Detailed information    

insolico Bioinformatically predicted

Overview


Name   uvrB   Type   Machinery gene
Locus tag   FTN78_RS01310 Genome accession   NZ_CP043523
Coordinates   164312..166390 (+) Length   692 a.a.
NCBI ID   WP_003130812.1    Uniprot ID   Q9CI06
Organism   Lactococcus lactis subsp. lactis bv. diacetylactis strain SD96     
Function   homologous recombination (predicted from homology)   
Homologous recombination

Genomic Context


Location: 159312..171390
Locus tag Gene name Coordinates (strand) Size (bp) Protein ID Product Description
  FTN78_RS01290 (FTN78_chr0208) - 161258..161728 (-) 471 WP_010905440.1 Rrf2 family transcriptional regulator -
  FTN78_RS01295 (FTN78_chr0209) gap 161901..162914 (+) 1014 WP_150891009.1 type I glyceraldehyde-3-phosphate dehydrogenase -
  FTN78_RS01300 (FTN78_chr0210) def 163057..163692 (-) 636 WP_003130816.1 peptide deformylase -
  FTN78_RS01305 (FTN78_chr0211) - 163846..164301 (+) 456 WP_003130814.1 RNA pyrophosphohydrolase -
  FTN78_RS01310 (FTN78_chr0212) uvrB 164312..166390 (+) 2079 WP_003130812.1 excinuclease ABC subunit UvrB Machinery gene
  FTN78_RS01315 (FTN78_chr0213) - 166586..167395 (+) 810 WP_010905441.1 ABC transporter substrate-binding protein -
  FTN78_RS01320 (FTN78_chr0214) - 167410..168528 (+) 1119 WP_021214900.1 M20 family metallopeptidase -
  FTN78_RS01325 (FTN78_chr0215) fabZ 168596..169051 (-) 456 WP_003130498.1 3-hydroxyacyl-ACP dehydratase FabZ -
  FTN78_RS01330 (FTN78_chr0216) fabI 169327..170079 (+) 753 WP_010905443.1 enoyl-ACP reductase FabI -
  FTN78_RS01335 (FTN78_chr0217) - 170350..170748 (+) 399 WP_225308036.1 hypothetical protein -
  FTN78_RS13760 - 170817..171110 (+) 294 WP_021214901.1 ATP-binding cassette domain-containing protein -

Sequence


Protein


Download         Length: 692 a.a.        Molecular weight: 79131.46 Da        Isoelectric Point: 4.5652

>NTDB_id=338003 FTN78_RS01310 WP_003130812.1 164312..166390(+) (uvrB) [Lactococcus lactis subsp. lactis bv. diacetylactis strain SD96]
MAIERITDNKFELVSKYEPAGDQGEAIAELVDNIENGEKAQILRGATGTGKTYTMSQVIARTGKPTLVMAHNKTLAGQLY
SEFKEFFPNNAVEYFVSYYDYYQPEAYVPSSDTYIEKDSSVNDEIDKLRHSATSSLLERNDVIVVASVSCIYGLGSPKEY
QDSVVSLRPGQEISRDQLLNDLVGIQFERNDIDFQRGCFRVRGDVVEVFPASRDEHAFRVEFFGDEIDRIREIEVLTGQV
LGEVDHLAIFPATHFMTNDDRMEESIAKIEAELEEQLKVFRSEGKLLEAQRLEQRTNYDIEMLREMGYCNGVENYSRHMD
GREEGEPPYTLLDFFPDDFMIMIDESHMTMGQVKGMYNGDRARKEMLCNYGFRLPSALDNRPLKREEFESHVHQIVYVSA
TPGDYEMEQTDTIVEQIIRPTGLLDPVVEVRPMMGQIDDLVGEIHKRAEKNERVFVTTLTKKMSEDLTAYFKEMGIKVKY
MHSDIKTLERTEIIRDLRLGVFDVLVGINLLREGIDVPEVSLVAILDADKEGFLRNERGLIQTIGRAARNSEGHVILYSD
MAKALDENDPVDKEILDSGYYTEYEGQKYKITRSMKHAMDETARRREIQMAYNEEHGITPQTIKKEIRDLIAITKKTDSG
EIEEVDASAMTKKERKALVKKLEKEMQQAASALDFEGAAQLRDMVLELRAMD

Nucleotide


Download         Length: 2079 bp        

>NTDB_id=338003 FTN78_RS01310 WP_003130812.1 164312..166390(+) (uvrB) [Lactococcus lactis subsp. lactis bv. diacetylactis strain SD96]
ATGGCTATAGAAAGAATAACAGATAATAAATTTGAACTTGTTTCAAAATATGAGCCAGCCGGTGACCAAGGTGAGGCGAT
TGCTGAGTTAGTAGATAATATTGAGAATGGGGAAAAAGCTCAAATTTTACGTGGAGCAACAGGAACAGGGAAAACTTACA
CCATGAGTCAAGTGATTGCACGGACAGGTAAACCTACTCTTGTTATGGCTCATAATAAAACACTGGCTGGTCAATTATAC
AGTGAATTTAAAGAGTTTTTTCCAAATAATGCAGTCGAGTATTTCGTATCCTACTATGATTATTATCAACCCGAAGCCTA
TGTTCCAAGTTCTGACACCTATATTGAAAAAGACAGTTCGGTCAATGATGAAATTGATAAATTGCGTCATAGTGCGACCT
CAAGCTTATTGGAACGTAATGATGTGATTGTTGTGGCCTCAGTTTCTTGTATTTATGGATTGGGTTCACCCAAAGAGTAT
CAAGATTCGGTGGTTTCATTGCGCCCAGGTCAAGAAATTTCTCGTGACCAACTTTTAAATGATTTGGTAGGAATTCAATT
TGAGCGAAATGATATTGACTTTCAACGGGGCTGTTTCCGAGTTCGCGGGGATGTTGTAGAAGTTTTTCCAGCCTCTCGTG
ATGAACATGCCTTTCGTGTTGAATTTTTCGGTGATGAAATTGACCGTATCCGTGAAATTGAAGTTTTGACCGGACAAGTT
TTAGGTGAAGTAGACCATTTGGCAATTTTCCCAGCGACACATTTCATGACAAATGATGACCGTATGGAAGAATCAATTGC
CAAGATAGAAGCAGAATTAGAAGAACAATTAAAAGTTTTCCGCTCAGAAGGAAAACTTCTTGAGGCTCAACGTTTAGAAC
AAAGAACCAACTACGATATCGAAATGCTCCGTGAAATGGGTTATTGTAATGGGGTCGAAAACTATTCACGTCATATGGAT
GGGCGCGAGGAAGGCGAACCTCCGTATACTTTACTTGATTTCTTTCCTGATGATTTCATGATTATGATTGATGAATCACA
CATGACAATGGGGCAAGTAAAAGGAATGTATAACGGTGACAGAGCCCGTAAAGAAATGCTTTGTAATTATGGATTCCGCC
TGCCTTCAGCCCTCGATAACCGTCCTTTAAAAAGAGAAGAATTTGAAAGTCATGTGCATCAAATTGTTTATGTTTCAGCA
ACCCCTGGGGATTATGAGATGGAGCAGACCGATACCATTGTTGAACAAATTATTCGTCCAACAGGTCTATTAGATCCTGT
CGTAGAAGTTCGACCAATGATGGGACAAATCGATGATTTAGTTGGTGAAATTCATAAACGAGCTGAGAAAAACGAACGAG
TATTCGTCACGACTTTGACTAAAAAGATGTCAGAAGATTTAACTGCCTATTTCAAGGAAATGGGGATAAAAGTTAAATAT
ATGCACTCGGATATCAAAACATTAGAACGAACCGAAATTATTCGGGATTTGCGTTTAGGAGTCTTTGATGTTCTGGTGGG
AATAAATCTGCTTCGCGAAGGGATTGACGTGCCAGAAGTTTCTTTAGTCGCGATTTTGGATGCTGATAAAGAAGGATTTT
TACGTAATGAGCGTGGCTTGATTCAGACCATTGGTCGTGCAGCACGTAATAGTGAAGGTCATGTTATTCTTTATTCTGAT
ATGGCTAAAGCCCTTGATGAAAATGATCCTGTGGATAAAGAAATCTTAGATAGTGGTTATTATACAGAATACGAGGGTCA
AAAGTATAAAATAACGCGTTCAATGAAACATGCGATGGATGAAACAGCCCGTCGGCGTGAAATTCAAATGGCTTATAATG
AAGAACATGGAATCACACCTCAAACGATCAAAAAAGAAATTCGTGATTTGATTGCCATTACTAAGAAAACTGATTCTGGT
GAGATTGAAGAAGTTGATGCAAGTGCGATGACTAAGAAAGAACGTAAAGCATTAGTCAAAAAACTTGAAAAAGAAATGCA
ACAAGCGGCTAGCGCCCTCGACTTTGAAGGAGCTGCTCAGTTACGTGATATGGTATTAGAATTACGTGCAATGGATTGA


Secondary structure


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



3D structure


Source ID Structure
  AlphaFold DB Q9CI06

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
  uvrB Streptococcus pneumoniae R6

82.029

99.711

0.818

  uvrB Streptococcus pneumoniae D39

82.029

99.711

0.818

  uvrB Streptococcus pneumoniae TIGR4

81.884

99.711

0.816


Multiple sequence alignment