The effects of thermal and ethanolic stress in industrial strains of  Saccharomyces cerevisiae

Mueller, Larissa Pires; Santos, Maria do Socorro Mascarenhas; Cardoso, Cláudia Andréa Lima

doi:10.33448/rsd-v9i10.9091

Cited by 4 publications

(4 citation statements)

References 30 publications

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“…whereas, a study on S. frugiperda reported that, the persistent effect can be observed up to F 2 generation 36 . Cell damage was evident when Saccharomyces cerevisiae was exposed to higher temperature, resulting reduction in ethanol production 41 . Therefore, insects can alleviate the thermal stress and steadily recover over generations by compromising some developmental traits 39 .…”

Section: Discussionmentioning

confidence: 99%

Effect of temperature on the biological parameters of pink bollworm, Pectinophora gossypiella Saunders (Lepidoptera: Gelechiidae)

Nagaraju,

Mohan,

Keerthi

et al. 2024

Sci Rep

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Pink bollworm (PBW) Pectinophora gossypiella is an important pest cotton worldwide. There are multiple factors which determines the occurrence and distribution of P. gossypiella across different cotton growing regions of the world, and one such key factor is ‘temperature’. The aim was to analyze the life history traits of PBW across varying temperature conditions. We systematically explored the biological and demographic parameters of P. gossypiella at five distinct temperatures; 20, 25, 30, 35 and 40 ± 1 °C maintaining a photoperiod of LD 16:8 h. The results revealed that the total developmental period of PBW shortens with rising temperatures, and the highest larval survival rates were observed between 30 °C and 35 °C, reaching 86.66% and 80.67%, respectively. Moreover, significant impacts were observed as the pupal weight, percent mating success, and fecundity exhibited higher values at 30 °C and 35 °C. Conversely, percent egg hatching, larval survival, and adult emergence were notably lower at 20 °C and 40 °C, respectively. Adult longevity decreased with rising temperatures, with females outliving males across all treatments. Notably, thermal stress had a persistent effect on the F1 generation, significantly affecting immature stages (egg and larvae), while its impact on reproductive potential was minimal. These findings offer valuable insights for predicting the population dynamics of P. gossypiella at the field level and developing climate-resilient management strategies in cotton.

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Section: Discussionmentioning

confidence: 99%

Effect of temperature on the biological parameters of pink bollworm, Pectinophora gossypiella Saunders (Lepidoptera: Gelechiidae)

Nagaraju,

Mohan,

Keerthi

et al. 2024

Sci Rep

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“…Molecular Physiology of the Cell, Université Libre de Bruxelles (ULB), Biopark, Gosselies, Belgium. 2 Syngulon, Seraing, Belgium. 3 BRALim (Brewing and Food Sciences), LABIRIS, Brussels, Belgium.…”

Section: Openmentioning

confidence: 99%

“…Bioethanol is the biofuel most used worldwide in the transportation sector, its production having increased regularly since the early nineties 1 . In 2020, the USA and Brazil accounted, respectively, for 53% and 30% of global biofuel production 2 . Bioethanol is produced from a wide variety of renewable resources (feedstocks), and the yeast Saccharomyces cerevisiae is by far the microorganism most frequently used to carry out the biological process exploited in industrial-scale ethanol production, thanks to its unmatched ethanol yield (> 90%), productivity (> 1 g.L −1 .h −1 ), and tolerance (> 40 g.L −1 ) and its ability to ferment a wide range of sugars 1 .…”

Section: Introductionmentioning

confidence: 99%

Deletion of QDR genes in a bioethanol-producing yeast strain reduces propagation of contaminating lactic acid bacteria

Kapetanakis

Sousa

Felten

et al. 2023

Sci Rep

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Bacterial contaminations in yeast fermentation tanks are a recurring problem for the bioethanol production industry. Lactic acid bacteria (LAB), particularly of the genus Lactobacillus, are the most common contaminants. Their proliferation can reduce fermentation efficiency or even impose premature shutdown for cleaning. We have previously reported that laboratory yeast strains naturally excrete amino acids via transporters of the Drug: H+ Antiporter-1 (DHA1) family. This excretion allows yeast to cross-feed LAB, which are most often unable to grow without an external amino acid supply. Whether industrial yeast strains used in bioethanol production likewise promote LAB proliferation through cross-feeding has not been investigated. In this study, we first show that the yeast strain Ethanol Red used in ethanol production supports growth of Lactobacillus fermentum in an amino-acid-free synthetic medium. This effect was markedly reduced upon homozygous deletion of the QDR3 gene encoding a DHA1-family amino acid exporter. We further show that cultivation of Ethanol Red in a nonsterile sugarcane-molasses-based medium is associated with an increase in lactic acid due to LAB growth. When Ethanol Red lacked the QDR1, QDR2, and QDR3 genes, this lactic acid production was not observed and ethanol production was not significantly reduced. Our results indicate that Ethanol Red cultivated in synthetic or molasses medium sustains LAB proliferation in a manner that depends on its ability to excrete amino acids via Qdr transporters. They further suggest that using mutant industrial yeast derivatives lacking DHA1-family amino acid exporters may be a way to reduce the risk of bacterial contaminations during fermentation.

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“…For Cruz et al (2015), different temperatures distinctly affect the metabolic activity and growth of yeast, thus constituting one of the factors that can interfere in the fermentation process, as they present their metabolic efficiency between 25 °C and 30 °C (Sousa & Monteiro, 2012). Studies developed by Mueller et al (2020) comparing the physiological response of Fleischmann®, Pedra-2 and FT858 yeasts in fermentation medium containing different concentrations of ethanol (5, 10 and 15%) and at temperatures of 30 °C and 40 °C. They observed that the higher temperature interfered with the growth of yeast colonies and that, when associated with a higher concentration of ethanol, this inhibition was more effective and that the synergism of stress factors can lead to cell death.…”

Section: The Effect Of Temperature and Ph On Cell Growth Of Yeast Isolatesmentioning

confidence: 99%

Analysis of the fermentative profile of yeasts isolated from natural sources

Santos

Silva

Santos

2021

RSD

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The natural environment aggregates an immense amount of microorganisms, some unknown and others still unexplored and that may have the potential for the production of compounds. Thus, this study aims to evaluate the fermentative profile of isolates from natural sources under different growing conditions. For this purpose, the plating performing on a 2% YPD solid medium incubating in an oven at 30 °C. The isolated colonies use for the carbon source assimilation test, which carried out through cell growth. Carrying out in test tubes containing the YP fermentative added with carbon sources (glucose, lactose, sucrose, fructose, mannose, maltose, starch) with a concentration of 17 ºBrix, at pH 4 and 6, incubated at 28 and 35 ºC and at different times of cultivation, aliquots removed for analysis. For the control, the yeast Catanduva-1 was used. The isolates grew in the range of pH 4 and pH 6 at 28 ºC and isolate A4 showed greater growth at a temperature of 35 °C. Isolates A4, A5, and A6 used most sugars except for lactose. Isolate A2 assimilated glucose and fructose and A6 showed a fermentation profile similar to standard yeast.

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The effects of thermal and ethanolic stress in industrial strains of Saccharomyces cerevisiae

Cited by 4 publications

References 30 publications

Effect of temperature on the biological parameters of pink bollworm, Pectinophora gossypiella Saunders (Lepidoptera: Gelechiidae)

Effect of temperature on the biological parameters of pink bollworm, Pectinophora gossypiella Saunders (Lepidoptera: Gelechiidae)

Deletion of QDR genes in a bioethanol-producing yeast strain reduces propagation of contaminating lactic acid bacteria

Analysis of the fermentative profile of yeasts isolated from natural sources

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