Proposal for sp. nov. to accommodate organisms of human clinical origin previously classified as genomic species 16.

In 1989, Bouvet and Jeanjean delineated five proteolytic genomic species (GS) of , each with two to four human isolates. Three were later validly named, whereas the remaining two (GS15 and GS16) have been awaiting nomenclatural clarification. Here we present the results of the genus-wide taxonomic study of 13 human strains classified as GS16 (=10) or GS15 (=3).

Delineation of a novel environmental phylogroup of the genus Acinetobacter encompassing Acinetobacter terrae sp. nov., Acinetobacter terrestris sp. nov. and three other tentative species.

This study aimed to define the taxonomic position and structure of a novel, taxonomically unique group of 26 Acinetobacter strains, provisionally designated Taxon 24 (T24). The strains were recovered from soil and freshwater ecosystems (n = 21) or animals (n = 5) in Czechia, Scotland, Germany, the Netherlands and Turkey between 1993 and 2015. They were non-glucose-acidifying, nonhemolytic, nonproteolytic, growing at 32 °C and on acetate and ethanol as single carbon sources, but not on 4-hydroxybenzoate and mostly not at 37 °C.

Revising the taxonomy of the Acinetobacter lwoffii group: The description of Acinetobacter pseudolwoffii sp. nov. and emended description of Acinetobacter lwoffii.

In 1986, Bouvet and Grimont delineated two related taxa of the genus Acinetobacter termed genospecies (GS) 8 and 9. They proposed the name Acinetobacter lwoffii for GS8, which included the supposed type strain (CIP 64.10).

Limitations of routine MALDI-TOF mass spectrometric identification of Acinetobacter species and remedial actions.

A set of 204 taxonomically well-defined strains belonging to 17 Acinetobacter spp., including 11 recently described species (A. albensis, A.

Acinetobacter wuhouensis sp. nov., isolated from hospital sewage.

We recovered eight strains of the genus Acinetobacter from hospital sewage at West China Hospital in Chengdu, China. Based on the comparative analysis of the rpoB sequence, these strains formed a strongly supported and internally coherent cluster (intra-cluster identity of ≥98.0 %), which was clearly separated from all known Acinetobacter species (≤91.

Acinetobacter guangdongensis Feng et al. 2014 is a junior heterotypic synonym of Acinetobacter indicus Malhotra et al. 2012.

A draft whole-genome sequence was obtained for Acinetobacter guangdongensis strain KCTC 42012 and compared against those of the type strains of all Acinetobacter species with validly published names. High similarity was found to Acinetobacter indicus CCM 7832 (average nucleotide identity based on blast and digital DNA-DNA hybridization values of 96.3 and 70.

Acinetobacter colistiniresistens sp. nov. (formerly genomic species 13 sensu Bouvet and Jeanjean and genomic species 14 sensu Tjernberg and Ursing), isolated from human infections and characterized by intrinsic resistance to polymyxins.

Strains of the genusAcinetobacter, classified as genomic species 13BJ/14TU have been previously associated with human infections and resistance to colistin. To clarify the taxonomy of this provisional group, we investigated 24 strains that have been isolated from humans since the 1960s in 10 countries. The genus-wide analysis of the rpoB and gyrB sequences of all strains and whole-genome sequences of strains representing different rpoB/gyrB genotypes showed that the 24 strains formed a distinct monophyletic group within the so-called haemolytic clade of the genus Acinetobacter.

Acinetobactercelticus sp. nov., a psychrotolerant species widespread in natural soil and water ecosystems.

A novel, taxonomically unique group of six strains of the genus Acinetobacter was discovered during an exploratory study on strains culturable from soil and water natural ecosystems in the Bohemian part of the Czech Republic. Based on the comparative analyses of the 16S rRNA gene, gyrB and rpoB sequences, these strains formed strongly supported and internally coherent clusters (intracluster identities of ≥99.9, ≥96.

Acinetobacter pakistanensis Abbas et al. 2014 is a later heterotypic synonym of Acinetobacter bohemicus Krizova et al. 2014.

Two novel species names, Acinetobacter bohemicus and Acinetobacter pakistanensis, appeared on validation list no. 161 (January 2015) under priority numbers 26 and 28, respectively. As the published data suggested a high similarity of the organisms associated with these names, we aimed to define their taxonomic relationship.

Acinetobacter pragensis sp. nov., found in soil and water ecosystems.

This study aimed to define the taxonomic status of a novel, phenetically distinct group of seven strains belonging to the genus Acinetobacter, which were isolated from environmental soil and water samples collected in Central Bohemia, Czech Republic. Comparative sequence analyses of the 16S rRNA, gyrB and rpoB genes showed that all these strains formed respective tight clusters (intracluster sequence similarities of ≥99.8, ≥98.

Taxonomy of haemolytic and/or proteolytic strains of the genus Acinetobacter with the proposal of Acinetobacter courvalinii sp. nov. (genomic species 14 sensu Bouvet & Jeanjean), Acinetobacter dispersus sp. nov. (genomic species 17), Acinetobacter modestus sp. nov., Acinetobacter proteolyticus sp. nov. and Acinetobacter vivianii sp. nov.

We aimed to define the taxonomic status of 40 haemolytic and/or proteolytic strains of the genus Acinetobacter which were previously classified into five putative species termed as genomic species 14BJ (n=9), genomic species 17 (n=9), taxon 18 (n=7), taxon 19 (n=6) and taxon 20 (n=9). The strains were recovered mostly from human clinical specimens or soil and water ecosystems and were highly diverse in geographical origin and time of isolation. Comparative analysis of the rpoB and gyrB gene sequences of all strains, and the whole-genome sequences of selected strains, showed that these putative species formed five respective, well-supported clusters within a distinct clade of the genus Acinetobacter which typically, although not exclusively, encompasses strains with strong haemolytic activity.