Browsing by Subject "proteome"

Sort by: Order: Results:

Now showing items 1-5 of 5
  • Skurnik, Mikael; Jaakkola, Salla; Mattinen, Laura; von Ossowski, Lotta; Nawaz, Ayesha; Pajunen, Maria; Happonen, Lotta J. (2021)
    Bacteriophages vB_YpeM_fEV-1 (fEV-1) and vB_YpeM_fD1 (fD1) were isolated from incoming sewage water samples in Turku, Finland, using Yersinia pestis strains EV76 and KIM D27 as enrichment hosts, respectively. Genomic analysis and transmission electron microscopy established that fEV-1 is a novel type of dwarf myovirus, while fD1 is a T4-like myovirus. The genome sizes are 38 and 167 kb, respectively. To date, the morphology and genome sequences of some dwarf myoviruses have been described; however, a proteome characterization such as the one presented here, has currently been lacking for this group of viruses. Notably, fEV-1 is the first dwarf myovirus described for Y. pestis. The host range of fEV-1 was restricted strictly to Y. pestis strains, while that of fD1 also included other members of Enterobacterales such as Escherichia coli and Yersinia pseudotuberculosis. In this study, we present the life cycles, genomes, and proteomes of two Yersinia myoviruses, fEV-1 and fD1.
  • Oduor, Joseph M. Ochieng; Kadija, Ermir; Nyachieo, Atunga; Mureithi, Marianne W.; Skurnik, Mikael (2020)
    Emergence of antibiotic-resistant bacteria is a serious threat to the public health. This is also true for Staphylococcus aureus and other staphylococci. Staphylococcus phages Stab20, Stab21, Stab22, and Stab23, were isolated in Albania. Based on genomic and phylogenetic analysis, they were classified to genus Kayvirus of the subfamily Twortvirinae. In this work, we describe the in-depth characterization of the phages that electron microscopy confirmed to be myoviruses. These phages showed tolerance to pH range of 5.4 to 9.4, to maximum UV radiation energy of 25 mu J/cm(2), to temperatures up to 45 degrees C, and to ethanol concentrations up to 25%, and complete resistance to chloroform. The adsorption rate constants of the phages ranged between 1.0 x 10(-9) mL/min and 4.7 x 10(-9) mL/min, and the burst size was from 42 to 130 plaque-forming units. The phages Stab20, 21, 22, and 23, originally isolated using Staphylococcus xylosus as a host, demonstrated varied host ranges among different Staphylococcus strains suggesting that they could be included in cocktail formulations for therapeutic or bio-control purpose. Phage particle proteomes, consisting on average of ca 60-70 gene products, revealed, in addition to straight-forward structural proteins, also the presence of enzymes such DNA polymerase, helicases, recombinases, exonucleases, and RNA ligase polymer. They are likely to be injected into the bacteria along with the genomic DNA to take over the host metabolism as soon as possible after infection.
  • Happonen, Lotta J.; Pajunen, Maria I.; Jun, Jin Woo; Skurnik, Mikael (2021)
    Yersinia enterocolitica is a food-borne Gram-negative pathogen responsible for several gastrointestinal disorders. Host-specific lytic bacteriophages have been increasingly used recently as an alternative or complementary treatment to combat bacterial infections, especially when antibiotics fail. Here, we describe the proteogenomic characterization and host receptor identification of the siphovirus vB_YenS_phi R2-01 (in short, phi R2-01) that infects strains of several Yersinia enterocolitica serotypes. The phi R2-01 genome contains 154 predicted genes, 117 of which encode products that are homologous to those of Escherichia bacteriophage T5. The phi R2-01 and T5 genomes are largely syntenic, with the major differences residing in areas encoding hypothetical phi R2-01 proteins. Label-free mass-spectrometry-based proteomics confirmed the expression of 90 of the phi R2-01 genes, with 88 of these being either phage particle structural or phage-particle-associated proteins. In vitro transposon-based host mutagenesis and phi R2-01 adsorption experiments identified the outer membrane vitamin B12 receptor BtuB as the host receptor. This study provides a proteogenomic characterization of a T5-type bacteriophage and identifies specific Y. enterocolitica strains sensitive to infection with possible future applications of phi R2-01 as a food biocontrol or phage therapy agent.
  • Lohmus, Andres; Varjosalo, Markku; Mäkinen, Kristiina (2016)
    The definition of the precise molecular composition of membranous replication compartments is a key to understanding the mechanisms of virus multiplication. Here, we set out to investigate the protein composition of the potyviral replication complexes. We purified the potyviral 6K2 protein-induced membranous structures from Potato virus A (PVA)-infected Nicotiana benthamiana plants. For this purpose, the 6K2 protein, which is the main inducer of potyviral membrane rearrangements, was expressed in fusion with an N-terminal Twin-Strep-tag and Cerulean fluorescent protein (SC6K) from the infectious PVA cDNA. A non-tagged Cerulean-6K2 (C6K) virus and the SC6K protein alone in the absence of infection were used as controls. A purification scheme exploiting discontinuous sucrose gradient centrifugation followed by Strep-tag-based affinity chromatography was developed. Both (+)- and (-)-strand PVA RNA and viral protein VPg were co-purified specifically with the affinity tagged PVA-SC6K. The purified samples, which contained individual vesicles and membrane clusters, were subjected to mass spectrometry analysis. Data analysis revealed that many of the detected viral and host proteins were either significantly enriched or fully specifically present in PVA-SC6K samples when compared with the controls. Eight of eleven potyviral proteins were identified with high confidence from the purified membrane structures formed during PVA infection. Ribosomal proteins were identified from the 6K2-induced membranes only in the presence of a replicating virus, reinforcing the tight coupling between replication and translation. A substantial number of proteins associating with chloroplasts and several host proteins previously linked with potyvirus replication complexes were co-purified with PVA-derived SC6K, supporting the conclusion that the host proteins identified in this study may have relevance in PVA replication.
  • Filik, Karolina; Szermer-Olearnik, Bozena; Wernecki, Maciej; Happonen, Lotta J.; Pajunen, Maria I.; Nawaz, Ayesha; Qasim, Muhammad Suleman; Jun, Jin Woo; Mattinen, Laura; Skurnik, Mikael; Brzozowska, Ewa (2020)
    We report here the complete genome sequence and characterization ofYersiniabacteriophage vB_YenP_phi 80-18. phi 80-18 was isolated in 1991 using aY. enterocoliticaserotype O:8 strain 8081 as a host from a sewage sample in Turku, Finland, and based on its morphological and genomic features is classified as a podovirus. The genome is 42 kb in size and has 325 bp direct terminal repeats characteristic for podoviruses. The genome contains 57 predicted genes, all encoded in the forward strand, of which 29 showed no similarity to any known genes. Phage particle proteome analysis identified altogether 24 phage particle-associated proteins (PPAPs) including those identified as structural proteins such as major capsid, scaffolding and tail component proteins. In addition, also the DNA helicase, DNA ligase, DNA polymerase, 5 '-exonuclease, and the lytic glycosylase proteins were identified as PPAPs, suggesting that they might be injected together with the phage genome into the host cell to facilitate the take-over of the host metabolism. The phage-encoded RNA-polymerase and DNA-primase were not among the PPAPs. Promoter search predicted the presence of four phage and eleven host RNA polymerase -specific promoters in the genome, suggesting that early transcription of the phage is host RNA-polymerase dependent and that the phage RNA polymerase takes over later. The phage tolerates pH values between 2 and 12, and is stable at 50 degrees C but is inactivated at 60 degrees C. It grows slowly with a 50 min latent period and has apparently a low burst size. Electron microscopy revealed that the phage has a head diameter of about 60 nm, and a short tail of 20 nm. Whole-genome phylogenetic analysis confirmed that phi 80-18 belongs to theAutographivirinaesubfamily of thePodoviridaefamily, that it is 93.2% identical toYersiniaphage fHe-Yen3-01. Host range analysis showed that phi 80-18 can infect in addition toY. enterocoliticaserotype O:8 strains also strains of serotypes O:4, O:4,32, O:20 and O:21, the latter ones representing similar toY. enterocoliticaserotype O:8, the American pathogenic biotype 1B strains. In conclusion, the phage phi 80-18 is a promising candidate for the biocontrol of the American biotype 1BY. enterocolitica.