Proposal of Helicobacter canicola sp. nov., previously identified as Helicobacter cinaedi, isolated from canines

During the course of our taxonomic investigation of Helicobacter cinaedi, it was realized that the strains isolated from dogs, which have been identified as H. cinaedi, showed different biochemical traits than did the isolates obtained from humans. None of the three dog isolates could reduce nitrate...

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Bibliographic Details
Published in:Systematic and applied microbiology 2016-07, Vol.39 (5), p.307-312
Main Authors: Kawamura, Yoshiaki, Tomida, Junko, Miyoshi-Akiyama, Tohru, Okamoto, Tatsuya, Narita, Masashi, Hashimoto, Katsuhiko, Cnockaert, Margo, Vandamme, Peter, Morita, Yuji, Sawa, Tomohiro, Akaike, Takaaki
Format: Article
Language:English
Subjects:
16S rRNA
23S rRNA
Alkaline Phosphatase - genetics
Animals
Average nucleotide identity (ANI)
Canine
Chaperonin 60 - genetics
DNA gyrase
DNA Gyrase - genetics
DNA, Bacterial - genetics
DNA–DNA hybridization
Dogs - microbiology
Genome, Bacterial - genetics
Heat shock protein
Helicobacter
Helicobacter - classification
Helicobacter - genetics
Helicobacter - isolation & purification
Helicobacter cinaedi
Humans
In silico DNA similarity analysis
Molecular Typing - veterinary
Nitrates - metabolism
Nitrites - metabolism
Phylogeny
RNA, Ribosomal, 16S - genetics
RNA, Ribosomal, 23S - genetics
Sequence Analysis, DNA
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Summary:During the course of our taxonomic investigation of Helicobacter cinaedi, it was realized that the strains isolated from dogs, which have been identified as H. cinaedi, showed different biochemical traits than did the isolates obtained from humans. None of the three dog isolates could reduce nitrate to nitrite, whereas all of the human H. cinaedi isolates could do so. The dog isolates showed a strong positive alkaline phosphatase reaction and could grow at 42°C, however the human isolates showed negative to very weak responses to those tests. The GyrA protein based phylogenetic analysis showed that the three isolates from dogs formed a slightly distinct cluster from the human isolate cluster. Phylogenetic analysis of the 16S rRNA, 23S rRNA, gyrB, and hsp60 gene sequences further confirmed that the dog isolates differed from the human H. cinaedi isolate cluster. The whole-genome in silico DNA similarities of each isolate based on their full genome sequences revealed that the isolates from dogs shared more than 94.9% ANIb (average nucleotide identity based on BLAST), while 94.0% ANIb were found between the isolates from dogs and the humans, including the H. cinaedi type strain ATCC BAA-847T (=CCUG 18818T). From these data, we propose a new species, ‘H. canicola’ sp. nov., for the isolates from dogs. The type strain is PAGU 1410T (CCUG 33887T=LMG 29580T).
ISSN:0723-2020
1618-0984
DOI:10.1016/j.syapm.2016.06.004