N Furuya scite author profile

Acetobacter species have been used for brewing traditional vinegar and are known to have genetic instability. To clarify the mutability, Acetobacter pasteurianus NBRC 3283, which forms a multi-phenotype cell complex, was subjected to genome DNA sequencing. The genome analysis revealed that there are more than 280 transposons and five genes with hyper-mutable tandem repeats as common features in the genome consisting of a 2.9-Mb chromosome and six plasmids. There were three single nucleotide mutations and five transposon insertions in 32 isolates from the cell complex. The A. pasteurianus hyper-mutability was applied for breeding a temperature-resistant strain grown at an unviable high-temperature (42°C). The genomic DNA sequence of a heritable mutant showing temperature resistance was analyzed by mutation mapping, illustrating that a 92-kb deletion and three single nucleotide mutations occurred in the genome during the adaptation. Alpha-proteobacteria including A. pasteurianus consists of many intracellular symbionts and parasites, and their genomes show increased evolution rates and intensive genome reduction. However, A. pasteurianus is assumed to be a free-living bacterium, it may have the potentiality to evolve to fit in natural niches of seasonal fruits and flowers with other organisms, such as yeasts and lactic acid bacteria.

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Membrane-Bound, 2-Keto- d -Gluconate-Yielding d -Gluconate Dehydrogenase from “ Gluconobacter dioxyacetonicus ” IFO 3271: Molecular Properties and Gene Disruption

Toyama

Furuya²,

Saichana³

et al. 2007

Appl Environ Microbiol

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Most Gluconobacter species produce and accumulate 2-keto-D-gluconate (2KGA) and 5KGA simultaneously from D-glucose via GA in culture medium. 2KGA is produced by membrane-bound flavin adenine dinucleotidecontaining GA 2-dehydrogenase (FAD-GADH). FAD-GADH was purified from "Gluconobacter dioxyacetonicus" IFO 3271, and N-terminal sequences of the three subunits were analyzed. PCR primers were designed from the N-terminal sequences, and part of the FAD-GADH genes was cloned as a PCR product. Using this PCR product, gene fragments containing whole FAD-GADH genes were obtained, and finally the nucleotide sequence of 9,696 bp was determined. The cloned sequence had three open reading frames (ORFs), gndS, gndL, and gndC, corresponding to small, large, and cytochrome c subunits of FAD-GADH, respectively. Seven other ORFs were also found, one of which showed identity to glucono-␦-lactonase, which might be involved directly in 2KGA production. Three mutant strains defective in either gndL or sldA (the gene responsible for 5KGA production) or both were constructed. Ferricyanide-reductase activity with GA in the membrane fraction of the gndL-defective strain decreased by about 60% of that of the wild-type strain, while in the sldA-defective strain, activity with GA did not decrease and activities with glycerol, D-arabitol, and D-sorbitol disappeared. Unexpectedly, the strain defective in both gndL and sldA (double mutant) still showed activity with GA. Moreover, 2KGA production was still observed in gndL and double mutant strains. 5KGA production was not observed at all in sldA and double mutant strains. Thus, it seems that "G. dioxyacetonicus" IFO 3271 has another membrane-bound enzyme that reacts with GA, producing 2KGA.

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Legionella pneumophila contamination of hospital dishwashers

Yoshida

Furuya

Hosokawa

et al. 2018

American Journal of Infection Control

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N Furuya

Whole-genome analyses reveal genetic instability of Acetobacter pasteurianus

Membrane-Bound, 2-Keto- d -Gluconate-Yielding d -Gluconate Dehydrogenase from “ Gluconobacter dioxyacetonicus ” IFO 3271: Molecular Properties and Gene Disruption

Legionella pneumophila contamination of hospital dishwashers

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