Cloning and overexpression of the als, pfla, and adhb genes in streptococcus thermophilus and their effects on metabolite formation
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Date
2015-10
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Springernature
Abstract
Streptococcus thermophilus is a lactic acid bacterium and used as starter culture in the dairy industry, mainly in the manufacture of yoghurt, with Lactobacillus delbrueckii subsp. bulgaricus. It produces lactic acid as a major fermentation end product and some carbonyl compounds through sugar metabolism. The level of metabolites could be improved using molecular biotechnology. The genes of als, encoding alpha-acetolactate synthase (Als), the pflA, encoding pyruvate-formate lyase activating enzyme (PflA), and the adhB which encodes alcohol dehydrogenase (AdhB) of S. thermophilus NCFB2393 strain were amplified by polymerase chain reaction and separately cloned into the overexpression vector pNZ276 under the control of the lacA promoter. The strains were transformed individually with the constructed plasmids. Their abilities to generate important metabolites such as pyruvate, lactate, formate, acetaldehyde, acetoin, ethanol, and 2,3-butanediol in LM17 medium were analyzed using high-performance liquid chromatography. High level of 2,3-butanediol was obtained by overexpressing the als gene. The level of formate increased slightly by overexpressing the pflA gene. The overexpression of the adhB gene, on the other hand, resulted in a significant increase in the ethanol level.
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Keywords
Gene overexpression, Als, Pfla, Adhb, Metabolic pathways, Lactic-acid, Transconal regulation, Acetaldehyde production, Ruminal bacterium, Lyase, Biosynthesis, Expression, Sequence, Insights, Reveals, Biomolecules, Carbonyl compounds, Cloning, Encoding (symbols), Ethanol, High performance liquid chromatography, Lactic acid, Liquid chromatography, Metabolism, Metabolites, Polymerase chain reaction, Strain, Gene over-expression, Metabolic pathways, Genes
Citation
Akyol, I. vd. (2015). ''Cloning and overexpression of the als, pfla, and adhb genes in streptococcus thermophilus and their effects on metabolite formation''. Molecular Biotechnology, 57(10), 923-930.