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Pangenomic analysis of the bacterial cellulose-producing genera Komagataeibacter and Novacetimonas
International Journal of Biological MacromoleculesBacterial cellulose holds significant commercial potential due to its unique structural and chemical properties, making it suitable for applications in electronics, medicine, and pharmaceuticals. However, large-scale BC production remains limited by challenges related to bacterial performance.
Bashir A, Akhoon +5 more
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Physical Parameters Optimization of Bacterial Cellulose from Komagataeibacter sucrofermentans
Pertanika Journal of Science and TechnologyMany studies have been concerned with nanocellulose's potential to produce environmentally friendly nanomaterial fibers. Bacterial cellulose has shown superiority over plant cellulose, leading to increased research focus on bacterial cellulose production.
Siti Noorfathiah Mohd Razin +2 more
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МОРФОЛОГИЯ ДИСПЕРИГИРОВАННЫХ НАНО-ГЕЛЬ-ПЛЕНОК ЦЕЛЛЮЛОЗЫ KOMAGATAEIBACTER RHAETICUS
2019Макро и микроструктурные особенности бактериальной целлюлозы (БЦ) безусловно определяют ее уникальные свойства (высокая прочность, степень полимеризации и индекс кристалличности), благодаря которым данный материал представляется перспективным в качестве матрицы различных композитных систем. Для получения гомогенных композитов исходная наногельпленка БЦ
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Genome Analysis of Bacterial Cellulose-Producing Komagataeibacter diospyri MI 2
Chiang Mai Journal of ScienceBacterial cellulose (BC), a polysaccharide produced by bacteria, is widely used in various fields. In our previous study, we isolated a BCproducing bacterium, Komagataeibacter sp. MI 2, and investigated its ability to produce BC. However, the genetic information of this bacterium has not yet been investigated.
Singhaneit Phanaphitakkul +2 more
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ChemSusChem
AbstractThe production of bacterial cellulose (BC) has indeed garnered global attention due to its versatile properties and applications. Despite potential benefits, the challenges like low productivity, high fermentation costs, and expensive culture media hinder its industrialization.
Ziyao Liu +6 more
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AbstractThe production of bacterial cellulose (BC) has indeed garnered global attention due to its versatile properties and applications. Despite potential benefits, the challenges like low productivity, high fermentation costs, and expensive culture media hinder its industrialization.
Ziyao Liu +6 more
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Temperate bacteriophages collected by outer membrane vesicles in Komagataeibacter intermedius.
Journal of basic microbiology, 2016The acetic acid bacteria have mainly relevance for bacterial cellulose production and fermented bio-products manufacture. The purpose of this study was to identify temperate bacteriophages in a cellulose-producing bacterial strain Komagataeibacter intermedius IMBG180. Prophages from K.
Alla, Kharina +10 more
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KOMAGATAEIBACTER RHAETICUS P 1463 PRODUCER OF BACTERIAL CELLULOSE
2017The invention relates to microbiology and biotechnology industry. Strain B17 isolated from Kombucha tea cell culture, which has been identified as Komagataeibacter rhaeticus and deposited in Microbial Strain Collection of Latvia under the number P 1463, is proposed as promising producer of bacterial cellulose (BC).
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PRODUÇÃO SIMULTÂNEA DE EXOPOLISSACARÍDEOS POR Komagataeibacter xylinus
2020Natália Norika Yassunaka Hata +4 more
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