Very high gravity ethanol and fatty acid production of Zymomonas mobilis without amino acid and vitamin

Very high gravity (VHG) fermentation is the mainstream technology in ethanol industry, which requires the strains be resistant to multiple stresses such as high glucose concentration, high ethanol concentration, high temperature and harsh acidic conditions. To our knowledge, it was not reported prev...

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Bibliographic Details
Published in:Journal of industrial microbiology & biotechnology 2016-06, Vol.43 (6), p.861-871
Main Authors: Wang, Haoyong, Cao, Shangzhi, Wang, William Tianshuo, Wang, Kaven Tianyv, Jia, Xianhui
Format: Article
Language:English
Subjects:
Acid production
Amino acids
Amino Acids - chemistry
Analysis
Bacteria
Bacterial Proteins - genetics
Bacterial Proteins - metabolism
Biochemistry
Biodiesel fuels
Bioinformatics
Biomass
Biomedical and Life Sciences
Biotechnology
Cloning
Culture Media - chemistry
DNA, Bacterial - genetics
E coli
Ethanol
Ethanol - metabolism
Fatty acids
Fatty Acids - biosynthesis
Fermentation
Genetic Engineering
Glucose
Glucose - chemistry
High temperature
Hot Temperature
Industrial Microbiology
Inorganic Chemistry
Laboratories
Life Sciences
Metabolic Engineering
Metabolic Engineering and Synthetic Biology
Microbiology
Middle schools
Productivity
Recombinant Proteins - genetics
Recombinant Proteins - metabolism
Studies
Vitamins - chemistry
Xylose - chemistry
Yeast
Zymomonas - genetics
Zymomonas - metabolism
Zymomonas mobilis
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Summary:Very high gravity (VHG) fermentation is the mainstream technology in ethanol industry, which requires the strains be resistant to multiple stresses such as high glucose concentration, high ethanol concentration, high temperature and harsh acidic conditions. To our knowledge, it was not reported previously that any ethanol-producing microbe showed a high performance in VHG fermentations without amino acid and vitamin. Here we demonstrate the engineering of a xylose utilizing recombinant Zymomonas mobilis for VHG ethanol fermentations. The recombinant strain can produce ethanol up to 136 g/L without amino acid and vitamin with a theoretical yield of 90 %, which is significantly superior to that produced by all the reported ethanol-producing strains. The intracellular fatty acids of the bacterial were about 16 % of the bacterial dry biomass, with the ratio of ethanol:fatty acids was about 273:1 (g/g). The recombinant strain was achieved by a multivariate-modular strategy tackles with the multiple stresses which are closely linked to the ethanol productivity of Z. mobilis . The over-expression of metB / yfdZ operon enabled the growth of the recombinant Z. mobilis in a chemically defined medium without amino acid and vitamin; and the fatty acids overproduction significantly increased ethanol tolerance and ethanol production. The coupled production of ethanol with fatty acids of the Z. mobilis without amino acid and vitamin under VHG fermentation conditions may permit a significant reduction of the production cost of ethanol and microbial fatty acids.
ISSN:1367-5435
1476-5535
DOI:10.1007/s10295-016-1761-7