575 (JZ789_09490) efp 1905473..1906030 (-) 558 WP_002942436.1 elongation factor P -
  JZ789_RS09580 (JZ789_09495) - 1906094..1907155 (-) 1062 WP_170244717.1 Xaa-Pro peptidase family protein -
  JZ789_RS09585 (JZ789_09500) uvrA 1907254..1910079 (-) 2826 WP_024417775.1 excinuclease ABC subunit UvrA Machinery gene
  JZ789_RS09590 (JZ789_09505) - 1910873..1911817 (+) 945 WP_002939248.1 magnesium transporter CorA family protein -
  JZ789_RS09595 (JZ789_09510) - 1911833..1912489 (+) 657 WP_012027735.1 DUF1129 domain-containing protein -
  JZ789_RS09600 (JZ789_09515) rpsR 1912724..1912963 (-) 240 WP_002939250.1 30S ribosomal protein S18 -
  JZ789_RS09605 (JZ789_09520) ssbA 1912996..1913490 (-) 495 WP_002942409.1 single-stranded DNA-binding protein Machinery gene
  JZ789_RS09610 (JZ789_09525) rpsF 1913502..1913792 (-) 291 WP_002942403.1 30S ribosomal protein S6 -
  JZ789_RS09615 (JZ789_09530) - 1913964..1914953 (-) 990 WP_014736331.1 lipoate--protein ligase -

Sequence


Protein


Download         Length: 941 a.a.        Molecular weight: 103919.09 Da        Isoelectric Point: 5.9796

>NTDB_id=479015 JZ789_RS09585 WP_024417775.1 1907254..1910079(-) (uvrA) [Streptococcus suis strain GX69]
MQENIVIHGARAHNLKNIDVTIPREKLVVVTGLSGSGKSSLAFDTLYAEGQRRYVESLSAYARQFLGNMDKPDVDSIEGL
SPAISIDQKTTSRNPRSTVGTATEINDYLRLLYARVGVPYCINGHGAIAASSVEQIVDEVLELPERQRLQILAPIVRKKK
GQHKTIFEKIQKDGYVRVRVNGDVYDVSEVPELSKSKAHNIEVVVDRIVIKEGIRSRLFDSIEAALRIADGYVIIDTMDE
KELLFSEYYACPVCGFTVPELEPRLFSFNAPFGSCSDCDGLGMKLEVDTDLIVPDASKTLREGALAPWNPISSNYYPQML
EQAMNHFGVDMDKPFEELTDEEKNLIFNGSDGKEFHFHYENEFGGVRDIDIPFEGLITNINRRYRETNSDYTRTVMKTYM
NELTCGTCHGYRLNDQALSVKVGGEQGLHIGQLSDLSVADHLEVIENLTLSENEATIATPIVKEIKDRLTFLNNVGLNYL
TLSRAAGTLSGGESQRIRLATQIGSNLSGVLYILDEPSIGLHQRDNDRLIASLKKMRDLGNTLIVVEHDEDTMREADWLI
DIGPGAGVFGGEIVASGTPAQVAKNKKSITGQYLSGKREIPVPLERRVGNGRFLEVTGAKENNLQDVTVRFPLGKFVAVT
GVSGSGKSTLVNSILKKAIAQKLNRNSDKPGKFKSISGIEHLDRLIDIDQSPIGRTPRSNPATYTGVFDDIRDLFAQTNE
AKIRGYKKGRFSFNVKGGRCEACSGDGIIKIEMHFLPDVFVPCEVCHGHRYNSETLEVHYKEKNIAQVLDMTVNDAVEFF
KHIPKIERKLRTIQDVGLGYVTLGQPATTLSGGEAQRMKLASELHKRSTGKSLYILDEPTTGLHTEDIAQLLKVLARFVD
DGNTVLVIEHNLDVIKTADHIIDMGPEGGVGGGTVVATGTPEEVAENPASFTGQYLKMKLK

Nucleotide


Download         Length: 2826 bp        

>NTDB_id=479015 JZ789_RS09585 WP_024417775.1 1907254..1910079(-) (uvrA) [Streptococcus suis strain GX69]
ATGCAAGAAAATATTGTGATTCATGGGGCGCGTGCCCATAATTTGAAAAATATTGATGTGACCATTCCGCGTGAGAAGTT
GGTGGTGGTGACTGGTTTGTCAGGCTCTGGTAAGTCGAGTTTGGCTTTTGATACCTTGTATGCCGAAGGCCAACGCCGCT
ACGTAGAGTCCTTGTCTGCCTATGCTCGTCAGTTCTTGGGCAACATGGACAAGCCAGATGTGGATTCCATAGAGGGTCTC
AGCCCTGCTATTTCCATTGACCAAAAAACAACCTCGCGTAATCCGCGTTCGACAGTCGGTACAGCGACGGAAATCAATGA
CTATCTCCGCCTGCTCTATGCTCGAGTTGGGGTGCCTTACTGTATCAACGGGCACGGGGCGATTGCGGCTTCTTCGGTGG
AGCAGATCGTCGATGAGGTCTTGGAATTGCCAGAACGCCAGCGTTTGCAGATTCTAGCTCCGATTGTCCGCAAGAAAAAG
GGTCAGCATAAGACTATTTTTGAGAAAATCCAGAAGGATGGCTATGTTCGGGTTCGTGTCAATGGTGATGTCTATGATGT
GTCGGAAGTGCCCGAGTTGTCCAAGAGCAAGGCTCATAATATTGAAGTCGTTGTCGATCGAATTGTGATAAAAGAAGGTA
TTCGCTCTCGGCTTTTCGATTCTATCGAAGCGGCCCTGCGGATTGCGGACGGCTATGTCATCATCGACACCATGGATGAG
AAGGAACTGCTCTTCTCTGAGTACTATGCCTGCCCAGTTTGTGGCTTTACGGTACCAGAGTTGGAGCCTCGTCTTTTCTC
TTTCAATGCTCCTTTTGGGTCTTGTAGCGATTGTGACGGTTTGGGCATGAAGCTGGAAGTGGATACGGATTTGATTGTCC
CAGATGCCAGCAAGACCTTGCGTGAGGGTGCTTTGGCTCCGTGGAATCCAATCTCATCCAACTACTATCCTCAGATGTTG
GAACAGGCTATGAACCATTTTGGTGTGGATATGGACAAGCCTTTTGAGGAATTGACGGATGAGGAGAAGAACCTGATTTT
CAACGGCTCGGACGGCAAAGAATTCCATTTCCATTATGAAAATGAGTTCGGTGGGGTGCGTGATATTGATATTCCATTTG
AAGGATTGATTACCAACATTAACCGTCGCTACCGTGAAACCAACAGTGACTATACGCGGACGGTTATGAAGACTTACATG
AATGAGCTGACCTGTGGAACTTGCCACGGCTATCGCCTCAATGACCAAGCCCTGTCTGTCAAAGTTGGTGGCGAGCAGGG
ACTTCATATCGGGCAGTTGTCTGATTTGTCCGTAGCGGATCATCTGGAAGTCATTGAAAATCTGACCTTGTCTGAAAATG
AAGCCACCATTGCAACACCGATTGTCAAGGAAATCAAGGATCGCCTGACCTTCCTCAACAACGTTGGTCTTAACTACCTG
ACGCTGTCCCGAGCAGCTGGAACCCTATCAGGTGGTGAGAGTCAGCGGATTCGTTTGGCGACTCAGATTGGCTCAAACCT
GTCTGGTGTCCTTTACATCTTGGATGAGCCGTCAATTGGTCTGCACCAGCGGGACAATGACCGCCTCATTGCCAGCCTGA
AAAAGATGCGTGATTTGGGCAATACCTTGATTGTGGTGGAGCATGATGAGGACACCATGCGGGAGGCGGACTGGTTGATT
GACATCGGTCCAGGTGCGGGTGTCTTTGGCGGAGAAATCGTGGCTTCTGGAACGCCTGCCCAAGTAGCTAAAAATAAAAA
ATCCATTACAGGCCAGTACCTGTCTGGTAAACGTGAAATTCCAGTTCCTCTAGAACGTCGTGTTGGCAATGGTCGTTTCC
TGGAGGTAACAGGTGCCAAGGAAAATAACCTGCAAGATGTGACTGTTCGTTTCCCGCTCGGAAAATTTGTAGCGGTGACA
GGGGTGTCTGGCTCAGGTAAGTCAACTCTGGTCAATTCCATTCTGAAAAAAGCTATTGCTCAGAAACTCAATCGCAATTC
GGACAAGCCAGGTAAGTTCAAGTCTATTTCAGGAATTGAACACTTGGACCGCCTGATTGATATTGACCAAAGCCCGATTG
GACGAACACCGCGTTCCAATCCAGCTACCTACACAGGTGTCTTTGACGATATTCGGGATTTGTTTGCCCAGACCAATGAA
GCCAAAATCCGTGGCTACAAGAAAGGACGTTTCTCCTTTAACGTCAAAGGTGGTCGTTGTGAGGCTTGTTCTGGTGATGG
TATCATCAAGATTGAAATGCACTTCCTGCCAGATGTCTTTGTGCCATGTGAGGTCTGTCATGGACACCGTTACAATTCTG
AAACCTTGGAAGTACATTACAAGGAGAAAAATATCGCCCAAGTCCTTGATATGACGGTCAATGATGCGGTCGAGTTCTTC
AAGCATATTCCAAAAATTGAGCGGAAACTTCGTACTATTCAAGATGTAGGTTTGGGCTACGTTACTCTAGGTCAGCCAGC
AACGACCCTATCAGGTGGGGAAGCCCAGCGTATGAAGTTGGCTTCTGAACTCCACAAGCGGTCAACTGGTAAATCCTTGT
ATATCTTGGATGAGCCGACGACAGGTCTGCATACGGAGGACATTGCCCAGTTGCTCAAGGTCTTGGCCCGCTTTGTTGAT
GATGGCAATACCGTGCTGGTCATCGAGCACAATCTGGATGTCATCAAGACAGCCGACCACATTATCGACATGGGGCCAGA
AGGTGGTGTTGGTGGTGGTACCGTTGTTGCGACAGGAACACCAGAAGAAGTAGCAGAGAACCCAGCCAGCTTTACAGGTC
AATATTTGAAAATGAAGTTGAAATAA


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
  uvrA Streptococcus pneumoniae R6

89.362

99.894

0.893

  uvrA Streptococcus pneumoniae TIGR4

89.362

99.894

0.893

  uvrA Streptococcus pneumoniae D39

89.362

99.894

0.893