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Acinetobacter silvestris sp. nov. discovered in forest ecosystems in Czechia

Alexandr Nemec, Lenka Radolfová-Křížová, Martina Maixnerová, Violetta Shestivská, Petra Španělová, Paul G. Higgins

2022INTERNATIONAL JOURNAL OF SYSTEMATIC AND EVOLUTIONARY MICROBIOLOGY10 citationsDOIOpen Access PDF

Abstract

We investigated a taxonomically novel group of the genus Acinetobacter , which included five strains isolated from soil and water samples collected in preserved forest areas in Czechia between 2013 and 2021. The whole-genome sequences of the strains were 3.1–3.2 Mb in size, with G+C contents of 38.0–38.2 mol%. Core genome-based phylogenetic analysis showed that they formed a compact and deeply branched clade within the genus. The genomic average nucleotide identity based on blast /digital DNA–DNA hybridization values for the novel strains were 99.2–99.6 %/95.2–98.4 %, whereas those between the novel strains and the type strains of the known Acinetobacter species reached <78 %/<24 %. The results of the genus-wide analysis of whole-cell MALDI-TOF mass spectra supported the sharp distinctness of the group. The five strains were non-glucose acidifying, nonhaemolytic, nonproteolytic and growing at 28 °C, but not at 32 °C; they assimilated acetate, benzoate, ethanol, l -histidine, 4-hydroxybenzoate, dl -lactate and malonate but not 4-aminobutyrate, l -aspartate or 2,3-butanediol; this phenotype is unique among the known Acinetobacter species. We conclude that the five strains represent a novel environmental species, for which the name Acinetobacter silvestris sp. nov. is proposed, with the type strain ANC 4999 T (=CCM 9207 T =CCUG 75877 T =CNCTC 8124 T ).

Topics & Concepts

BiologyAcinetobacterPhylogenetic treeCladeGenomeMicrobiologyGenusStrain (injury)genomic DNAPhylogeneticsBotanyDNAGeneticsBacteriaGeneAnatomyGenomics and Phylogenetic StudiesAntibiotic Resistance in BacteriaEnvironmental DNA in Biodiversity Studies