豆豉固体基质发酵过程中豆豉霉菌和细菌纯培养物形成的维生素。

S Keuth, B Bisping
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引用次数: 74

摘要

研究了豆豉固体基质发酵过程中水溶性维生素(维生素 B12、维生素 B6、核黄素、硫胺素、烟酸和烟酰胺)的形成。研究还检测了几种寡孢根瘤菌(Rhizopus oligosporus)、糜烂根瘤菌(R. arrhizus)和匍匐茎根瘤菌(R. stolonifer)菌株以及几种细菌在维生素形成过程中的作用。所有真菌和细菌菌株都是从印度尼西亚豆豉和浸泡水样本中分离出来的。根瘤菌菌株形成核黄素、烟酸、烟酰胺和维生素 B6。这些物质的最终浓度取决于不同的菌株和发酵时间。一般来说,寡孢子酵母菌的分离物是最好的维生素形成物。霉菌不产生具有生理活性的维生素 B12。硫胺素的含量在发酵过程中有所下降。添加经筛选可产生维生素 B12 的细菌可增加生理活性维生素 B12 的含量。自由柠檬酸杆菌和肺炎克雷伯菌的生成能力最强。此外,除霉菌外,细菌也能产生核黄素和维生素 B6。还研究了根瘤菌对自由柠檬杆菌形成维生素 B12 的影响。用霉菌和细菌发酵的豆豉的维生素含量是只用柠檬酵母发酵的对照组的三倍。
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Formation of vitamins by pure cultures of tempe moulds and bacteria during the tempe solid substrate fermentation.

The formation of water soluble vitamins (vitamin B12, vitamin B6, riboflavin, thiamine, nicotinic acid and nicotinamide) during the tempe solid substrate fermentation was investigated. The role of several strains of Rhizopus oligosporus, R. arrhizus, and R. stolonifer and the role of several bacteria in the vitamin formation process were checked. All fungal and bacterial strains were isolated from Indonesian tempe and soaking water samples. The Rhizopus strains formed riboflavin, nicotinic acid, nicotinamide and vitamin B6. The final concentrations of these substances depended on the different strains involved and on the fermentation time. Isolates of R. oligosporus were generally the best vitamin formers. The moulds did not produce physiologically active vitamin B12. The thiamine content decreased during fermentation. The addition of bacteria, which had been selected in a screening for vitamin B12 production, resulted in an increase of physiologically active vitamin B12. Citrobacter freundii and Klebsiella pneumoniae showed the best formation capabilities. Furthermore, the bacteria produced riboflavin and vitamin B6 in addition to the moulds. The influence of Rhizopus on the vitamin B12 formation of Cit. freundii was also investigated. The vitamin content of tempe that was fermented with the mould and the bacterium was three times as high as a control fermentation with Cit. freundii only.

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