Browsing by Author "Svensson-Stadler, Liselott"
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- Acinetobacter portensis sp. nov. and Acinetobacter guerrae sp. nov., isolated from raw meatPublication . Carvalheira, Ana; Gonzales Siles, Lucia; Salvà-Serra, Francisco; Lindgren, Åsa; Svensson-Stadler, Liselott; Thorell, Kaisa; Moore, Edward R. B.; Silva, Joana; Teixeira, PaulaThe taxonomic status of six strains of Acinetobacter obtained from meat samples, collected from supermarkets in Porto, Portugal, was investigated using polyphasic analysis. Partial rpoB sequence similarities lower than 95 % to other Acinetobacter species with validly published names led to the hypothesis that these strains represented novel species. This was confirmed based on comparative multilocus sequence analysis, which included the gyrB, recA and 16S rRNA genes, revealing that these strains represented two coherent lineages that were distinct from each other and from all known species. The names Acinetobacter portensis sp. nov. (comprising four strains) and Acinetobacter guerrae sp. nov. (comprising two strains) are proposed for these novel species. The species status of these two groups was confirmed by low (below 95 %) whole-genome sequence average nucleotide identity values and low (below 70 %) digital DNA–DNA hybridization similarities between the whole-genome sequences of the proposed type strains of each novel species and the representatives of the known Acinetobacter species. Phylogenomic treeing from core genome analysis supported these results. The coherence of each new species lineage was supported by matrix-assisted laser desorption/ionization time-of-flight mass spectrometry differentiation of the species at the protein level, by cellular fatty acid profiles, and by unique and differential combinations of metabolic and physiological properties shared by each novel species. The type strain of A. portensis sp. nov. is AC 877T (=CCUG 68672T=CCM 8789T) and the type strain of A. guerrae sp. nov. is AC 1271T (=CCUG 68674T=CCM 8791T).
- Diversity and antibiotic resistance of Acinetobacter spp. in water from the source to the tapPublication . Narciso-da-Rocha, Carlos; Vaz-Moreira, Ivone; Svensson-Stadler, Liselott; Moore, Edward R. B.; Manaia, Célia M.Acinetobacterspp. are ubiquitous bacteria in the environment.Acinetobacterspp. isolated from a municipal drinking water treatment plant and from connected tap waterwere identified to the species level on the basis ofrpoB genepartial sequence analysis. Intraspecies variation wasassessed based on the analysis of partial sequences of house-keeping genes (rpoB,gyrB, andrecA). Antibiotic resistancewas characterized using the disk diffusion method and iso-lates were classified as wild or non-wild type (non-WT),according to the observed phenotype. The strains ofAcinetobacterspp. were related to 11 different validly pub-lished species, although three groups of isolates, presentinglowrpoB sequence similarities with previously describedspecies, may represent new species. Most of the isolateswere related to the speciesA. johnsoniiandA. lwoffii.These two groups, as well as others related to the speciesA. parvusandA. tjernbergiae, were detected in the watertreatment plant and in tap water. Other strains, related to thespeciesA. pittiiandA. beijerinckii, were isolated only fromtap water. Most of the isolates (80 %) demonstrated wild type (WT) to all of the 12 antibiotics tested. Non-WT fortetracycline, meropenem, and ceftazidime, among others,were observed in water treatment plant or in tap watersamples. Although, in general, this study suggests a lowprevalence of acquired antibiotic resistance in waterAcinetobacterspp., the potential of some species to acquireand disseminate resistance via drinking water is suggested.