Detailed information    

insolico Bioinformatically predicted

Overview


Name   priA   Type   Machinery gene
Locus tag   E0E15_RS06390 Genome accession   NZ_LR027870
Coordinates   1238350..1240758 (+) Length   802 a.a.
NCBI ID   WP_116100517.1    Uniprot ID   -
Organism   Staphylococcus aureus strain BPH2019 isolate BPH2019     
Function   homologous recombination (predicted from homology)   
Homologous recombination

Genomic Context


Location: 1233350..1245758
Locus tag Gene name Coordinates (strand) Size (bp) Protein ID Product Description
  E0E15_RS06365 - 1233458..1233859 (+) 402 WP_000354184.1 VOC family protein -
  E0E15_RS06370 - 1234122..1235819 (-) 1698 WP_000312763.1 Rqc2 family fibronectin-binding protein -
  E0E15_RS06375 gmk 1236094..1236717 (+) 624 WP_000368227.1 guanylate kinase -
  E0E15_RS06380 rpoZ 1236717..1236935 (+) 219 WP_000933956.1 DNA-directed RNA polymerase subunit omega -
  E0E15_RS06385 coaBC 1237151..1238350 (+) 1200 WP_000722165.1 bifunctional phosphopantothenoylcysteine decarboxylase/phosphopantothenate--cysteine ligase CoaBC -
  E0E15_RS06390 priA 1238350..1240758 (+) 2409 WP_116100517.1 primosomal protein N' Machinery gene
  E0E15_RS06395 - 1241117..1242289 (-) 1173 WP_130827163.1 IS256-like element IS256 family transposase -
  E0E15_RS06400 - 1242596..1243549 (+) 954 WP_000751704.1 hypothetical protein -
  E0E15_RS06405 - 1243712..1243915 (-) 204 WP_001198024.1 TM2 domain-containing protein -
  E0E15_RS06410 - 1244214..1244702 (+) 489 WP_000985293.1 peptide deformylase -
  E0E15_RS06415 fmt 1244695..1245630 (+) 936 WP_000161299.1 methionyl-tRNA formyltransferase -

Sequence


Protein


Download         Length: 802 a.a.        Molecular weight: 92541.49 Da        Isoelectric Point: 6.7845

>NTDB_id=993018 E0E15_RS06390 WP_116100517.1 1238350..1240758(+) (priA) [Staphylococcus aureus strain BPH2019 isolate BPH2019]
MIAKVIVDVASKSVDYKFDYIIPEQLESVIQPGVRVIVPFGPRTIQGYVMEVTAEPDAQLDVSKLKKIIEVKDIQPELTS
ELIALSEWMGSTHVIKRISMLEVMLPSAIKAKYKKAFKMKDDIELPSALLQKFDKHGYYYYKDAQKNNDIQLLMKLLKDD
IVEEKTILTQNITKKTKRAVRVIEGYHPDEVLAKLEKVIKQYDLYAYLSEEQHKTIFLTDIEDMGFSKSSLDGLIKKGYV
EKYDAVVERDPFKDRVFEQESKQQLTEDQYKAYEAIKAKIVSQEQETFLLHGVTGSGKTEVYLQTIEDVLSQGKQAMMLV
PEIALTPQMVLRFKRRFGDDVAVLHSGLSNGERYDEWQKIRDGRARVSVGARSSVFAPFKNLGLIIIDEEHESTYKQEDY
PRYHAREIAQWRSEYHHCPVILGSATPCLESYARAEKGVYRLLSLPNRVNQQALPEIDIVDMREELSEGNRSMFSKDLRE
AIQLRLDRQEQVVLFLNRRGYASFMLCRDCGYVPQCPNCDISLTYHKTTDLLKCHYCGYQETPPNQCPNCESEHIRQVGT
GTQKVEELLQQEFEDARIIRMDVDTTSKKGAHEKLLTEFEKGNGDILLGTQMIAKGLDYPNITLVGVLNADTMLNLPDFR
ASERTYQLLTQVAGRAGRHEKAGQVIIQTYNPDHYSILDVQKNDYLTFYRQEMEYRKLGKYPPYYYLINFTISHKEMKKV
MVASQHVHKILLQHLTEKALVLGPSPAALARINNEFRFQILVKYKSEPGLLQAIQFLDDYYHEKFIKEKLALKIDIDPQM
MM

Nucleotide


Download         Length: 2409 bp        

>NTDB_id=993018 E0E15_RS06390 WP_116100517.1 1238350..1240758(+) (priA) [Staphylococcus aureus strain BPH2019 isolate BPH2019]
ATGATAGCGAAAGTCATAGTCGATGTCGCGTCGAAGAGCGTTGACTATAAATTTGATTATATAATTCCCGAACAACTCGA
ATCTGTCATCCAACCTGGTGTGCGTGTAATTGTACCTTTTGGACCAAGAACGATTCAAGGTTATGTAATGGAAGTAACAG
CAGAACCTGATGCACAACTTGACGTTTCGAAGTTAAAAAAAATCATAGAAGTGAAAGATATACAACCAGAATTAACATCA
GAATTAATAGCTTTAAGTGAGTGGATGGGTTCAACTCATGTCATTAAACGTATTTCTATGCTAGAAGTGATGCTTCCGAG
TGCTATTAAAGCGAAGTATAAAAAAGCATTTAAGATGAAAGATGACATAGAGCTACCTTCAGCTTTATTACAAAAATTTG
ATAAGCATGGTTACTATTATTATAAAGATGCGCAAAAAAATAATGATATTCAATTGCTTATGAAGTTGTTAAAAGATGAT
ATCGTTGAAGAAAAAACGATTCTCACACAAAATATAACTAAAAAAACCAAGCGTGCTGTTCGTGTCATTGAAGGGTATCA
TCCTGATGAAGTATTAGCTAAGTTGGAGAAAGTTATTAAACAATACGATTTGTATGCTTACTTGTCTGAAGAACAACATA
AAACAATATTTTTAACTGATATTGAGGATATGGGCTTTTCAAAATCCAGTTTAGATGGACTTATCAAAAAAGGTTATGTT
GAAAAATATGACGCGGTTGTTGAAAGAGACCCATTTAAAGATCGTGTTTTCGAACAAGAATCAAAACAGCAATTAACAGA
AGACCAATATAAAGCATATGAAGCGATTAAAGCTAAAATTGTAAGCCAAGAGCAAGAAACATTTTTACTTCATGGTGTGA
CGGGATCAGGTAAAACAGAAGTATATTTACAAACGATAGAAGATGTTTTAAGCCAAGGAAAACAGGCGATGATGTTAGTT
CCTGAAATCGCTCTAACACCGCAAATGGTTTTACGCTTCAAACGTCGATTTGGTGATGACGTTGCTGTATTACATTCTGG
CTTATCTAATGGGGAACGTTATGATGAATGGCAAAAAATTAGGGATGGTCGTGCGAGAGTAAGTGTTGGTGCAAGGTCAA
GTGTGTTCGCACCTTTCAAAAATTTAGGGTTAATCATCATTGATGAAGAACATGAATCTACATATAAACAAGAAGATTAT
CCGAGATATCACGCTAGAGAAATTGCCCAATGGCGAAGTGAATATCATCACTGTCCAGTCATTTTAGGAAGTGCAACACC
ATGTCTTGAAAGTTATGCACGAGCTGAAAAAGGCGTTTATCGTTTGCTATCATTACCAAACAGAGTGAACCAACAAGCTT
TACCTGAAATTGATATAGTAGACATGCGTGAAGAATTGAGTGAAGGTAATCGGTCAATGTTTTCAAAAGATTTACGTGAA
GCCATACAATTAAGATTAGATCGACAGGAACAAGTTGTTTTATTTTTAAATCGACGTGGTTATGCATCGTTTATGTTATG
TCGGGATTGTGGATATGTACCGCAATGTCCAAACTGTGATATTTCATTAACGTATCATAAAACGACAGACTTATTAAAAT
GTCACTATTGTGGTTACCAAGAGACGCCACCGAATCAATGTCCAAATTGTGAGAGTGAACACATTCGACAAGTAGGTACT
GGTACTCAGAAAGTTGAAGAACTATTGCAACAAGAATTTGAAGATGCGCGCATAATTAGGATGGATGTAGATACAACCTC
AAAGAAAGGTGCACATGAAAAGTTATTGACTGAATTCGAAAAAGGTAACGGTGACATTTTACTAGGTACTCAGATGATTG
CGAAAGGATTAGATTATCCAAATATTACTTTAGTTGGTGTGCTGAATGCAGATACAATGTTAAATTTACCTGATTTTCGG
GCGAGCGAACGTACTTATCAACTATTAACGCAAGTGGCTGGTAGAGCTGGTCGTCATGAAAAGGCAGGTCAAGTCATCAT
TCAAACGTATAATCCAGATCATTATTCAATATTGGATGTTCAAAAAAATGATTATTTAACATTTTATCGTCAGGAAATGG
AATATCGTAAATTAGGAAAGTATCCACCGTATTATTATTTGATTAATTTCACAATCTCACATAAAGAAATGAAGAAGGTT
ATGGTAGCATCGCAGCATGTTCATAAAATTTTATTACAGCATTTAACAGAAAAAGCGCTTGTACTAGGTCCATCTCCGGC
AGCACTTGCGAGAATCAACAATGAATTTAGATTCCAAATTTTAGTGAAATATAAAAGTGAACCTGGATTATTACAAGCCA
TTCAGTTTTTAGATGACTATTACCATGAAAAATTTATAAAAGAAAAATTAGCATTGAAGATTGATATTGATCCACAGATG
ATGATGTAA


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
  priA Bacillus subtilis subsp. subtilis str. 168

50.68

100

0.511


Multiple sequence alignment