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W2024183743 endingPage "644" @default.
W2024183743 startingPage "637" @default.
W2024183743 abstract "Metabolic engineering is a powerful biotechnological tool that finds, among others, increased use in constructing microbial strains for higher lactic acid productivity, lower costs and reduced pollution. Engineering the metabolic pathways has concentrated on improving the lactic acid fermentation parameters, enhancing the acid tolerance of production organisms and their abilities to utilize a broad range of substrates, including fermentable biomass-derived sugars. Recent efforts have focused on metabolic engineering of lactic acid bacteria as they produce high yields and have a small genome size that facilitates their genetic manipulation. We summarize here the current trends in metabolic engineering techniques and strategies for manipulating lactic acid producing organisms developed to address and overcome major challenges in the lactic acid production process." @default.
W2024183743 created "2016-06-24" @default.
W2024183743 creator A5045213367 @default.
W2024183743 creator A5058346231 @default.
W2024183743 creator A5061975983 @default.
W2024183743 date "2014-12-01" @default.
W2024183743 modified "2023-09-27" @default.
W2024183743 title "Metabolic engineering as a tool for enhanced lactic acid production" @default.
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W2024183743 cites W1964724723 @default.
W2024183743 cites W1964947381 @default.
W2024183743 cites W1966409692 @default.
W2024183743 cites W1974664624 @default.
W2024183743 cites W1976214150 @default.
W2024183743 cites W1979442370 @default.
W2024183743 cites W1980102624 @default.
W2024183743 cites W1981841433 @default.
W2024183743 cites W1982201259 @default.
W2024183743 cites W1984020817 @default.
W2024183743 cites W1989004752 @default.
W2024183743 cites W1989860724 @default.
W2024183743 cites W1989922653 @default.
W2024183743 cites W1995963564 @default.
W2024183743 cites W2005352626 @default.
W2024183743 cites W2005840419 @default.
W2024183743 cites W2011147976 @default.
W2024183743 cites W2011851607 @default.
W2024183743 cites W2018921130 @default.
W2024183743 cites W2018978350 @default.
W2024183743 cites W2020468292 @default.
W2024183743 cites W2022412125 @default.
W2024183743 cites W2024035255 @default.
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W2024183743 cites W2030279246 @default.
W2024183743 cites W2033064993 @default.
W2024183743 cites W2033403103 @default.
W2024183743 cites W2039005956 @default.
W2024183743 cites W2041987838 @default.
W2024183743 cites W2051736420 @default.
W2024183743 cites W2054179581 @default.
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W2024183743 cites W2072183133 @default.
W2024183743 cites W2073668475 @default.
W2024183743 cites W2074386261 @default.
W2024183743 cites W2082032900 @default.
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W2024183743 doi "https://doi.org/10.1016/j.tibtech.2014.10.005" @default.
W2024183743 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/25457813" @default.
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