Production of ethanol and arabitol by Debaryomyces nepalensis : influence of process parameters
TLDR
Debaryomyces nepalensis, osmotolerant yeast isolated from rotten apple, is known to utilize both hexoses and pentoses and produce industrially important metabolites like ethanol, xylitol and arabitol.Abstract:
Debaryomyces nepalensis, osmotolerant yeast isolated from rotten apple, is known to utilize both hexoses and pentoses and produce industrially important metabolites like ethanol, xylitol and arabitol. In the present study, the effect of different growth substrates, trace elements, nitrogen concentration and initial pH on growth and formation of ethanol and arabitol were examined. Optimum conditions for maximizing the product yields were established: glucose as carbon source, an initial pH of 6.0, 6 g/L of ammonium sulphate and addition of micronutrients. Under these best suited conditions, a concentration of 11g/L of arabitol and 19 g/L of ethanol was obtained in shake flask fermentations. The fermentation was scaled up to 2.5 L bioreactor and the influence of aeration, agitation and initial substrate concentration was also determined. Under optimal conditions (150 g/L glucose, 400 rpm and 0.5 vvm) ethanol concentration reached 52 g/L, which corresponds to a yield of 0.34 g/g and volumetric productivity of 0.28 g/L/h, whereas arabitol production reached a maximum of 14 g/L with a yield and volumetric productivity of 0.1 g/g and 0.07 g/L/h respectively.read more
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Production of arabitol by yeasts: current status and future prospects
TL;DR: The present review discusses research on native yeasts from the genera Candida, Pichia, Debaryomyces and Zygosaccharomyces as well as genetically modified strains of SacCharomyces cerevisiae which are able to utilize biomass hydrolysates to effectively produce l‐ or d‐arabitol.
Journal ArticleDOI
Artificial neural network and regression coupled genetic algorithm to optimize parameters for enhanced xylitol production by Debaryomyces nepalensis in bioreactor
TL;DR: In this paper, a multi-layer feed forward neural network (ANN) of 5-10-2 topology has been developed to predict the xylitol production and genetic algorithm (GA) was used to find the optimum parameters to enhance xylanol production.
Journal ArticleDOI
Isolation, identification and screening of yeasts towards their ability to assimilate biodiesel-derived crude glycerol: microbial production of polyols, endopolysaccharides and lipid.
Rosanina Filippousi,Dimitrios Antoniou,Paschalitsa Tryfinopoulou,Aspasia Nisiotou,George-John E. Nychas,Apostolis A. Koutinas,Seraphim Papanikolaou +6 more
TL;DR: To assess the ability of various newly isolated or belonging yeast strains to convert biodiesel‐derived glycerol (Gly) into added‐value compounds, yeast strains from official collections are tested.
Journal ArticleDOI
Production of arabitol from enzymatic hydrolysate of soybean flour by Debaryomyces hansenii fermentation
TL;DR: Arabitol yield increased with increasing C/N ratio and a high I/O-N, suggesting higher yield at stationary phase of low pH, and catabolite repression was observed, with the following order of consumption: glucose > fructose > galactose > xylose > arabinose.
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Enhanced d-arabitol production by Zygosaccharomyces rouxii JM-C46: isolation of strains and process of repeated-batch fermentation
TL;DR: A new strain producing high yield of d-arabitol was isolated from hyperosmotic environments and the ITS rDNA sequencing analysis revealed it as Zygosaccharomyces rouxii JM-C46, which has potential to be used for d-Arabitol and xylitol production from glucose via d-ARabitol route.
References
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Production of d -arabitol by a newly isolated Kodamaea ohmeri
TL;DR: Semi-continuous repeated-batch fermentation was performed in shaker-flasks to enhance the process of d-arabitol production by Kodamaea ohmeri NH-9 from d-glucose, resulting in the highest volumetric productivity.
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Fermentation of biomass sugars to ethanol using native industrial yeast strains.
TL;DR: The feasibility of a technology for fermenting sugar mixtures representative of cellulosic biomass hydrolyzates with native industrial yeast strains is demonstrated and Saccharomyces cerevisiae strains from the corn-ethanol industry were used and shown to be very effective in implementation of the technology for ethanol production.