Detailed information    

insolico Bioinformatically predicted

Overview


Name   uvrA   Type   Machinery gene
Locus tag   FIU18_RS23250 Genome accession   NZ_CP041008
Coordinates   4956821..4959658 (+) Length   945 a.a.
NCBI ID   WP_003093663.1    Uniprot ID   A0A0H2ZF88
Organism   Pseudomonas aeruginosa strain FDAARGOS_767     
Function   homologous recombination (predicted from homology)   
Homologous recombination

Genomic Context


Location: 4951821..4964658
Locus tag Gene name Coordinates (strand) Size (bp) Protein ID Product Description
  FIU18_RS23225 (FIU18_23225) pchC 4952129..4952884 (+) 756 WP_003114687.1 pyochelin biosynthesis editing thioesterase PchC -
  FIU18_RS23230 (FIU18_23230) pchB 4952884..4953189 (+) 306 WP_003106950.1 isochorismate lyase PchB -
  FIU18_RS23235 (FIU18_23235) pchA 4953186..4954616 (+) 1431 WP_003114686.1 isochorismate synthase PchA -
  FIU18_RS23240 (FIU18_23240) ssb 4954705..4955202 (-) 498 WP_003114685.1 single-stranded DNA-binding protein Machinery gene
  FIU18_RS23245 (FIU18_23245) - 4955219..4956607 (-) 1389 WP_003103910.1 MFS transporter -
  FIU18_RS23250 (FIU18_23250) uvrA 4956821..4959658 (+) 2838 WP_003093663.1 excinuclease ABC subunit UvrA Machinery gene
  FIU18_RS23255 (FIU18_23255) bfr 4959730..4960194 (-) 465 WP_003093668.1 bacterioferritin -
  FIU18_RS23260 (FIU18_23260) katA 4960325..4961773 (-) 1449 WP_003103909.1 catalase KatA -
  FIU18_RS23265 (FIU18_23265) rplQ 4962055..4962444 (-) 390 WP_003093672.1 50S ribosomal protein L17 -
  FIU18_RS23270 (FIU18_23270) - 4962488..4963489 (-) 1002 WP_003093675.1 DNA-directed RNA polymerase subunit alpha -
  FIU18_RS23275 (FIU18_23275) rpsD 4963512..4964132 (-) 621 WP_003093678.1 30S ribosomal protein S4 -
  FIU18_RS23280 (FIU18_23280) rpsK 4964149..4964538 (-) 390 WP_003093689.1 30S ribosomal protein S11 -

Sequence


Protein


Download         Length: 945 a.a.        Molecular weight: 104489.13 Da        Isoelectric Point: 6.6074

>NTDB_id=324203 FIU18_RS23250 WP_003093663.1 4956821..4959658(+) (uvrA) [Pseudomonas aeruginosa strain FDAARGOS_767]
MDKILIRGARTHNLKNVDLTLPRDKLIVITGLSGSGKSSLAFDTLYAEGQRRYVESLSAYARQFLSMMEKPDVDTIEGLS
PAISIEQKSTSHNPRSTVGTITEIYDYLRLLYARVGTPRCPDHDIPLEAQTVSQMVDQVLALPEGSKLMLLAPVIRERKG
EHLAVFDEMRAQGFVRARVDGKLYELDEVPKLDKQKKHSIDVVVDRFKVRADLQQRLAESFETALSLADGIALVAPMDED
EDVEEIIFSARFACPVCGHSISELEPKLFSFNNPAGACPTCDGLGVKQFFDARRVVNGELTLAEGAIRGWDRRNVYYFQM
LGSLAQHYGFSLEEPFDELGAEHQKVVLYGSGRENVDFRYLNDRGDIVKRSHPFEGILPNLERRYRETESATVREELAKF
LSTQPCPDCHGTRLRREARHVWVGDRTLPAITAMPVGEACEYAAGLSLTGRRGEIAAKILKEIRDRLQFLVNVGLDYLTL
DRSADTLSGGEAQRIRLASQIGAGLVGVMYILDEPSIGLHQRDNERLLGTLTHLRNLGNTVIVVEHDEDAIRLADYVVDI
GPGAGVHGGQVVAEGTPDQVMNHPDSLTGKYLSGRKKIAVPAKRTPRDKKKLLKLKGARGNNLQNVNLEIPVGLFTCITG
VSGSGKSTLINNTLFPITATALNGATTLEVAPYDSFDGLQHLDKVVDIDQSPIGRTPRSNPATYTGLFTPIRELFSGVPE
ARSRGYGPGRFSFNVKGGRCEACQGDGVIKVEMHFLPDIYVPCDVCKGKRYNRETLEIRYKGKSIHEVLEMTIEEAREFF
DAVPALARKLQTLMDVGLSYIKLGQSATTLSGGEAQRVKLSRELSKRDTGKTLYILDEPTTGLHFADIQQLLDVLHRLRD
HGNTVVVIEHNLDVIKTADWLVDLGPEGGSKGGQIIANGTPEQVAEMPQSHTGHFLKPLLERDRA

Nucleotide


Download         Length: 2838 bp        

>NTDB_id=324203 FIU18_RS23250 WP_003093663.1 4956821..4959658(+) (uvrA) [Pseudomonas aeruginosa strain FDAARGOS_767]
GTGGATAAGATCCTGATTCGTGGGGCGCGTACCCACAACCTGAAGAACGTCGACCTCACACTGCCACGCGACAAACTGAT
CGTGATCACCGGTCTTTCCGGTTCCGGCAAGTCTTCCCTGGCTTTCGACACGCTCTATGCGGAAGGCCAGCGGCGCTACG
TGGAATCCCTCTCGGCCTACGCCCGGCAGTTCCTGTCGATGATGGAGAAGCCGGACGTGGACACCATCGAAGGGCTGTCG
CCGGCGATTTCCATCGAACAGAAGTCCACTTCCCACAACCCACGCTCCACCGTGGGTACGATCACCGAGATCTACGACTA
CCTGCGCCTGCTTTATGCCCGCGTCGGTACCCCGCGCTGCCCGGACCACGACATCCCGCTGGAGGCGCAGACCGTCAGCC
AGATGGTCGACCAGGTCCTGGCCCTGCCGGAAGGCAGCAAGCTGATGCTGCTGGCGCCGGTGATCCGCGAGCGCAAGGGC
GAGCACCTGGCGGTGTTCGACGAGATGCGCGCGCAGGGCTTCGTCCGCGCCCGGGTCGACGGCAAGCTCTACGAACTCGA
CGAAGTGCCGAAACTGGATAAGCAGAAGAAGCACAGCATCGATGTGGTGGTGGACCGCTTCAAGGTTCGCGCGGACCTCC
AGCAACGCCTGGCCGAGTCGTTCGAGACCGCCCTGTCCCTGGCCGACGGTATCGCCCTGGTAGCACCGATGGACGAGGAC
GAGGATGTCGAGGAGATCATCTTCTCGGCGCGCTTCGCCTGCCCGGTCTGCGGCCACTCTATCAGCGAGCTGGAACCCAA
GCTGTTCTCCTTCAACAACCCGGCCGGCGCCTGTCCGACCTGCGACGGCCTCGGCGTGAAGCAATTCTTCGACGCGCGCC
GGGTGGTCAACGGCGAGTTGACCCTGGCCGAGGGCGCGATCCGCGGCTGGGACCGGCGCAACGTCTATTACTTCCAGATG
CTCGGTTCGCTGGCCCAGCATTACGGCTTCAGCCTGGAAGAACCCTTCGACGAACTCGGCGCCGAGCACCAGAAGGTGGT
GCTCTACGGCTCCGGCCGGGAAAACGTCGACTTCCGCTATCTCAACGACCGCGGCGACATCGTCAAGCGTTCGCATCCCT
TCGAAGGCATCCTGCCGAACCTGGAGCGGCGCTACCGCGAGACCGAGTCGGCCACGGTCCGCGAGGAGCTGGCCAAGTTC
CTCAGCACCCAGCCCTGCCCGGATTGCCACGGTACCCGCCTGCGCCGCGAGGCGCGGCATGTGTGGGTCGGCGACCGGAC
GCTGCCGGCGATCACCGCGATGCCGGTCGGCGAAGCCTGCGAGTATGCCGCCGGACTCAGCCTGACCGGCCGCCGTGGCG
AGATCGCGGCGAAGATCCTCAAGGAAATCCGCGACCGCCTGCAATTCCTGGTCAACGTCGGCCTCGACTACCTGACCCTC
GACCGCAGCGCCGACACCCTGTCCGGCGGCGAAGCCCAGCGCATCCGCCTGGCCAGCCAGATCGGCGCCGGCCTGGTGGG
AGTGATGTACATCCTCGACGAACCCTCGATCGGCCTGCACCAACGCGACAACGAGCGCCTGCTCGGCACCCTCACCCACC
TGCGCAACCTCGGCAACACGGTGATCGTGGTCGAGCACGACGAGGACGCGATCCGACTCGCCGACTACGTCGTCGACATC
GGTCCGGGCGCCGGCGTGCACGGCGGCCAGGTAGTGGCGGAAGGTACGCCCGACCAGGTGATGAACCACCCCGACTCGCT
GACCGGCAAGTACCTTTCCGGGCGCAAGAAAATCGCGGTTCCGGCCAAGCGCACCCCGCGCGACAAGAAGAAGCTGCTGA
AGCTGAAAGGCGCCCGGGGCAACAACCTGCAGAACGTCAACCTGGAAATCCCGGTCGGCCTGTTCACCTGCATCACCGGG
GTCTCGGGCTCCGGCAAGTCGACGCTGATCAACAACACCCTGTTCCCGATCACCGCCACCGCGCTGAACGGCGCGACTAC
CCTGGAAGTGGCGCCGTATGACTCGTTCGACGGCCTGCAGCACCTGGACAAGGTGGTCGACATCGACCAGAGCCCGATCG
GTCGTACCCCGCGCTCCAACCCGGCGACCTATACCGGCCTGTTCACGCCGATCCGCGAACTGTTCTCCGGCGTGCCGGAG
GCCCGCTCGCGCGGCTACGGTCCCGGCCGCTTCTCGTTCAACGTCAAGGGCGGCCGTTGCGAGGCCTGCCAGGGCGACGG
CGTGATCAAGGTGGAGATGCACTTCCTGCCGGACATCTACGTTCCCTGCGATGTCTGCAAGGGCAAGCGCTACAACCGCG
AGACCCTGGAGATCCGCTACAAGGGCAAGAGCATCCACGAGGTGCTGGAGATGACCATCGAGGAAGCCCGCGAGTTCTTC
GACGCCGTCCCCGCCCTGGCGCGCAAGCTGCAGACGCTGATGGACGTCGGCCTGTCCTACATCAAGCTGGGCCAGAGCGC
GACCACCCTCTCGGGCGGCGAGGCGCAACGGGTCAAGCTGTCCCGCGAGCTGTCCAAGCGCGATACCGGCAAGACCCTGT
ACATCCTCGACGAACCGACCACCGGCCTGCATTTCGCCGACATCCAGCAACTGCTCGACGTGCTCCACCGCCTGCGCGAC
CACGGCAACACCGTGGTGGTGATCGAGCACAACCTGGACGTGATCAAGACCGCCGACTGGCTGGTCGACCTCGGCCCCGA
GGGCGGCTCCAAGGGTGGCCAGATCATCGCCAACGGTACGCCGGAGCAGGTGGCCGAGATGCCCCAGTCGCACACCGGCC
ACTTCCTCAAGCCGTTGCTGGAACGCGATCGCGCCTGA


Secondary structure


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



3D structure


Source ID Structure
  AlphaFold DB A0A0H2ZF88

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

57.233

100

0.574

  uvrA Streptococcus pneumoniae TIGR4

57.233

100

0.574

  uvrA Streptococcus pneumoniae D39

57.233

100

0.574