Detailed information    

insolico Bioinformatically predicted

Overview


Name   uvrA   Type   Machinery gene
Locus tag   JFX80_RS15325 Genome accession   NZ_CP075632
Coordinates   3078179..3081001 (+) Length   940 a.a.
NCBI ID   WP_000357740.1    Uniprot ID   Q3YUS6
Organism   Escherichia coli strain 2018-166     
Function   homologous recombination (predicted from homology)   
Homologous recombination

Genomic Context


Location: 3073179..3086001
Locus tag Gene name Coordinates (strand) Size (bp) Protein ID Product Description
  JFX80_RS15300 (JFX80_15310) soxR 3074117..3074581 (-) 465 WP_000412428.1 redox-sensitive transcriptional activator SoxR -
  JFX80_RS15305 (JFX80_15315) soxS 3074667..3074990 (+) 324 WP_000019358.1 superoxide response transcriptional regulator SoxS -
  JFX80_RS15310 (JFX80_15320) pdeC 3074993..3076579 (-) 1587 WP_000019535.1 c-di-GMP phosphodiesterase PdeC -
  JFX80_RS15315 (JFX80_15325) yjcB 3077009..3077290 (+) 282 WP_001295689.1 YjcB family protein -
  JFX80_RS15320 (JFX80_15330) ssb 3077389..3077925 (-) 537 WP_000168305.1 single-stranded DNA-binding protein SSB1 Machinery gene
  JFX80_RS15325 (JFX80_15335) uvrA 3078179..3081001 (+) 2823 WP_000357740.1 excinuclease ABC subunit UvrA Machinery gene
  JFX80_RS15330 (JFX80_15340) yjbR 3081036..3081392 (-) 357 WP_000155657.1 MmcQ/YjbR family DNA-binding protein -
  JFX80_RS15335 (JFX80_15345) yjbQ 3081396..3081812 (-) 417 WP_000270375.1 secondary thiamine-phosphate synthase enzyme YjbQ -
  JFX80_RS15340 (JFX80_15350) aphA 3081923..3082636 (-) 714 WP_001307512.1 acid phosphatase AphA -
  JFX80_RS27345 - 3083038..3083260 (+) 223 Protein_3036 hypothetical protein -
  JFX80_RS27350 - 3083290..3083541 (+) 252 WP_000275035.1 hypothetical protein -
  JFX80_RS15350 (JFX80_15360) tyrB 3083763..3084956 (-) 1194 WP_000486963.1 aromatic amino acid transaminase -

Sequence


Protein


Download         Length: 940 a.a.        Molecular weight: 103867.54 Da        Isoelectric Point: 6.6066

>NTDB_id=499182 JFX80_RS15325 WP_000357740.1 3078179..3081001(+) (uvrA) [Escherichia coli strain 2018-166]
MDKIEVRGARTHNLKNINLVIPRDKLIVVTGLSGSGKSSLAFDTLYAEGQRRYVESLSAYARQFLSLMEKPDVDHIEGLS
PAISIEQKSTSHNPRSTVGTITEIHDYLRLLFARVGEPRCPDHDVPLAAQTVSQMVDNVLSQPEGKRLMLLAPIIKERKG
EHTKTLENLASQGYIRARIDGEVCDLSDPPKLELQKKHTIEVVVDRFKVRDDLTQRLAESFETALELSGGTAVVADMDDP
KAEELLFSANFACPICGYSMRELEPRLFSFNNPAGACPTCDGLGVQQYFDPDRVIQNPELSLAGGAIRGWDRRNFYYFQM
LKSLADHYKFDVEAPWGSLSANVHKVVLYGSGKENIEFKYMNDRGDTSIRRHPFEGVLHNMERRYKETESSAVREELAKF
ISNRPCASCEGTRLRREARHVYVENTPLPAISDMSIGHAMEFFNNLKLAGQRAKIAEKILKEIGDRLKFLVNVGLNYLTL
SRSAETLSGGEAQRIRLASQIGAGLVGVMYVLDEPSIGLHQRDNERLLGTLIHLRDLGNTVIVVEHDEDAIRAADHVIDI
GPGAGVHGGEVVAEGPLEAIMAVPESLTGQYMSGKRKIEVPKKRVPANPEKVLKLTGARGNNLKDVTLTLPVGLFTCITG
VSGSGKSTLINDTLFPIAQRQLNGATIAEPAPYRDIQGLEHFDKVIDIDQSPIGRTPRSNPATYTGVFTPVRELFAGVPE
SRARGYTPGRFSFNVRGGRCEACQGDGVIKVEMHFLPDIYVPCDQCKGKRYNRETLEIKYKGKTIHEVLDMTIEEAREFF
DAVPALARKLQTLMDVGLTYIRLGQSATTLSGGEAQRVKLARELSKRGTGQTLYILDEPTTGLHFADIQQLLDVLHKLRD
QGNTIVVIEHNLDVIKTADWIVDLGPEGGSGGGEILVSGTPETVAECEASHTARFLKPML

Nucleotide


Download         Length: 2823 bp        

>NTDB_id=499182 JFX80_RS15325 WP_000357740.1 3078179..3081001(+) (uvrA) [Escherichia coli strain 2018-166]
ATGGATAAGATCGAAGTTCGGGGCGCCCGCACCCATAATCTCAAAAACATCAACCTCGTTATCCCCCGCGACAAGCTCAT
TGTCGTGACCGGGCTTTCGGGTTCTGGCAAATCCTCGCTCGCTTTCGACACCTTATATGCCGAAGGGCAGCGCCGTTACG
TTGAATCCCTTTCCGCCTACGCGCGGCAGTTTCTGTCACTGATGGAAAAGCCGGACGTCGATCATATTGAGGGGCTTTCT
CCTGCCATCTCAATTGAGCAGAAATCGACGTCTCATAACCCGCGTTCTACGGTGGGGACAATCACCGAAATCCACGACTA
TTTGCGTTTGTTGTTCGCCCGCGTCGGCGAACCGCGCTGTCCGGACCACGACGTCCCGCTGGCGGCGCAAACCGTCAGCC
AGATGGTGGATAACGTGCTGTCGCAGCCGGAAGGCAAGCGTCTGATGCTGCTCGCGCCAATCATTAAAGAGCGCAAAGGC
GAACACACCAAAACGCTGGAGAACCTGGCAAGCCAGGGTTACATCCGTGCTCGTATTGATGGCGAAGTCTGCGATCTTTC
CGATCCGCCGAAACTGGAACTGCAAAAGAAACATACCATTGAAGTGGTGGTTGATCGCTTCAAGGTGCGTGACGATCTTA
CCCAACGTCTTGCGGAGTCGTTTGAAACCGCGCTGGAGCTTTCCGGTGGTACAGCGGTAGTGGCGGATATGGACGACCCG
AAAGCGGAAGAGCTGCTGTTCTCCGCCAACTTCGCCTGCCCAATTTGCGGCTACAGTATGCGTGAACTGGAGCCGCGACT
GTTTTCGTTTAACAACCCGGCAGGTGCCTGCCCAACCTGTGACGGCCTTGGCGTACAGCAATATTTCGATCCTGACCGCG
TGATCCAAAACCCCGAGCTGTCACTGGCTGGCGGTGCGATCCGTGGCTGGGATCGCCGCAACTTCTATTACTTCCAGATG
CTGAAATCGCTGGCAGATCACTATAAGTTCGACGTCGAAGCGCCGTGGGGCAGCCTGAGCGCGAACGTGCATAAAGTGGT
GTTGTACGGTTCTGGCAAAGAAAACATTGAATTCAAATACATGAACGATCGTGGCGATACCTCCATCCGTCGTCATCCGT
TCGAAGGCGTGCTGCACAATATGGAGCGCCGTTATAAAGAGACAGAATCCAGTGCGGTACGTGAAGAATTAGCCAAGTTT
ATCAGCAATCGCCCATGCGCCAGCTGCGAAGGGACGCGTCTGCGTCGGGAAGCGCGCCACGTTTATGTCGAGAATACGCC
GCTGCCTGCTATCTCCGACATGAGCATCGGTCATGCGATGGAATTCTTCAACAATCTCAAACTCGCTGGTCAACGGGCGA
AGATTGCGGAAAAAATCCTTAAAGAGATCGGCGATCGTTTGAAATTCCTCGTTAACGTCGGCCTGAATTACCTGACGCTT
TCCCGCTCGGCAGAAACGCTTTCCGGCGGTGAAGCCCAGCGTATCCGTCTGGCGAGCCAGATTGGTGCGGGCCTGGTTGG
CGTTATGTACGTGCTGGACGAGCCATCTATCGGCCTGCACCAGCGCGATAACGAGCGCCTGTTGGGTACGCTTATCCATC
TGCGCGATCTCGGTAATACCGTGATTGTGGTGGAGCACGACGAAGACGCAATTCGCGCCGCTGACCATGTGATCGACATT
GGCCCGGGCGCAGGTGTTCACGGCGGTGAAGTGGTCGCAGAAGGTCCGCTGGAAGCGATTATGGCGGTGCCGGAGTCGTT
GACCGGGCAGTACATGAGCGGTAAACGCAAGATTGAAGTGCCGAAGAAACGCGTTCCGGCAAATCCGGAAAAAGTGCTGA
AGCTGACAGGCGCACGCGGCAACAACCTGAAGGACGTGACGCTCACGCTGCCAGTCGGTCTGTTTACCTGCATCACAGGG
GTTTCAGGTTCCGGTAAATCGACGCTGATTAACGACACACTGTTCCCGATTGCCCAACGCCAGTTGAATGGTGCGACCAT
CGCCGAACCGGCACCGTATCGCGATATTCAGGGGCTGGAGCATTTCGATAAAGTGATCGATATCGACCAAAGCCCAATTG
GTCGTACTCCACGTTCTAACCCGGCGACCTATACCGGCGTGTTTACACCTGTGCGCGAACTGTTTGCGGGCGTACCGGAA
TCCCGTGCGCGTGGTTATACGCCAGGACGTTTCAGCTTTAACGTCCGTGGCGGGCGCTGCGAAGCCTGTCAGGGCGACGG
TGTGATCAAAGTGGAGATGCACTTCCTGCCGGATATCTACGTGCCGTGCGATCAGTGCAAAGGTAAACGCTATAACCGTG
AAACGCTGGAAATTAAGTACAAAGGCAAAACCATCCACGAAGTGCTGGATATGACCATCGAAGAGGCGCGTGAGTTCTTT
GATGCGGTGCCAGCTCTGGCGCGTAAGCTGCAAACGTTGATGGACGTTGGTCTGACGTACATTCGCCTGGGGCAGTCCGC
AACCACACTTTCTGGTGGTGAAGCCCAGCGCGTGAAGCTGGCGCGTGAGCTGTCAAAACGCGGCACCGGGCAGACGCTGT
ATATTCTCGACGAGCCGACCACCGGTCTGCACTTCGCCGATATTCAGCAACTCCTCGACGTGCTGCATAAACTGCGCGAT
CAGGGCAATACCATTGTGGTGATTGAGCACAATCTCGACGTGATCAAAACCGCTGACTGGATTGTCGACCTGGGACCAGA
AGGCGGCAGTGGCGGCGGCGAAATCCTCGTCTCCGGTACGCCAGAAACCGTCGCGGAGTGCGAAGCTTCGCATACGGCAC
GCTTCCTCAAGCCGATGCTGTAA


Secondary structure


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



3D structure


Source ID Structure
  AlphaFold DB Q3YUS6

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

57.37

100

0.576

  uvrA Streptococcus pneumoniae TIGR4

57.37

100

0.576

  uvrA Streptococcus pneumoniae D39

57.37

100

0.576