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Kamal, M. (2019). Alcohol Fermentation Performance by Novel Genomic Recombinants of Saccharomyces cerevisiae. Journal of Agricultural Chemistry and Biotechnology, 10(12), 279-286. doi: 10.21608/jacb.2019.86875
Mervat I. Kamal. "Alcohol Fermentation Performance by Novel Genomic Recombinants of Saccharomyces cerevisiae". Journal of Agricultural Chemistry and Biotechnology, 10, 12, 2019, 279-286. doi: 10.21608/jacb.2019.86875
Kamal, M. (2019). 'Alcohol Fermentation Performance by Novel Genomic Recombinants of Saccharomyces cerevisiae', Journal of Agricultural Chemistry and Biotechnology, 10(12), pp. 279-286. doi: 10.21608/jacb.2019.86875
Kamal, M. Alcohol Fermentation Performance by Novel Genomic Recombinants of Saccharomyces cerevisiae. Journal of Agricultural Chemistry and Biotechnology, 2019; 10(12): 279-286. doi: 10.21608/jacb.2019.86875

Alcohol Fermentation Performance by Novel Genomic Recombinants of Saccharomyces cerevisiae

Article 6, Volume 10, Issue 12, December 2019, Page 279-286  XML PDF (590.25 K)
Document Type: Original Article
DOI: 10.21608/jacb.2019.86875
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Author
Mervat I. Kamal email
Department of Genetics , Faculty of Agriculture , Mansoura University.
Abstract
Thiswork aimed to describe fermentation characteristics of ethanol productivity by the hybrids of baker's yeast. In this study five parental isolates and 15 genotypic hybrids of Saccharomyces cerevisiae derived from three crosses were used for estimating fermentation characteristics during bioethanol production. At 0.02 concentration of sugarcane sub- products the hybrids of P1 x P4 increased turbidity and pH value above the mid–parent. In contrast, biomass formation showed decline production. However, at 0.04 and 0.06 sugarcane sub- products some of the hybrids increased significantly pH value above the mid–parent indicating that fermentation profile differs from one concentration of dissolved solids to another. However, ethanol productivity was affected mainly by low pH, high acidity, high alcohol content, high temperature and osmotic pressure. The low pH was the main stress factor on yeast during fermentation. Though, the hybrids derived from the cross between P2 x P5 significantly increased pH value above the mid – parent at 0.02 and 0.04 concentration of sugarcane sub–products. The yeast hybrids showed better turbidity and biomass formation at 0.02 concentration if compared with the mid–parents and the higher concentrations of sugarcane sub–products. Most hybrids derived from the cross between P3 x P5 showed significant pH values above the mid – parents at all concentrations of sugarcane sub- products. In addition, most hybrids showed significant turbidity above the mid – parents at 0.02 sub–products. However, insignificant differences were shown between yeast genotypes for turbidity and biomass formation at 0.04 and 0.06 concentration of dissolved solids. 
Keywords
Saccharomyces cerevisiae; hybrids genotypes; ethanol fermentation; biomass; pH; bioconversion; turbidity; sugarcane sub- products
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