Detailed information    

insolico Bioinformatically predicted

Overview


Name   uvrA   Type   Machinery gene
Locus tag   JQM34_RS07575 Genome accession   NZ_CP069427
Coordinates   1592817..1595648 (+) Length   943 a.a.
NCBI ID   WP_200370746.1    Uniprot ID   -
Organism   Streptococcus oralis strain SF100     
Function   homologous recombination (predicted from homology)   
Homologous recombination

Genomic Context


Location: 1587817..1600648
Locus tag Gene name Coordinates (strand) Size (bp) Protein ID Product Description
  JQM34_RS07545 (JQM34_0001537) - 1588367..1588933 (+) 567 WP_200370741.1 DNA-3-methyladenine glycosylase I -
  JQM34_RS07550 (JQM34_0001538) - 1589013..1589276 (-) 264 WP_000166112.1 SemiSWEET family transporter -
  JQM34_RS07555 (JQM34_0001539) - 1589382..1590416 (-) 1035 WP_200370742.1 S66 peptidase family protein -
  JQM34_RS07560 (JQM34_0001540) - 1590684..1591031 (-) 348 WP_200370743.1 TfoX/Sxy family protein -
  JQM34_RS07565 (JQM34_0001542) - 1591047..1591724 (-) 678 WP_200370744.1 DUF1129 family protein -
  JQM34_RS07570 (JQM34_0001543) - 1591736..1592680 (-) 945 WP_000815620.1 magnesium transporter CorA family protein -
  JQM34_RS07575 (JQM34_0001544) uvrA 1592817..1595648 (+) 2832 WP_200370746.1 excinuclease ABC subunit UvrA Machinery gene
  JQM34_RS07580 (JQM34_0001545) - 1595641..1596702 (+) 1062 WP_076984276.1 Xaa-Pro peptidase family protein -
  JQM34_RS07585 (JQM34_0001546) mgtA 1597105..1599765 (+) 2661 WP_200370750.1 magnesium-translocating P-type ATPase -
  JQM34_RS07590 (JQM34_0001547) spx 1599900..1600298 (+) 399 WP_000591165.1 transcriptional regulator Spx -

Sequence


Protein


Download         Length: 943 a.a.        Molecular weight: 104205.22 Da        Isoelectric Point: 6.2033

>NTDB_id=466547 JQM34_RS07575 WP_200370746.1 1592817..1595648(+) (uvrA) [Streptococcus oralis strain SF100]
MQDKIVIHGARAHNLKNIDVEIPRDKLVVVTGLSGSGKSSLAFDTLYAEGQRRYVESLSAYARQFLGNMEKPDVDAIDGL
SPAISIDQKTTSKNPRSTVGTTTEINDYLRLLYARVGTPYCINGHGAIKASSVEQIVDKVLELPERQRLQILAPVIRKKK
GQHKSVIEKIQKDGYVRVRVDGEVYDVTEVPELSKSKQHNIDVVIDRIVIKEGIRSRLFDSIEAALRIAEGYVIIDTMDD
SELLFSEHYACPVCGFTVPELEPRLFSFNAPFGSCSECDGLGIKLEVDTDLVVPDASKTLREGALAPWNPISSNYYPNML
EQAMTAFEVDMDKPFEDLSEEDKNLILYGSDGKEFHFHYENEFGGVRDIDIPFEGVVGNIKRRYHETNSDYTRTQMRLYM
NELTCGTCHGYRLNDQALSVRVGCEQGPHIGEISDLSIADHLELVSQLTLSENEAIIARPILKEIKDRLTFLNNVGLNYL
TLSRSAGTLSGGESQRIRLATQIGSNLSGVLYILDEPSIGLHQRDNDRLIASLKKMRDLGNTLIVVEHDEDTMREADYLI
DVGPGAGAFGGEIVAAGTPKQVARNSKSITGQYLSGKRAIPIPDERRVGNGRFIEVTGARENNLQNITARFPLGKFIAVT
GVSGSGKSTLINSILKKAIAQKLNRNSDKPGKFKTITGIEHVDRLIDIDQSPIGRTPRSNPATYTGVFDDIRDLFAQTNE
AKIRGYKKGRFSFNVKGGRCEACSGDGIIKIEMHFLPDVYVACEVCHGTRYNSETLEVHYKEKNISQVLDMTVNDAVEFF
QHIPKIQRKLQTIKDVGLGYVTLGQPATTLSGGEAQRMKLASELHKRSTGKSFYILDEPTTGLHTEDIARLLKVLARFVD
DGNTVLVIEHNLDVIKTADHIIDLGPEGGVGGGTIIATGTPEEVAANEASYTGHYLKGKLHHE

Nucleotide


Download         Length: 2832 bp        

>NTDB_id=466547 JQM34_RS07575 WP_200370746.1 1592817..1595648(+) (uvrA) [Streptococcus oralis strain SF100]
ATGCAAGATAAAATTGTGATTCATGGGGCACGTGCCCATAACTTAAAAAATATTGATGTGGAGATTCCGCGAGACAAGCT
GGTTGTTGTGACTGGTTTGTCAGGTTCGGGGAAATCCAGCCTGGCCTTTGATACCCTCTATGCTGAGGGGCAACGCCGCT
ATGTAGAGAGCTTGTCAGCCTATGCTCGCCAGTTTTTGGGCAACATGGAAAAACCAGATGTGGATGCCATTGATGGCCTC
AGCCCGGCTATTTCCATCGACCAGAAAACCACCAGCAAAAACCCTCGCTCGACCGTGGGAACGACGACTGAAATCAATGA
TTATCTGCGTCTCCTCTACGCACGTGTGGGGACGCCTTACTGTATCAACGGACACGGGGCTATCAAGGCTTCTTCTGTTG
AGCAAATCGTGGATAAGGTCTTAGAATTGCCAGAACGCCAACGCTTGCAGATTTTGGCCCCTGTCATCCGCAAGAAAAAA
GGACAACACAAGAGCGTCATTGAAAAGATTCAGAAAGATGGCTATGTTCGTGTCCGAGTGGATGGGGAAGTCTATGATGT
GACCGAAGTGCCAGAGTTGTCCAAGAGCAAGCAACACAATATCGATGTTGTGATCGACCGTATTGTCATCAAGGAGGGCA
TTCGTAGCCGTCTCTTTGACTCAATCGAGGCTGCCCTTCGTATCGCAGAAGGATATGTCATTATCGACACTATGGACGAT
TCTGAGTTGCTCTTTTCTGAGCACTATGCCTGCCCGGTTTGTGGTTTTACCGTACCAGAGCTAGAGCCTCGTCTCTTCTC
CTTCAATGCCCCGTTTGGCTCGTGTAGTGAGTGTGATGGTTTGGGCATCAAGCTGGAAGTGGATACTGATTTGGTAGTAC
CAGATGCTAGCAAAACGCTACGCGAGGGAGCCTTGGCACCTTGGAATCCTATCTCATCCAACTACTATCCAAATATGCTA
GAGCAGGCCATGACAGCCTTTGAAGTGGATATGGATAAGCCATTTGAAGACTTGTCAGAAGAAGATAAGAACTTGATTCT
CTATGGGTCTGATGGCAAGGAATTTCATTTCCACTATGAGAATGAATTTGGTGGTGTGCGCGATATTGACATTCCTTTCG
AGGGGGTGGTTGGCAATATCAAACGTCGTTACCATGAAACCAATAGTGACTACACGCGCACCCAGATGCGTCTCTACATG
AATGAGCTAACCTGTGGAACTTGTCACGGCTATCGTCTCAACGATCAGGCCTTGTCTGTCCGTGTGGGTTGTGAGCAAGG
GCCACATATCGGAGAAATTTCAGACCTCTCAATCGCCGATCACTTGGAGTTGGTCAGCCAGTTGACTCTGTCTGAAAATG
AAGCCATTATCGCCCGTCCCATTCTCAAGGAAATCAAGGATCGCTTGACCTTCCTCAATAACGTAGGCCTCAACTATCTG
ACTCTGTCACGTTCGGCAGGAACCCTTTCAGGTGGGGAGAGTCAGCGTATTCGCTTGGCAACCCAAATTGGGTCCAACCT
ATCAGGTGTCCTTTATATCCTGGATGAGCCGTCCATCGGTCTTCACCAGAGGGATAATGACCGCTTGATTGCAAGTTTGA
AAAAGATGCGTGATTTAGGAAATACCCTTATCGTAGTGGAACATGACGAAGATACTATGCGTGAGGCAGATTATCTAATT
GACGTAGGCCCTGGTGCGGGAGCATTTGGTGGGGAAATTGTCGCCGCAGGTACGCCTAAGCAGGTGGCTCGCAACAGCAA
GTCTATCACAGGCCAATATCTATCAGGTAAACGTGCCATTCCGATACCAGACGAGCGTCGTGTAGGAAATGGTCGCTTTA
TCGAGGTGACAGGAGCGCGTGAGAACAACTTGCAAAATATCACCGCTCGCTTCCCGCTAGGGAAGTTCATCGCAGTGACG
GGGGTATCGGGTTCAGGGAAATCGACCTTAATCAACAGCATTCTCAAAAAAGCCATTGCGCAGAAGCTAAACCGCAATTC
AGACAAGCCTGGTAAATTCAAGACCATCACAGGGATTGAGCATGTCGATCGTCTGATTGACATTGACCAGAGTCCTATTG
GACGGACGCCGAGGTCTAACCCTGCTACCTATACGGGAGTTTTTGACGATATACGTGACCTCTTTGCCCAGACAAATGAG
GCCAAGATTCGAGGCTACAAGAAGGGCCGTTTCAGTTTCAACGTCAAGGGTGGTCGCTGTGAAGCCTGCTCGGGTGATGG
GATTATCAAGATTGAGATGCACTTCTTGCCAGATGTATACGTGGCTTGTGAAGTCTGCCACGGGACTCGCTACAACAGTG
AAACCTTAGAAGTTCACTACAAGGAAAAGAATATCTCGCAAGTCTTGGATATGACTGTCAACGATGCAGTTGAATTTTTC
CAACACATTCCCAAGATTCAACGCAAACTCCAGACCATCAAGGATGTAGGGCTGGGCTATGTAACTCTGGGTCAACCTGC
AACCACCCTTTCAGGTGGAGAAGCCCAGCGTATGAAGCTGGCTAGTGAACTCCACAAACGCTCGACAGGTAAGTCATTCT
ACATTCTGGATGAGCCGACGACAGGACTTCATACGGAGGACATCGCTCGTCTGCTCAAGGTTTTAGCTCGCTTTGTCGAC
GATGGCAATACTGTCCTCGTCATTGAGCACAATCTGGATGTTATTAAAACAGCAGACCATATCATCGACTTGGGACCTGA
AGGTGGTGTTGGTGGTGGAACCATCATCGCAACAGGAACTCCAGAAGAAGTAGCGGCCAATGAAGCCAGCTACACAGGAC
ACTATTTGAAAGGAAAGTTACATCATGAATAA


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

97.879

100

0.979

  uvrA Streptococcus pneumoniae TIGR4

97.879

100

0.979

  uvrA Streptococcus pneumoniae D39

97.879

100

0.979