ABSTRACT
The natural habitats and potential reservoirs of the nosocomial pathogen Acinetobacter baumannii are poorly defined. Here, we put forth and tested the hypothesis of avian reservoirs of A. baumannii. We screened tracheal and rectal swab samples from livestock (chicken, geese) and wild birds (white stork nestlings) and isolated A. baumannii from 3% of sampled chicken (n = 220), 8% of geese (n = 40) and 25% of white stork nestlings (n = 661). Virulence of selected avian A. baumannii isolates was comparable to that of clinical isolates in the Galleria mellonella infection model. Whole genome sequencing revealed the close relationship of an antibiotic-susceptible chicken isolate from Germany with a multidrug-resistant human clinical isolate from China and additional linkages between livestock isolates and human clinical isolates related to international clonal lineages. Moreover, we identified stork isolates related to human clinical isolates from the United States. Multilocus sequence typing disclosed further kinship between avian and human isolates. Avian isolates do not form a distinct clade within the phylogeny of A. baumannii, instead they diverge into different lineages. Further, we provide evidence that A. baumannii is constantly present in the habitats occupied by storks. Collectively, our study suggests A. baumannii could be a zoonotic organism that may disseminate into livestock.
Subject(s)
Acinetobacter Infections/microbiology , Acinetobacter baumannii/classification , Acinetobacter baumannii/genetics , Chickens/microbiology , Disease Reservoirs/microbiology , Geese/microbiology , A549 Cells , Acinetobacter baumannii/isolation & purification , Animals , Anti-Bacterial Agents , Base Sequence , Cell Line , China , Cross Infection/microbiology , Drug Resistance, Multiple, Bacterial/genetics , Genome, Bacterial/genetics , Germany , Hospitals , Humans , Multilocus Sequence Typing , Phylogeny , Poland , Sequence Analysis, DNA , United States , Whole Genome SequencingABSTRACT
The taxonomic position of five strains isolated from horse faeces, and which shared identical 16S rRNA gene sequences, were studied. Cells of all isolates are Gram-stain-negative, obligately aerobic and have a rod-shaped appearance. The strains show highest 16S rRNA gene sequence similarities to Acinetobacter lwoffii (98.3 %), Acinetobacter haemolyticus (98.0 %), Acienetobacter johnsonii (97.9 %) and Acinetobacter brisouii (97.9 %). Whole-genome sequencing of strain 114T and phylogeny reconstruction based on a core set of 1061 Acinetobacter genes indicated that A. bouvetii CIP 107468T was the closest relative among species of the genus Acinetobacter for which whole genome sequences are available. The genomic DNA G+C content of strain 114T is 34.9âmol%, which is lower than any other value reported for the genus Acinetobacter. The predominant polyamine is 1,3-diaminopropane, which is typical for the genus Acinetobacter. The most abundant fatty acids are C16 : 1ω7c and/or iso-C15 : 0 2-OH (36 %) and C16 : 0 (28 %). The proportion of C18 : 1ω9c (7 %) is distinctively low compared to most species of the genus. The major ubiquinone of strain 114T is Q-9. Microscopic studies revealed the presence of pili and the absence of flagella. The capability of all five strains to utilize l-arabinose and gentisate as well as their lack of growth at temperatures of 41 °C and above provide sufficient criteria to distinguish the isolates from all species of the genus Acinetobacter with validly published names. Based on these combined data, the five isolates represent a novel species of the genus Acinetobacter, for which the name Acinetobacter equi sp. nov. is proposed. The type strain is 114T ( = DSM 27228T = CCUG 65204T).
ABSTRACT
A Gram-stain-negative, rod-shaped, oxidase-positive, non-spore-forming, non-motile bacterium (strain 280(T)) isolated from a chicken was studied for its taxonomic allocation. 16S rRNA gene sequence analyses clearly allocated the isolate in the genus Paenochrobactrum group with a 16S rRNA gene sequence similarity of 98.8% to the currently recognized species, Paenochrobactrum gallinarii and Paenochrobactrum glaciei. This allocation was confirmed by the fatty acid data (major fatty acids: C18:1ω7c and C19:0 cyclo ω8c) and a polyamine pattern with the major compound putrescine and relatively high amounts of spermidine. Also, the polar lipid profile with phosphatidylethanolamine, phosphatiylmonomethylethanolamine, phosphatidylglycerol, phosphatidylcholine and the genus-specific 'stretched aminolipid' was well in line with the description of the genus Paenochrobactrum. The quinone system consisted predominantly of ubiquinone Q-10 with traces of Q-9 and Q-11. DNA-DNA hybridization of strain 280T with Paenochrobactrum gallinarii Sa25T and Paenochrobactrum glaciei KMM 3858T showed relatedness values of 38.8% (reciprocal 20.2%) and 30.2% (reciprocal 29.8%), respectively. These results in combination with differentiating physiological and biochemical data clearly showed that strain 280T merits species status. We propose the name Paenochrobactrum pullorum sp. nov. to accommodate this strain with the type strain 280T (=LMG 28095T=CIP 110700T).
Subject(s)
Brucellaceae/classification , Chickens/microbiology , Phylogeny , Animals , Bacterial Typing Techniques , Brucellaceae/genetics , Brucellaceae/isolation & purification , Chickens/genetics , DNA, Bacterial/genetics , Fatty Acids/chemistry , Feces/microbiology , Germany , Molecular Sequence Data , Nucleic Acid Hybridization , Putrescine/chemistry , RNA, Ribosomal, 16S/genetics , Sequence Analysis, DNA , Spermidine/chemistry , Ubiquinone/chemistryABSTRACT
Two yellow-pigmented bacterial strains (100(T) and C26(T)), showing 98.4â% 16S rRNA gene sequence similarity to each other and isolated from a chicken in Germany and as a contaminant from an agar plate of a rhizosphere sample in Alabama, were studied by using a polyphasic taxonomic approach. Cells of both isolates were rod-shaped and stained Gram-negative. A comparison of the 16S rRNA gene sequences of the two organisms with the sequences of the type strains of the most closely related species of the genus Chryseobacterium showed the highest sequence similarities of strains 100(T) and C26(T) to the type strains of Chryseobacterium joostei (respectively 97.5 and 98.2â%), C. viscerum (96.6, 97.8â%), C. gleum (97.1, 97.7â%), C. arthrosphaerae (97.3%, 97.7â%), C. indologenes (97.2, 97.7â%), C. tructae (96.6, 97.6â%), C. jejuense (97.0, 97.6â%) and C. oncorhynchi (96.3, 97.5â%); 16S rRNA gene sequence similarities to members of all other species of the genus Chryseobacterium were below 97.5â%. The fatty acid profiles of both strains consisted of the major fatty acids iso-C15â:â0, summed feature 3 (iso-C15â:â0 2-OH and/or C16â:â1ω7c), iso-C17â:â1ω9c and iso-C17â:â0 3-OH, but also showed slight differences (absence or presence of C16â:â0 3-OH and iso-C15â:â1 F). DNA-DNA hybridizations between the two strains and between the novel strains and the type strains of C. joostei, C. indologenes, C. jejuense, C. tructae and C. viscerum resulted in relatedness values clearly below 70â%. These DNA-DNA hybridization results and the differentiating biochemical and chemotaxonomic properties showed that both strains 100(T) and C26(T) represent novel species, for which the names Chryseobacterium gallinarum sp. nov. (type strain 100(T)â=âLMG 27808(T)â=âCCM 8493(T)) and Chryseobacterium contaminans sp. nov. (type strain C26(T)â=âLMG 27810(T)â=âCCM 8492(T)) are proposed.