BACKGROUND: Bacterial cellulose (BC) is a nanostructured material with unique properties and wide applicability. In order to decrease the production cost of bacterial cellulose, lignocellulose-based media have considerable potential as alternative cost-effective feedstocks. However, pretreatment and enzymatic hydrolysis of lignocellulose to sugars also generate fermentation inhibitors. Detoxification of lignocellulosic hydrolysates is needed to achieve efficient production of BC. In this investigation, different methods for detoxification of spruce hydrolysate prior to production of BC were compared with respect to effects on potential inhibitors and fermentable sugars, sugar consumption, BC yield, and cell viability. The objectives were to identify efficient detoxification methods and to achieve a better understanding of the role played by different inhibitors in lignocellulosic hydrolysates. RESULTS: In a first series of experiments, the detoxification methods investigated included treatments with activated charcoal, alkali [sodium hydroxide, calcium hydroxide (overliming), and ammonium hydroxide], anion and cation ion-exchange resins, and reducing agents (sodium sulfite and sodium dithionite). A second series of detoxification experiments included enzymatic treatments (laccase and peroxidase). The potential inhibitors studied included aliphatic acids, furan aldehydes, and phenolic compounds. The best effects in the first series of detoxification experiments were achieved with activated charcoal and anion exchanger. After detoxification with activated charcoal the BC yield was 8.2 g/L, while, it was 7.5 g/L in a reference medium without inhibitors. Treatments with anion exchanger at pH 10 and pH 5.5 gave a BC yield of 7.9 g/L and 6.3 g/L, respectively. The first series of experiments suggested that there was a relationship between the BC yield and phenolic inhibitors. Therefore, the second series of detoxification experiments focused on treatments with phenol-oxidizing enzymes. The BC yield in the laccase-detoxified hydrolysate reached 5.0-5.5 g/L after 14 days cultivation, which demonstrated the important inhibitory role played by phenolic compounds. CONCLUSIONS: The investigation shows that detoxification methods that efficiently remove phenolics benefit bacterial growth and BC production. Negative effects of salts could not be excluded and the osmotolerance of Gluconacetobacter xylinus needs to be further investigated in the future. Combinations of detoxification methods that efficiently decrease the concentration of inhibitors remain as an interesting option.
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机译:背景:细菌纤维素(BC)是一种纳米结构材料,具有独特的性能和广泛的适用性。为了降低细菌纤维素的生产成本,基于木质纤维素的培养基作为替代成本有效的原料具有巨大的潜力。然而,木质纤维素的预处理和酶促水解为糖类也会产生发酵抑制剂。需要木质纤维素水解产物的解毒以实现BC的有效生产。在这项研究中,比较了在生产BC之前对云杉水解产物进行解毒的不同方法,以了解其对潜在抑制剂和可发酵糖的影响,食糖量,BC产量和细胞活力。目的是确定有效的排毒方法,并更好地了解不同抑制剂在木质纤维素水解物中的作用。结果:在第一批实验中,研究的排毒方法包括用活性炭,碱[氢氧化钠,氢氧化钙(过高浓度)和氢氧化铵],阴离子和阳离子交换树脂以及还原剂(亚硫酸钠和连二亚硫酸钠)。第二系列的排毒实验包括酶处理(漆酶和过氧化物酶)。研究的潜在抑制剂包括脂肪酸,呋喃醛和酚类化合物。在第一批排毒实验中,活性炭和阴离子交换剂达到了最佳效果。用活性炭解毒后,BC产量为8.2 g / L,而在没有抑制剂的参考培养基中,BC产量为7.5 g / L。用pH 10和pH 5.5的阴离子交换剂处理的BC收率分别为7.9 g / L和6.3 g / L。第一系列实验表明,BC得率与酚类抑制剂之间存在一定的关系。因此,第二系列的排毒实验集中于用酚氧化酶进行治疗。培养14天后,漆酶解毒的水解产物中的BC产量达到5.0-5.5 g / L,这表明酚类化合物具有重要的抑制作用。结论:研究表明,有效去除酚类物质的排毒方法有益于细菌生长和细菌生长。不能排除盐的负面影响,将来需要进一步研究木糖葡糖杆菌的渗透耐受性。有效降低抑制剂浓度的排毒方法组合仍然是一个有趣的选择。
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