Identification of three robust and efficient Saccharomyces cerevisiae strains isolated from Brazilian's cachaça distilleries

Raquel de Sousa Paredes , Igor Patrick Vasconcelos Vieira , Vinícius Mattos de Mello , Leonardo de Figueiredo Vilela , Rosane Freitas Schwan , Elis Cristina Araújo Eleutherio
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引用次数: 6

Abstract

Three isolated strains from Brazilian's cachaça distilleries were tested for glucose consumption and ethanol production during the fermentation process. The ethanol productivity, cell viability and mitochondrial mutagenic rate of each strain was evaluated at the end of a 24 h-fermentation round. The strains’ resistance to the fermentation process was evaluated after cell recycling followed by another round of fermentation. Among the isolated industrial strains evaluated, the strains CCA083 and CA751 has shown the best performance in terms of productivity and yield. The cachaça strain CCA083 was able to keep a high glucose consumption and ethanol productivity during the second fermentation round. This result suggests that the stress response mechanism is activated due to the heat shock pretreatment, which creates a protective effect on the cell. Therefore, these results could bring up to light a new framework for industries and researchers in order to develop strains with increased stress tolerance on first and second-generation ethanol production.

巴西cachaa酒厂分离的三株强健高效酿酒酵母的鉴定
从巴西cachaa酒厂分离的三株菌株在发酵过程中葡萄糖消耗和乙醇生产进行了测试。在24 h发酵结束时,评估每个菌株的乙醇产量、细胞活力和线粒体诱变率。在细胞回收后,再进行一轮发酵,评估菌株对发酵过程的抗性。在分离的工业菌株中,菌株CCA083和CA751在产率和产量方面表现最好。cachaa菌株CCA083在第二轮发酵过程中能够保持较高的葡萄糖消耗和乙醇产量。提示热休克预处理激活了应激反应机制,对细胞产生了保护作用。因此,这些结果可以为工业和研究人员提供一个新的框架,以开发具有更强的耐受性的菌株,用于第一代和第二代乙醇生产。
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