Detailed information    

insolico Bioinformatically predicted

Overview


Name   uvrA   Type   Machinery gene
Locus tag   D9Y32_RS09600 Genome accession   NZ_CP033218
Coordinates   1892934..1895807 (+) Length   957 a.a.
NCBI ID   WP_142782352.1    Uniprot ID   -
Organism   Bacillus licheniformis strain TCCC 11148     
Function   homologous recombination (predicted from homology)   
Homologous recombination

Genomic Context


Location: 1887934..1900807
Locus tag Gene name Coordinates (strand) Size (bp) Protein ID Product Description
  D9Y32_RS09575 (D9Y32_09585) swrA 1888125..1888478 (+) 354 WP_003185659.1 swarming motility protein SwrAA -
  D9Y32_RS09580 (D9Y32_09590) - 1888776..1889987 (+) 1212 WP_011198347.1 PDZ domain-containing protein -
  D9Y32_RS09585 (D9Y32_09595) - 1890112..1890405 (+) 294 WP_003185656.1 DUF5316 domain-containing protein -
  D9Y32_RS09590 (D9Y32_09600) - 1890524..1890757 (+) 234 WP_003185654.1 CsbA family protein -
  D9Y32_RS09595 (D9Y32_09605) uvrB 1890941..1892926 (+) 1986 WP_003185651.1 excinuclease ABC subunit UvrB Machinery gene
  D9Y32_RS09600 (D9Y32_09610) uvrA 1892934..1895807 (+) 2874 WP_142782352.1 excinuclease ABC subunit UvrA Machinery gene
  D9Y32_RS24020 - 1895951..1896320 (+) 370 Protein_1856 VOC family protein -
  D9Y32_RS09615 (D9Y32_09625) - 1896327..1896557 (-) 231 WP_003185639.1 hypothetical protein -
  D9Y32_RS09620 (D9Y32_09630) - 1896772..1897098 (+) 327 WP_003185637.1 DUF4870 domain-containing protein -
  D9Y32_RS09625 (D9Y32_09635) - 1897124..1898218 (+) 1095 WP_003185635.1 DUF4097 domain-containing protein -
  D9Y32_RS09630 (D9Y32_09640) - 1898223..1898423 (+) 201 WP_003185633.1 PspC domain-containing protein -
  D9Y32_RS09635 (D9Y32_09645) - 1898420..1898779 (+) 360 WP_003185632.1 phage holin family protein -

Sequence


Protein


Download         Length: 957 a.a.        Molecular weight: 106774.13 Da        Isoelectric Point: 6.6598

>NTDB_id=282703 D9Y32_RS09600 WP_142782352.1 1892934..1895807(+) (uvrA) [Bacillus licheniformis strain TCCC 11148]
MATKRIEVKGARAHNLKNIDVSIPRDQLVVLTGLSGSGKSSLAFDTIYAEGQRRYVESLSAYARQFLGQMDKPDVDAIEG
LSPAISIDQKTTSRNPRSTVGTVTEIYDYLRLLFARIGKPVCPVHGIEITSQTIEQMTDRILDYPERTKIQVLAPIVSGR
KGSHVKVLEQIRKQGYVRVRIDGEMNDLSEDIELEKNKKHSIEVVVDRIVIKEGVTARLTDSLETALRLGEGRVIIDVIG
QEELLFSEHHACPHCGFSIGELEPRMFSFNSPFGACPSCDGLGSKLEVDVELVIPNDELSLKENAIAPWEPQSSQYYPKL
LEAVCSHYGIDMDIPVRDLPKHHLEKILYGSGGEQIYFRYENDFGQVRENYIEFEGVIRNIERRYKETSSDYVRELMEKY
MANQPCPSCKGYRLKKESLAVLINGLHIGKITEMSVANALQFFRELDLSEKDMKIANLILREIEERLGFLNNVGLDYLTL
SRAAGTLSGGEAQRIRLATQIGSRLTGVLYILDEPSIGLHQRDNDRLIETLKNMRDIGNTLIVVEHDEDTMLAADYLIDI
GPGAGVHGGEVISAGTPEEVMNDDQSLTGQYLSGKKFIPLPAERRKPNNRFIEVKGAKENNLKNVSVKFPLGVFTAVTGV
SGSGKSTLVNEILHKTLAQKLHRAKTKPGEYKEIKGIEHLDKVIDIDQSPIGRTPRSNPATYTGVFDDIRDVFAQTNEAK
VRGYKKGRFSFNVKGGRCEACKGDGIIKIEMHFLPDVYVPCEVCHGKRYNRETLQVTYKGKNISDVLEMTVENAVQFFEN
IPKIKRKLQTLYDVGLGYITLGQPATTLSGGEAQRVKLASELHRRSTGRSLYILDEPTTGLHVDDIARLLAVLQRLVDNG
DTVLVIEHNLDIIKAADYLIDLGPEGGDGGGMIVAAGPPEEVVKVEGSYTGRYLKPIIERDKNRMKKRLQEKEAVRP

Nucleotide


Download         Length: 2874 bp        

>NTDB_id=282703 D9Y32_RS09600 WP_142782352.1 1892934..1895807(+) (uvrA) [Bacillus licheniformis strain TCCC 11148]
ATGGCAACGAAACGAATTGAGGTGAAAGGTGCAAGGGCCCATAACCTGAAAAATATCGATGTCTCTATTCCGAGGGATCA
GCTTGTCGTTTTGACAGGTCTTTCGGGATCAGGGAAATCATCCCTTGCGTTCGATACGATATATGCAGAGGGGCAGCGGC
GCTATGTCGAGTCTCTCTCCGCATATGCCCGCCAGTTTTTAGGACAGATGGACAAACCCGACGTCGATGCGATTGAAGGC
CTGTCGCCGGCGATCAGCATCGATCAGAAAACAACGAGCCGGAACCCCCGGTCGACAGTCGGAACGGTGACGGAAATCTA
CGATTATCTCCGGCTGCTGTTTGCCAGAATCGGAAAGCCGGTTTGCCCTGTTCACGGCATTGAAATTACCTCGCAAACGA
TCGAACAGATGACGGACAGAATTTTGGATTATCCCGAGCGGACGAAGATCCAGGTGCTTGCGCCGATCGTCTCGGGAAGA
AAAGGATCGCACGTGAAAGTGCTCGAACAAATCAGAAAACAAGGCTATGTGAGAGTCCGGATCGACGGCGAAATGAACGA
CCTCTCAGAGGACATCGAGCTCGAAAAGAATAAAAAGCATTCGATCGAAGTCGTCGTCGACCGCATCGTCATAAAAGAAG
GCGTAACCGCCCGTCTCACAGACTCGCTCGAAACGGCGCTCCGCCTCGGCGAAGGCCGTGTGATCATCGACGTGATCGGG
CAGGAAGAGCTGCTGTTCAGCGAGCACCATGCCTGTCCGCACTGCGGTTTTTCAATTGGGGAACTGGAGCCGAGGATGTT
TTCTTTCAACAGCCCGTTCGGCGCATGTCCGAGCTGCGACGGCCTCGGGTCCAAGCTGGAAGTCGATGTAGAGCTCGTCA
TTCCAAACGATGAGCTGTCTCTAAAGGAGAATGCGATTGCACCTTGGGAACCGCAGAGCTCCCAATATTATCCGAAGCTG
CTTGAAGCGGTATGCAGCCACTATGGAATCGATATGGATATTCCGGTCAGAGACCTGCCGAAGCACCACCTTGAGAAAAT
CCTCTACGGCAGCGGAGGCGAGCAGATTTATTTCAGATATGAAAACGACTTCGGACAAGTCCGGGAAAACTACATTGAGT
TCGAAGGCGTCATCCGCAATATCGAAAGGCGCTATAAAGAAACCAGCTCGGATTATGTTCGTGAACTGATGGAAAAATAT
ATGGCTAATCAGCCGTGCCCTTCATGCAAAGGCTACCGTCTGAAAAAGGAATCCCTCGCCGTGCTGATTAACGGCCTTCA
CATCGGTAAGATAACCGAAATGTCGGTAGCTAACGCCCTTCAATTTTTCCGTGAACTTGATCTTTCGGAAAAAGACATGA
AGATCGCCAACCTCATTTTGCGGGAGATTGAAGAAAGGCTCGGATTCTTGAACAATGTCGGGCTTGACTATTTGACGCTC
AGCCGCGCAGCCGGCACTCTGTCGGGGGGAGAAGCGCAGCGGATCAGGCTTGCAACGCAAATCGGCTCAAGGCTGACCGG
TGTCCTTTACATCCTTGATGAGCCGTCAATCGGTCTTCATCAACGCGATAACGACCGTCTGATTGAGACGCTCAAAAACA
TGAGGGATATCGGAAACACATTGATCGTCGTCGAGCATGACGAGGATACAATGCTTGCCGCCGATTATTTAATCGATATC
GGGCCCGGCGCGGGTGTACACGGGGGAGAAGTAATCTCCGCCGGAACGCCGGAAGAAGTGATGAACGATGATCAATCTCT
GACAGGGCAATATCTTTCAGGGAAAAAATTCATTCCTCTTCCTGCCGAGAGAAGAAAGCCTAACAACCGCTTTATCGAGG
TAAAAGGGGCAAAGGAAAACAACTTGAAAAATGTTTCCGTGAAATTTCCGCTCGGCGTGTTCACAGCTGTTACCGGGGTA
TCGGGATCAGGGAAAAGCACGCTCGTTAATGAAATTCTCCACAAAACGCTGGCTCAGAAGCTGCATCGGGCTAAGACGAA
ACCGGGAGAATACAAAGAAATAAAAGGAATCGAGCACCTCGATAAAGTGATCGATATTGACCAGTCTCCGATCGGCCGGA
CGCCGAGGTCAAATCCGGCCACATATACCGGCGTGTTCGATGACATCCGCGACGTGTTTGCCCAGACGAATGAAGCGAAA
GTCAGAGGATACAAGAAAGGGCGCTTCAGCTTTAACGTCAAAGGCGGACGCTGTGAGGCCTGCAAAGGCGACGGAATCAT
TAAAATCGAGATGCACTTCCTGCCCGATGTATACGTTCCTTGTGAGGTTTGCCACGGAAAGAGATACAACCGTGAAACGC
TTCAAGTTACGTACAAAGGCAAAAATATCTCTGACGTGCTTGAGATGACGGTCGAGAATGCCGTTCAATTTTTTGAGAAC
ATCCCGAAAATCAAGCGCAAGCTGCAGACCCTCTATGATGTCGGTCTTGGCTATATTACGCTCGGACAGCCGGCTACAAC
GCTTTCCGGGGGAGAAGCGCAGCGGGTCAAATTGGCATCTGAACTTCACCGCCGTTCAACGGGAAGATCCCTTTATATTT
TGGACGAGCCGACGACAGGACTGCACGTCGATGATATCGCAAGGCTTTTGGCCGTTCTGCAGCGCCTGGTCGACAATGGA
GATACAGTGCTTGTAATCGAACACAATCTAGATATTATAAAAGCGGCTGATTATTTGATCGACTTGGGTCCTGAAGGCGG
AGACGGCGGGGGAATGATCGTGGCTGCCGGACCTCCCGAAGAAGTCGTGAAAGTCGAAGGGTCATATACCGGCCGTTATT
TAAAACCGATCATTGAACGCGACAAAAACAGAATGAAGAAGCGGCTTCAAGAAAAAGAAGCTGTCAGACCGTAA


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

69.272

97.597

0.676

  uvrA Streptococcus pneumoniae TIGR4

69.272

97.597

0.676

  uvrA Streptococcus pneumoniae D39

69.272

97.597

0.676