Detailed information    

insolico Bioinformatically predicted

Overview


Name   uvrA   Type   Machinery gene
Locus tag   KRO88_RS18275 Genome accession   NZ_CP076739
Coordinates   3777583..3780417 (+) Length   944 a.a.
NCBI ID   WP_000083355.1    Uniprot ID   A0A0D8FGA4
Organism   Acinetobacter baumannii strain X4-584     
Function   homologous recombination (predicted from homology)   
Homologous recombination

Genomic Context


Location: 3772583..3785417
Locus tag Gene name Coordinates (strand) Size (bp) Protein ID Product Description
  KRO88_RS18245 (KRO88_18125) - 3772822..3773904 (-) 1083 WP_000680214.1 DUF475 domain-containing protein -
  KRO88_RS18250 (KRO88_18130) tenA 3774167..3774841 (+) 675 WP_000899422.1 thiaminase II -
  KRO88_RS18255 (KRO88_18135) - 3774891..3775232 (-) 342 WP_000263332.1 GlpM family protein -
  KRO88_RS18260 (KRO88_18140) - 3775285..3775638 (-) 354 WP_000901440.1 DUF1304 domain-containing protein -
  KRO88_RS18265 (KRO88_18145) - 3775703..3776680 (-) 978 WP_001256576.1 zinc-binding dehydrogenase -
  KRO88_RS18270 (KRO88_18150) - 3776684..3777286 (-) 603 WP_000826323.1 TetR/AcrR family transcriptional regulator -
  KRO88_RS18275 (KRO88_18155) uvrA 3777583..3780417 (+) 2835 WP_000083355.1 excinuclease ABC subunit UvrA Machinery gene
  KRO88_RS18280 (KRO88_18160) - 3780452..3781078 (-) 627 Protein_3554 GGDEF domain-containing protein -
  KRO88_RS18285 (KRO88_18165) - 3781160..3781588 (+) 429 WP_000364662.1 transposase -
  KRO88_RS18290 (KRO88_18170) tnpB 3781585..3781920 (+) 336 WP_000618090.1 IS66 family insertion sequence element accessory protein TnpB -
  KRO88_RS18295 (KRO88_18175) - 3781995..3783641 (+) 1647 WP_001094416.1 IS66-like element ISAba17 family transposase -
  KRO88_RS18300 (KRO88_18180) - 3783672..3784760 (-) 1089 Protein_3558 GGDEF domain-containing protein -

Sequence


Protein


Download         Length: 944 a.a.        Molecular weight: 104386.69 Da        Isoelectric Point: 6.5117

>NTDB_id=504652 KRO88_RS18275 WP_000083355.1 3777583..3780417(+) (uvrA) [Acinetobacter baumannii strain X4-584]
MSQSHIRIRGARTHNLKNVSLDIPRDKFVVITGLSGSGKSSLAFDTLYAEGQRRYVESLSAYARQFLSQMEKPEVDSIEG
LSPAIAIEQKSTSHNPRSTVGTITEIYDYLRLLYARVGTPYCPEHDLPMVAQTVSEMVDAVKNLEEGTALMLLAPVVRER
KGEYSNLFEQLQGQGFVRARVDGEIIDIDTPPELDKKKKHTIEVVVDRFKVRDDLGNRIAESFETALRLGGDIAVLSWMN
GEHPDRVFSAKHSCPECDRAVAELEPRLFSFNNPFGACPVCDGLGTRSHFSPEKLIPNPELAISEGAIRGWDRQRPYYYS
MLQKVADHFGFQLDTPWNQLDKDTQKKFLQGTGKEKIDLSYIDERGRKHTRVQPFEGILPHLERRYRETESNYVRDDLAQ
YLSNAACDACGGSRLNEISRHVRVKDKTIADITRMSIGDAESYYQGINLEGAKGEIADKIFKEIRERLHFLVSVGLNYLS
LARSAETLSGGEAQRIRLASQIGAGLMGVMYVLDEPSIGLHQRDNDRLLQTLIRLRDLGNTVLVVEHDEDAIRAADHIID
IGPGAGVHGGVVIAEGTYDELAKHADSLTGQYLSGKLKIEVPKQRTQPPKPEEKIKLSGAAGHNLKNVDLTIPLGIMTCV
TGVSGSGKSTLINRTLLPLAATQLNGATTLTAEKFDSIDGLQHLDKVVDIDQSPIGRTPRSNPATYTGLFTPIRELFAQT
PEAKARGYSAGRFSFNVKGGRCEACEGDGMIKVAMHFLPDMYVPCDACHGKRYNRETLEVGYKGKNISDVLEMTVEDAAE
FFSAIPVIHRRLETLTQVGLGYIRLGQAATTLSGGEAQRVKLARELAKRDTGKTLYILDEPTTGLHFHDIAKLLDILHEL
RNKGNTIVVIEHNLDVIKTADWVVDLGPEGGSGGGMIIAEGTPEQVAEVEISHTGRFLKPMLKQ

Nucleotide


Download         Length: 2835 bp        

>NTDB_id=504652 KRO88_RS18275 WP_000083355.1 3777583..3780417(+) (uvrA) [Acinetobacter baumannii strain X4-584]
ATGAGCCAAAGTCATATCCGTATTCGAGGCGCACGCACCCATAACTTAAAAAATGTGTCACTCGATATTCCACGCGACAA
ATTTGTGGTAATTACGGGGCTATCAGGTTCAGGAAAATCTTCTCTTGCCTTTGATACCTTGTATGCCGAAGGGCAGCGCC
GTTATGTCGAATCACTTTCGGCATATGCCCGCCAGTTCTTATCGCAAATGGAAAAACCTGAAGTTGACTCGATTGAAGGT
TTATCACCAGCGATTGCCATTGAGCAAAAGTCTACTAGCCATAACCCACGTTCAACGGTTGGTACGATTACCGAAATTTA
CGACTATTTGCGTCTGCTTTATGCACGTGTCGGTACGCCTTATTGCCCTGAACACGACTTACCTATGGTTGCGCAAACTG
TTTCTGAAATGGTCGATGCGGTAAAGAACCTTGAGGAAGGCACTGCACTCATGTTGCTTGCCCCTGTTGTTCGTGAGCGT
AAAGGTGAATACAGCAACTTGTTCGAACAACTACAAGGTCAAGGTTTTGTTCGTGCGCGTGTTGATGGCGAAATCATTGA
TATTGATACACCACCAGAACTCGACAAAAAGAAAAAACATACCATTGAAGTCGTTGTTGACCGCTTTAAAGTACGTGATG
ACTTAGGCAACCGTATTGCTGAATCATTTGAAACTGCACTGCGTTTAGGTGGTGATATTGCCGTTTTATCATGGATGAAT
GGCGAACACCCAGATCGCGTTTTTTCTGCAAAACACTCATGCCCTGAATGTGATCGCGCAGTCGCAGAGCTTGAGCCACG
TTTATTTTCATTTAACAACCCGTTCGGTGCGTGCCCTGTCTGTGATGGCTTAGGTACACGTAGCCATTTTAGCCCTGAAA
AACTCATTCCTAATCCTGAGTTGGCAATTAGTGAAGGTGCTATTCGTGGTTGGGATCGTCAACGTCCTTATTACTATTCA
ATGCTGCAAAAAGTTGCCGACCATTTCGGTTTTCAACTTGATACACCTTGGAATCAGTTAGATAAAGACACGCAAAAGAA
ATTCTTACAAGGTACTGGCAAAGAAAAAATCGATTTAAGTTATATCGATGAACGCGGCCGTAAACATACTCGCGTACAAC
CGTTTGAGGGAATCTTGCCTCACCTTGAGCGCCGTTATCGTGAAACTGAAAGTAACTATGTACGAGACGATTTAGCACAA
TATTTGTCTAATGCAGCTTGTGATGCATGTGGCGGTTCACGTCTCAATGAAATTTCACGTCATGTTCGTGTAAAAGACAA
AACTATTGCCGACATTACCCGCATGTCGATTGGAGATGCCGAAAGTTACTATCAAGGTATAAACCTTGAAGGTGCCAAAG
GTGAAATTGCAGATAAAATCTTTAAAGAGATTCGTGAGCGCTTACACTTCTTGGTGAGTGTTGGCCTGAACTATTTAAGT
CTGGCTCGTTCTGCCGAAACACTATCGGGTGGTGAAGCCCAGCGTATCCGTCTAGCTTCGCAAATTGGTGCAGGTTTGAT
GGGTGTCATGTATGTACTCGATGAACCATCAATTGGTCTCCATCAACGTGATAATGACCGTTTATTACAAACGCTAATTC
GCTTACGTGATTTGGGCAATACGGTATTAGTTGTTGAACATGATGAAGATGCAATCCGTGCAGCTGACCATATTATTGAT
ATCGGCCCTGGTGCTGGTGTGCATGGTGGCGTTGTCATTGCTGAAGGTACGTATGATGAGCTGGCTAAACATGCCGACTC
ACTCACAGGCCAATATCTTTCAGGCAAACTCAAAATTGAAGTGCCAAAACAGCGAACTCAACCACCTAAACCTGAAGAAA
AAATTAAACTTTCAGGTGCAGCCGGTCATAACTTAAAAAATGTCGATTTAACCATCCCACTTGGCATTATGACTTGTGTC
ACGGGTGTTTCAGGTTCAGGTAAATCAACACTGATTAACCGTACGTTACTTCCACTGGCTGCAACACAGCTCAACGGTGC
AACGACTTTAACCGCTGAAAAATTTGATTCAATTGATGGTCTACAACATCTGGATAAAGTCGTTGATATTGACCAAAGCC
CAATTGGCCGTACACCGCGCTCTAATCCAGCGACTTATACGGGTCTATTTACGCCAATTCGTGAGTTATTTGCTCAAACA
CCAGAAGCGAAAGCTCGTGGTTATAGTGCGGGTCGCTTCTCGTTTAACGTAAAAGGCGGACGCTGCGAAGCGTGTGAAGG
CGACGGTATGATTAAAGTCGCAATGCACTTCTTACCAGACATGTATGTACCTTGCGATGCTTGTCATGGTAAGCGCTATA
ATCGTGAAACACTTGAAGTCGGTTATAAAGGCAAAAACATTTCTGACGTTTTAGAAATGACGGTTGAAGATGCTGCTGAG
TTCTTTAGTGCTATTCCAGTTATTCACCGTCGTTTAGAAACCTTAACTCAGGTAGGTCTAGGCTATATTCGTTTAGGTCA
GGCGGCTACTACTTTATCTGGTGGTGAAGCTCAGCGTGTCAAACTGGCTCGTGAGTTAGCGAAACGTGATACGGGTAAAA
CGCTTTATATCTTGGATGAACCAACAACAGGTCTGCATTTCCATGATATTGCCAAGTTACTCGATATTTTGCATGAGCTA
CGCAACAAGGGTAATACCATTGTGGTAATTGAACATAACCTTGATGTCATTAAAACAGCAGACTGGGTGGTCGACTTAGG
CCCAGAAGGTGGTTCGGGCGGTGGTATGATCATTGCCGAAGGTACACCTGAACAAGTAGCCGAGGTCGAGATTTCCCATA
CTGGCCGCTTCTTGAAACCGATGTTAAAACAATAA


Secondary structure


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



3D structure


Source ID Structure
  AlphaFold DB A0A0D8FGA4

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

56.25

100

0.563

  uvrA Streptococcus pneumoniae TIGR4

56.25

100

0.563

  uvrA Streptococcus pneumoniae D39

56.25

100

0.563