Kenichi Aino scite author profile

Kenichi Aino

3Publications

101Citation Statements Received

73Citation Statements Given

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129

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Affiliations

Hokkaido University, National Institute of Advanced Industrial Science and Technology, Tokai University

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Bacterial community characterization and dynamics of indigo fermentation

Aino

Narihiro

Minamida

et al. 2010

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Indigo fermentation has been traditionally performed for dyeing textiles in Japan. Limited information is available on the microbiota involved and the succession of the bacterial community structure during indigo reduction. We investigated the bacterial community structure associated with indigo fermentation using denaturing gradient gel electrophoresis and clone library analyses of a PCR-amplified 16S rRNA gene in the early phase of fermentation carried out in our laboratory. A marked substitution of Halomonas spp. by Amphibacillus spp. was observed corresponding to the marked change in the state of indigo reduction. Although the reported indigo-reducing bacteria, Alkalibacterium spp., were not predominant in the early phase of fermentation, they were predominant in fermentation liquor aged for 10 months obtained from Date City, Japan, as determined by culture-dependent and culture-independent analyses. Novel indigo-reducing strains, Amphibacillus spp. strain C40 and Oceanobacillus spp. strain A21, were isolated from fermentation liquor aged for 10 months and from liquor aged for 4 days, respectively. It is considered that, in addition to the strains belonging to the genus Alkalibacterium, strains belonging to genera Amphibacillus and Oceanobacillus play important roles in sustaining the reduced state of indigo during fermentation.

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Oceanobacillus indicireducens sp. nov., a facultative alkaliphile that reduces an indigo dye

Hirota

Aino

Nodasaka

et al. 2013

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An indigo-reducing facultatively alkaliphilic and halophilic strain, designated strain A21 T , was isolated from a fermented Polygonum indigo (Polygonum tinctorium Lour.) liquor sample aged for 4 days prepared in a laboratory. 16S rRNA gene sequence phylogeny suggested that strain A21 T was a member of the genus Oceanobacillus with the closest relative being the type strain of Oceanobacillus chironomi (similarity: 96.0 %). The cells of the isolate stained Gram-positive and were facultatively anaerobic straight rods that were motile by peritrichous flagella. The strain grew between 18 and 48 6C with optimum growth at 39 6C. It grew in the pH range of 7-12. It hydrolysed casein, gelatin and Tween 20 but not Tweens 40, 60 and 80, starch or DNA. No isoprenoid quinone was detected and the DNA G+C content was 39.7 mol%. The whole-cell fatty acid profile mainly consisted of iso-C 15 : 0 , anteiso-C 15 : 0 and C 16 : 0 . DNA-DNA hybridization experiments with O. chironomi revealed 13 % relatedness. Owing to the differences in phenotypic and chemotaxonomic characteristics, and phylogenetic analyses based on 16S rRNA gene sequences and DNA-DNA relatedness data from reported Oceanobacillus species, the isolate merits classification as a representative of a novel species, for which the name Oceanobacillus indicireducens sp. nov. is proposed. The type strain is A21 T (5JCM 17251 T 5NCIMB 14685 T ).The description of the genus Oceanobacillus is also emended.

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Analysis of microbiota involved in the aged natural fermentation of indigo

Okamoto

Aino

Narihiro

et al. 2017

World J Microbiol Biotechnol

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Although the indigo reduction process is performed via natural fermentation and maintained under open-air condition, the indigo-reducing reactions continue for 6 months (on average) or longer. Identifying the mechanism underlying the maintenance of this process could lead to the development of a novel, long-lasting, unsterilized bioprocesses. To determine the mechanisms underlying the maintenance of the indigo fermentation system microbiota for more than 6 months in a reduced state in an anaerobic alkaline environment, we examined changes in the microbiota in one early-phase batch and two aged batches of indigo fermentation fluid. The microbiota in the aged fermentation fluid consisted mainly of the genera Alkalibacterium, Amphibacillus, Anaerobacillus and Polygonibacillus and the family Proteinivoraceae. The genera Alkalibacterium, Amphibacillus and Polygonibacillus are known to include indigo-reducing bacteria. Although the transition speed was slower in the aged fermentation fluid than in the early-stage fluid, the microbiota in the aged fermentation fluid maintained for more than 6 months was drastically changed within a period of 3 months. The results of this study indicate that the bacterial consortia consisted of various indigo-reducing species that replace the previous group of indigo-reducing bacteria. The notable transitional changes may be concomitant with changes in the environmental conditions, such as the nutritional conditions, observed over 3 months. This flexibility may lead to important changes in the microbiota that allow for the maintenance of a fermentation-reducing state over a long period.

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Kenichi Aino

Bacterial community characterization and dynamics of indigo fermentation

Oceanobacillus indicireducens sp. nov., a facultative alkaliphile that reduces an indigo dye

Analysis of microbiota involved in the aged natural fermentation of indigo

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