微生物/酵母菌共生培养对纤维素合成的影响

P. B. P. Góis, G. Olyveira, L. Costa, C. Chianca, Igor Ives Santos Fraga, P. Basmaji, C. Córdoba, L. Xavier-Filho
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引用次数: 2

摘要

细菌纤维素(BC)是由醋酸杆菌属的一些菌株产生的,代表了植物来源纤维素的潜在替代品。由于BC具有高保水能力、高结晶度、高抗拉强度和精细的网状结构,这意味着它可以形成任何尺寸或形状,因此它是一种很有前途的纳米纤维生物材料。细菌纤维素发酵过程是利用糖作为碳水化合物源来实现的。纤维素的合成可采用不同的碳源,即葡萄糖、果糖和蔗糖。这一过程的结果将是纳米生物纤维素生物质。为了提高纤维素产量,测定了该菌株纤维素的纯度和一些结构特征;对康普茶中的微生物及其纤维素合成能力进行了分离鉴定。结果表明,在静态培养条件下,产纤维素量最高(14.63g/L)的微生物为中间糖醋杆菌(glucconacetobacus intermedius)。这些结果表明,来自康普茶的中间菌具有生产纤维素的工业和商业潜力
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Influence of Symbioses Culture between Microorganisms/Yeast Strains on Cellulose Synthesis
Bacterial cellulose (BC), which is produced by some strains of the bacterial genera Acetobacter, represents a potential alternative to plant-derived cellulose. Due to its high water-holding capacity, high crystallinity, high tensile strength and fine web-like network structure, which means that it can be formed into any size or shape, BC is being used as a promising nanofiber biomaterial. The bacterial cellulose fermentation process is achieved by using the sugar as carbohydrate source. Different carbon sources can be used for the cellulose synthesis, namely glucose, fructose and cane sugar. Results of this process would be nanobiocellulose biomass.In order to improve cellulose production, determine the purity and some structural features of the cellulose from this strain; it was isolated and identified the microorganisms from kombucha and their ability to cellulose biosynthesis. It was found that the microorganisms Gluconacetobacter intermedius is the best for cellulose production with higher cellulose levels (14.63g/L) in static culture conditions. These results indicating the G. intermedius strain from Kombucha has industrial and commercial potential for cellulose production
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