Evaluation of stress tolerance and fermentative behavior of indigenous Saccharomyces cerevisiae

Abstract: Sixty six indigenous Saccharomyces cerevisiae strains were evaluated in stressful conditions (temperature, osmolarity, sulphite and ethanol tolerance) and also ability to flocculate. Eighteen strains showed tolerant characteristics to these stressful conditions, growing at 42 °C, in 0.04% sulphite, 1 mol L−1 NaCl and 12% ethanol. No flocculent characteristics were observed. These strains were evaluated according to their fermentative performance in sugar cane juice. The conversion factors of substrates into et… Show more

“…Unlike the domesticated S. cerevisiae strains, environmental isolates are Some of these phenotypic differences observed in this study have been previously reported in the context of other studies (13,19,95,(97)(98)(99) Table 4A). …”

“…The supplementation with BGLs during hydrolysis, and removal of sugars during hydrolysis by ultra-filtration or SSF are some of the methods that have been developed to reduce inhibition of hydrolysis (94). Consolidated bio-processing (CBP) is one of the strategies that have been proposed as a solution to reduce enzyme cost contribution, whereby a single microorganism capable of both producing biomass hydrolysing enzymes and fermenting the released sugars to ethanol e.g., a fermentative microbe is engineered with a cellulolytic system (95). Previous studies have used a variety of strains and conditions to express recombinant cellulolytic enzymes, which is problematic since the impact of the secretion of recombinant proteins on gene expression is influenced by the genetic background of the host strains (79,96,97).…”

Heterologous expression of cellulase genes in natural Saccharomyces cerevisiae strains

“…Unlike the domesticated S. cerevisiae strains, environmental isolates are Some of these phenotypic differences observed in this study have been previously reported in the context of other studies (13,19,95,(97)(98)(99) Table 4A). …”

“…The supplementation with BGLs during hydrolysis, and removal of sugars during hydrolysis by ultra-filtration or SSF are some of the methods that have been developed to reduce inhibition of hydrolysis (94). Consolidated bio-processing (CBP) is one of the strategies that have been proposed as a solution to reduce enzyme cost contribution, whereby a single microorganism capable of both producing biomass hydrolysing enzymes and fermenting the released sugars to ethanol e.g., a fermentative microbe is engineered with a cellulolytic system (95). Previous studies have used a variety of strains and conditions to express recombinant cellulolytic enzymes, which is problematic since the impact of the secretion of recombinant proteins on gene expression is influenced by the genetic background of the host strains (79,96,97).…”

Heterologous expression of cellulase genes in natural Saccharomyces cerevisiae strains

“…Flocculation was estimated by suspending a 5‐mL pellet of yeast culture in Helm reagent. Then, OD was immediately measured (OD initial ) with a spectrophotometer and 1 hr after suspension (OD final ) to calculate the following: (Ramos et al., ). The killer phenotype was observed by the inhibition halos produced on plates of the sensitive Saccharomyces ATCC 38,626 strain (Lopes & Sangorrín, ).…”

Enological Qualities and Interactions Between Native Yeast and Lactic Acid Bacteria from Queretaro, Mexico

“…A productivity of 0.345 g/L/h was observed in this study. Ethanol productivities on other lignocellulosic substrates in the range of 0.25 to 1.01 g/L/h have been reported [35][36][37][38], further pointing to the relative higher potential of waste sorghum leaves for bioethanol production.…”

“…A productivity of 0.345 g/L/h was observed in this study. Ethanol productivities on other lignocellulosic substrates in the range of 0.25 to 1.01 g/L/h have been reported [35][36][37][38], further pointing to the relative higher potential of waste sorghum leaves for bioethanol production. The fitted regression curve exhibited an R 2 value of 0.98 and a correlation coefficient (r) of 0.99, suggesting that this model is able to efficiently describe bioethanol production during the fermentation of sorghum leaf wastes.…”

Kinetics of Bioethanol Production from Waste Sorghum Leaves Using Saccharomyces cerevisiae BY4743