Strain KD21T, isolated from the fecal sample of a healthy female volunteer, is a strictly anaerobic, non-motile, Gram-staining-positive, saccharolytic small rod that does not produce spores. Strain KD21T was able to grow in the range of temperature 28°C–37°C (optimum, 37 °C), pH 6.0–8.0 (optimum, pH 7.0), and with 0–5.0 g/l NaCl (optimum, 0 g/l NaCl). Bacteria cells reduced nitrates to nitrites. Its major fatty acids were C18:1ω9c, C16:0, C18:0, and summed in feature 8 (C18:1ω7c and/or C18:1ω6c). 16S rRNA gene phylogenetic analysis revealed that KD21T is a member of the genus Tractidigestivibacter and is distinct from any species with validly published names. The sequence showed 98.48% similarity with T. scatoligenes SK9K4T. The DNA G + C content of strain KD21T was 62.6 mol%. The DNA–DNA hybridization and OrthoANI values between strain KD21T and T. scatoligenes SK9K4T were 40.2% and 90.2%, respectively. Differences in phenotypic, phylogenetic, chemotaxonomic, and genomic characteristics indicated that strain KD21T represents a novel species within the genus Tractidigestivibacter. The name T. montrealensis sp. nov. is proposed and the type strain is KD21T (= CSUR Q8103T = DSM 115111T).
Thiomicrorhabdus heinhorstiae sp. nov. and Thiomicrorhabdus cannonii sp. nov.: novel sulphur-oxidizing chemolithoautotrophs isolated from the chemocline of Hospital Hole, an anchialine sinkhole in Spring Hill, Florida, USA
Two sulphur-oxidizing, chemolithoautotrophic aerobes were isolated from the chemocline of an anchialine sinkhole located within the Weeki Wachee River of Florida. Gram-stain-negative cells of both strains were motile, chemotactic rods. Phylogenetic analysis of the 16S rRNA gene and predicted amino acid sequences of ribosomal proteins, average nucleotide identities, and alignment fractions suggest the strains HH1 T and HH3 T represent novel species belonging to the genus Thiomicrorhabdus . The genome G+C fraction of HH1 T is 47.8 mol% with a genome length of 2.61 Mb, whereas HH3 T has a G+C fraction of 52.4 mol% and 2.49 Mb genome length. Major fatty acids of the two strains included C 16 : 1 , C 18 : 1 and C 16 : 0 , with the addition of C 10:0 3-OH in HH1 T and C 12 : 0 in HH3 T . Chemolithoautotrophic growth of both strains was supported by elemental sulphur, sulphide, tetrathionate, and thiosulphate, and HH1 T was also able to use molecular hydrogen. Neither strain was capable of heterotrophic growth or use of nitrate as a terminal electron acceptor. Strain HH1 T grew from pH 6.5 to 8.5, with an optimum of pH 7.4, whereas strain HH3 T grew from pH 6 to 8 with an optimum of pH 7.5. Growth was observed between 15–35 °C with optima of 32.8 °C for HH1 T and 32 °C for HH3 T . HH1 T grew in media with [NaCl] 80–689 mM, with an optimum of 400 mM, while HH3 T grew at 80–517 mM, with an optimum of 80 mM. The name Thiomicrorhabdus heinhorstiae sp. nov. is proposed, and the type strain is HH1 T (=DSM 111584 T =ATCC TSD-240 T ). The name Thiomicrorhabdus cannonii sp. nov is proposed, and the type strain is HH3 T (=DSM 111593 T =ATCC TSD-241 T ).
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- Award ID(s):
- 1952676
- NSF-PAR ID:
- 10373803
- Date Published:
- Journal Name:
- International Journal of Systematic and Evolutionary Microbiology
- Volume:
- 72
- Issue:
- 3
- ISSN:
- 1466-5026
- Format(s):
- Medium: X
- Sponsoring Org:
- National Science Foundation
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Three novel carbon monoxide-oxidizing Halobacteria were isolated from Bonneville Salt Flats (Utah, USA) salt crusts and nearby saline soils. Phylogenetic analysis of 16S rRNA gene sequences revealed that strains PCN9 T , WSA2 T and WSH3 T belong to the genera Halobacterium , Halobaculum and Halovenus , respectively. Strains PCN9 T , WSA2 T and WSH3 T grew optimally at 40 °C (PCN9 T ) or 50 °C (WSA2 T , WSH3 T ). NaCl optima were 3 M (PCN9 T , WSA2 T ) or 4 M NaCl (WSH3 T ). Carbon monoxide was oxidized by all isolates, each of which contained a molybdenum-dependent CO dehydrogenase. G+C contents for the three respective isolates were 66.75, 67.62, and 63.97 mol% as derived from genome analyses. The closest phylogenetic relatives for PCN9 T , WSA2 T and WSH3 T were Halobacterium noricense A1 T , Halobaculum roseum D90 T and Halovenus aranensis EB27 T with 98.71, 98.19 and 95.95 % 16S rRNA gene sequence similarities, respectively. Genome comparisons of PCN9 T with Halobacterium noricense A1 T yielded an average nucleotide identity (ANI) of 82.0% and a digital DNA–DNA hybridization (dDDH) value of 25.7 %; comparisons of WSA2 T with Halobaculum roseum D90 T yielded ANI and dDDH values of 86.34 and 31.1 %, respectively. The ANI value for a comparison of WSH3 T with Halovenus aranensis EB27 T was 75.2 %. Physiological, biochemical, genetic and genomic characteristics of PCN9 T , WSA2 T and WSH3 T differentiated them from their closest phylogenetic neighbours and indicated that they represent novel species for which the names Halobaculum bonnevillei , Halobaculum saliterrae and Halovenus carboxidivorans are proposed, respectively. The type strains are PCN9 T (=JCM 32472=LMG 31022=ATCC TSD-126), WSA2 T (=JCM 32473=ATCC TSD-127) and WSH3 T (=JCM 32474=ATCC TSD-128).more » « less
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null (Ed.)A detailed evaluation of eight bacterial isolates from floral nectar and animal visitors to flowers shows evidence that they represent three novel species in the genus Acinetobacter . Phylogenomic analysis shows the closest relatives of these new isolates are Acinetobacter apis , Acinetobacter boissieri and Acinetobacter nectaris , previously described species associated with floral nectar and bees, but high genome-wide sequence divergence defines these isolates as novel species. Pairwise comparisons of the average nucleotide identity of the new isolates compared to known species is extremely low (<83 %), thus confirming that these samples are representative of three novel Acinetobacter species, for which the names Acinetobacter pollinis sp. nov., Acinetobacter baretiae sp. nov. and Acinetobacter rathckeae sp. nov. are proposed. The respective type strains are SCC477 T (=TSD-214 T =LMG 31655 T ), B10A T (=TSD-213 T =LMG 31702 T ) and EC24 T (=TSD-215 T =LMG 31703 T =DSM 111781 T ).more » « less
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Abstract A polyphasic taxonomic approach, incorporating analysis of phenotypic features, cellular fatty acid profiles, 16S rRNA gene sequences, and determination of average nucleotide identity (ANI) plus digital DNA–DNA hybridization (dDDH), was applied to characterize an anaerobic bacterial strain designated KD22Tisolated from human feces. 16S rRNA gene-based phylogenetic analysis showed that strain KD22Twas found to be most closely related to species of the genus
Gabonibacter. At the 16S rRNA gene level, the closest species from the strain KD22Tcorresponded withGabonibacter massiliensis GM7T, with a similarity of 97.58%. Cells of strain KD22T were Gram-negative coccobacillus, positive for indole and negative for catalase, nitrate reduction, oxidase, and urease activities. The fatty acid analysis demonstrated the presence of a high concentration of iso-C15: 0(51.65%). Next, the complete whole-genome sequence of strain KD22T was 3,368,578 bp long with 42 mol% of DNA G + C contents. The DDH and ANI values between KD22T and type strains of phylogenetically related species were 67.40% and 95.43%, respectively. These phylogenetic, phenotypic, and genomic results supported the affiliation of strain KD22Tas a novel bacterial species within the genusGabonibacter. The proposed name isGabonibacter chumensis and the type strain is KD22T(= CSUR Q8104T = DSM 115208 T).
- Free Publicly Accessible Full Text
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Accepted Manuscript1.0
- Journal Article:
- https://doi.org/10.1099/ijsem.0.005233
