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Li L,
Wieme A,
Spitaels F,
Balzarini T,
Nunes OC,
Manaia CM,
Van Landschoot A,
De Vuyst L,
Cleenwerck I,
Vandamme P,
( 2014 ) Acetobacter sicerae sp. nov., isolated from cider and kefir, and identification of species of the genus Acetobacter by dnaK, groEL and rpoB sequence analysis. PMID : 24763601 : DOI : 10.1099/ijs.0.058354-0 Abstract >>
Five acetic acid bacteria isolates, awK9_3, awK9_4 (= LMG 27543), awK9_5 (= LMG 28092), awK9_6 and awK9_9, obtained during a study of micro-organisms present in traditionally produced kefir, were grouped on the basis of their MALDI-TOF MS profile with LMG 1530 and LMG 1531(T), two strains currently classified as members of the genus Acetobacter. Phylogenetic analysis based on nearly complete 16S rRNA gene sequences as well as on concatenated partial sequences of the housekeeping genes dnaK, groEL and rpoB indicated that these isolates were representatives of a single novel species together with LMG 1530 and LMG 1531(T) in the genus Acetobacter, with Acetobacter aceti, Acetobacter nitrogenifigens, Acetobacter oeni and Acetobacter estunensis as nearest phylogenetic neighbours. Pairwise similarity of 16S rRNA gene sequences between LMG 1531(T) and the type strains of the above-mentioned species were 99.7%, 99.1%, 98.4% and 98.2%, respectively. DNA-DNA hybridizations confirmed that status, while amplified fragment length polymorphism (AFLP) and random amplified polymorphic DNA (RAPD) data indicated that LMG 1531(T), LMG 1530, LMG 27543 and LMG 28092 represent at least two different strains of the novel species. The major fatty acid of LMG 1531(T) and LMG 27543 was C18 : 1�s7c. The major ubiquinone present was Q-9 and the DNA G+C contents of LMG 1531(T) and LMG 27543 were 58.3 and 56.7 mol%, respectively. The strains were able to grow on D-fructose and D-sorbitol as a single carbon source. They were also able to grow on yeast extract with 30% D-glucose and on standard medium with pH 3.6 or containing 1% NaCl. They had a weak ability to produce acid from d-arabinose. These features enabled their differentiation from their nearest phylogenetic neighbours. The name Acetobacter sicerae sp. nov. is proposed with LMG 1531(T) (= NCIMB 8941(T)) as the type strain.
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Huang CH,
Chang MT,
Huang L,
Chua WS,
( 2014 ) Molecular discrimination and identification of Acetobacter genus based on the partial heat shock protein 60 gene (hsp60) sequences. PMID : 23681743 : DOI : 10.1002/jsfa.6231 Abstract >>
To identify the Acetobacter species using phenotypic and genotypic (16S rDNA sequence analysis) technique alone is inaccurate. The aim of this study was to use the hsp60 gene as a target for species discrimination in the genus Acetobacter, as well as to develop species-specific polymerase chain reaction and mini-sequencing methods for species identification and differentiation. The average sequence similarity for the hsp60 gene (89.8%) among type strains was significantly less than that for the 16S rRNA gene (98.0%), and the most Acetobacter species could be clearly distinguished. In addition, a pair of species-specific primer was designed and used to specifically identify Acetobacter aceti, Acetobacter estunensis and Acetobacter oeni, but none of the other Acetobacter strains. Afterwards, two specific single-nucleotide polymorphism primers were designed and used to direct differentiate the strains belonging to the species A. aceti by mini-sequencing assay. The phylogenetic relationships in the Acetobacter genus can be resolved by using hsp60 gene sequencing, and the species of A. aceti can be differentiated using novel species-specific PCR combined with the mini-sequencing technology.
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Huang CH,
Chang MT,
Huang L,
Chu WS,
( 2014 ) Utilization of elongation factor Tu gene (tuf) sequencing and species-specific PCR (SS-PCR) for the molecular identification of Acetobacter species complex. PMID : 23969032 : DOI : 10.1016/j.mcp.2013.07.004 Abstract >>
The aim of this study was to use tuf gene as a molecular target for species discrimination in the Acetobacter genus, as well as to develop species-specific PCR method for direct species identification of Acetobacter aceti. The results showed that most Acetobacter species could be clearly distinguished, and the average sequence similarity for the tuf gene (89.5%) among type strains was significantly lower than that of the 16S rRNA gene sequence (98.0%). A pair of species-specific primers were designed and used to specifically identify A. aceti, but none of the other Acetobacter strains. Our data indicate that the phylogenetic relationships of most strains in the Acetobacter genus can be resolved using tuf gene sequencing, and the novel species-specific primer pair could be used to rapidly and accurately identify the species of A. aceti by the PCR based assay.
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