Immobilization techniques improve volumetric hydrogen productivity of Caldicellulosiruptor species in a modified continuous stirred tank reactor.

Biotechnology for Biofuels and Bioproducts Pub Date : 2023-02-16 DOI:10.1186/s13068-023-02273-8

Thitiwut Vongkampang, Krishnan Sreenivas, Carl Grey, Ed W J van Niel

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Abstract

Background: Co-cultures and cell immobilization have been used for retaining biomass in a bioreactor, with the aim to improve the volumetric hydrogen productivity (Q_H2). Caldicellulosiruptor kronotskyensis is a strong cellulolytic species that possesses tāpirin proteins for attaching on lignocellulosic materials. C. owensensis has its reputation as a biofilm former. It was investigated whether continuous co-cultures of these two species with different types of carriers can improve the Q_H2.

Results: Q_H2 up to 30 ± 0.2 mmol L^-1 h^-1 was obtained during pure culture of C. kronotskyensis with combined acrylic fibres and chitosan. In addition, the yield of hydrogen was 2.95 ± 0.1 mol H₂ mol^-1 sugars at a dilution rate (D) of 0.3 h^-1. However, the second-best Q_H2 26.4 ± 1.9 mmol L^-1 h^-1 and 25.4 ± 0.6 mmol L^-1 h^-1 were obtained with a co-culture of C. kronotskyensis and C. owensensis with acrylic fibres only and a pure culture of C. kronotskyensis with acrylic fibres, respectively. Interestingly, the population dynamics revealed that C. kronotskyensis was the dominant species in the biofilm fraction, whereas C. owensensis was the dominant species in the planktonic phase. The highest amount of c-di-GMP (260 ± 27.3 µM at a D of 0.2 h^-1) were found with the co-culture of C. kronotskyensis and C. owensensis without a carrier. This could be due to Caldicellulosiruptor producing c-di-GMP as a second messenger for regulation of the biofilms under the high dilution rate (D) to prevent washout.

Conclusions: The cell immobilization strategy using a combination of carriers exhibited a promising approach to enhance the Q_H2. The Q_H2 obtained during the continuous culture of C. kronotskyensis with combined acrylic fibres and chitosan gave the highest Q_H2 among the pure culture and mixed cultures of Caldicellulosiruptor in the current study. Moreover, it was the highest Q_H2 among all cultures of Caldicellulosiruptor species studied so far.

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固定化技术提高了Caldicellulosiruptor物种在改进的连续搅拌槽式反应器中的体积产氢率。

背景:共培养和细胞固定化已被用于在生物反应器中保留生物质，目的是提高体积产氢率(QH2)。Caldicellulosiruptor kronotskyensis是一种强纤维素水解物种，具有tāpirin蛋白，用于附着在木质纤维素材料上。欧文氏梭菌作为一种生物膜原体而闻名。研究了两种不同载体的连续共培养是否能提高QH2。结果:丙烯酸纤维与壳聚糖复合纯培养时，QH2可达30±0.2 mmol L-1 h-1。此外，在0.3 h-1稀释率(D)下，氢的产率为2.95±0.1 mol H2 mol-1糖。仅与丙烯纤维共培养和与丙烯纤维纯培养的QH2分别为26.4±1.9 mmol L-1 h-1和25.4±0.6 mmol L-1 h-1。有趣的是，种群动态表明，C. kronotskyensis在生物膜阶段是优势种，而C. owensensis在浮游阶段是优势种。c-di-GMP在D = 0.2 h-1时最高，为260±27.3µM。这可能是由于Caldicellulosiruptor产生c-di-GMP作为第二信使，在高稀释率(D)下调节生物膜以防止冲洗。结论:使用组合载体的细胞固定化策略显示了增强QH2的有希望的方法。丙烯酸纤维与壳聚糖复合连续培养获得的QH2在本研究的Caldicellulosiruptor纯培养和混合培养中最高。此外，它是迄今为止所研究的Caldicellulosiruptor种培养物中QH2最高的。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Biotechnology for Biofuels and Bioproducts

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