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  • 1.
    Salva Serra, Francisco
    et al.
    University of Gothenburg, Sweden; Sahlgrenska University Hospital,, Sweden; University of the Balearic Islands, Spain.
    Jaén-Luchoro, Daniel
    University of Gothenburg, Sweden; Sahlgrenska University Hospital, Sweden.
    Marathe, Nachiket P.
    IMR Institute of Marine Research, Norway.
    Adlerberth, Ingegerd
    University of Gothenburg, Sweden; Sahlgrenska University Hospital, Sweden.
    Moore, Edward R. B.
    University of Gothenburg, Sweden; Sahlgrenska University Hospital, Sweden.
    Karlsson, Roger
    University of Gothenburg, Sweden; Sahlgrenska University Hospital, Sweden; Nanixis Consulting, Sweden.
    Responses of carbapenemase-producing and non-producing carbapenem-resistant Pseudomonas aeruginosa strains to meropenem revealed by quantitative tandem mass spectrometry proteomics2023In: Frontiers in Microbiology, E-ISSN 1664-302X, Vol. 13Article in journal (Refereed)
    Abstract [en]

    Pseudomonas aeruginosa is an opportunistic pathogen with increasing incidence of multidrug-resistant strains, including resistance to last-resort antibiotics, such as carbapenems. Resistances are often due to complex interplays of natural and acquired resistance mechanisms that are enhanced by its large regulatory network. This study describes the proteomic responses of two carbapenem-resistant P. aeruginosa strains of high-risk clones ST235 and ST395 to subminimal inhibitory concentrations (sub-MICs) of meropenem by identifying differentially regulated proteins and pathways. Strain CCUG 51971 carries a VIM-4 metallo-β-lactamase or ‘classical’ carbapenemase; strain CCUG 70744 carries no known acquired carbapenem-resistance genes and exhibits ‘non-classical’ carbapenem-resistance. Strains were cultivated with different sub-MICs of meropenem and analyzed, using quantitative shotgun proteomics based on tandem mass tag (TMT) isobaric labeling, nano-liquid chromatography tandem-mass spectrometry and complete genome sequences. Exposure of strains to sub-MICs of meropenem resulted in hundreds of differentially regulated proteins, including β-lactamases, proteins associated with transport, peptidoglycan metabolism, cell wall organization, and regulatory proteins. Strain CCUG 51971 showed upregulation of intrinsic β-lactamases and VIM-4 carbapenemase, while CCUG 70744 exhibited a combination of upregulated intrinsic β-lactamases, efflux pumps, penicillin-binding proteins and downregulation of porins. All components of the H1 type VI secretion system were upregulated in strain CCUG 51971. Multiple metabolic pathways were affected in both strains. Sub-MICs of meropenem cause marked changes in the proteomes of carbapenem-resistant strains of P. aeruginosa exhibiting different resistance mechanisms, involving a wide range of proteins, many uncharacterized, which might play a role in the susceptibility of P. aeruginosa to meropenem.

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  • 2.
    Salva Serra, Francisco
    et al.
    University of the Balearic Islands, Spain; University of Gothenburg, Sweden.
    Pérez-Pantoja, Danilo
    Universidad Tecnológica Metropolitana, Chile.
    Donoso, Raúl A.
    Universidad Tecnológica Metropolitana, Chile; Center of Applied Ecology and Sustainability, Chile.
    Jaén-Luchoro, Daniel
    University of the Balearic Islands, Spain; University of Gothenburg, Sweden.
    Fernández-Juárez, Víctor
    University of Copenhagen, Denmark.
    Engström-Jakobsson, Hedvig
    University of Gothenburg, Sweden.
    Moore, Edward R. B.
    University of Gothenburg, Sweden.
    Lalucat, Jorge
    University of the Balearic Islands, Spain.
    Bennasar-Figueras, Antoni
    University of the Balearic Islands, Spain.
    Comparative genomics of Stutzerimonas balearica (Pseudomonas balearica): diversity, habitats, and biodegradation of aromatic compounds2023In: Frontiers in Microbiology, E-ISSN 1664-302X, Vol. 14, article id 1159176Article in journal (Refereed)
    Abstract [en]

    Stutzerimonas balearica (Pseudomonas balearica) has been found principally in oil-polluted environments. The capability of S. balearica to thrive from the degradation of pollutant compounds makes it a species of interest for potential bioremediation applications. However, little has been reported about the diversity of S. balearica. In this study, genome sequences of S. balearica strains from different origins were analyzed, revealing that it is a diverse species with an open pan-genome that will continue revealing new genes and functionalities as the genomes of more strains are sequenced. The nucleotide signatures and intra- and inter-species variation of the 16S rRNA genes of S. balearica were reevaluated. A strategy of screening 16S rRNA gene sequences in public databases enabled the detection of 158 additional strains, of which only 23% were described as S. balearica. The species was detected from a wide range of environments, although mostly from aquatic and polluted environments, predominantly related to petroleum oil. Genomic and phenotypic analyses confirmed that S. balearica possesses varied inherent capabilities for aromatic compounds degradation. This study increases the knowledge of the biology and diversity of S. balearica and will serve as a basis for future work with the species.

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  • 3.
    Salvà Serra, Francisco
    et al.
    RISE Research Institutes of Sweden, Materials and Production, Product Realisation Methodology.
    Connolly, Gwendolyn
    Moore, Edward R.B.
    Gonzales-Siles, Lucia
    Detection of “Xisco” gene for identification of Streptococcus pneumoniae isolates2018In: Diagnostic microbiology and infectious disease, ISSN 0732-8893, E-ISSN 1879-0070, Vol. 90, no 4, p. 248-250Article in journal (Refereed)
    Abstract [en]

    We describe a PCR-assay differentiating Streptococcus pneumoniae from closely-related species of the Mitis group of the genus Streptococcus and identification of pneumococcus clinical isolates, based on the "Xisco" gene discriminatory marker. The complete "Xisco" gene sequence was observed in all S. pneumoniae genomes analyzed and absent in all non-pneumococcus genomes.

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