| scholarly article | Q13442814 |
| P356 | DOI | 10.1038/NRMICRO1319 |
| P8608 | Fatcat ID | release_o6fmnqm44bdbfencrbsmbdubca |
| P698 | PubMed publication ID | 16357860 |
| P5875 | ResearchGate publication ID | 7412128 |
| P2093 | author name string | Eddy J Smid | |
| Bas Teusink | |||
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| Network component analysis: reconstruction of regulatory signals in biological systems | Q34788818 | ||
| Metabolic engineering of lactic acid bacteria for the production of nutraceuticals | Q34944751 | ||
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| Anaerobic sugar catabolism in Lactococcus lactis: genetic regulation and enzyme control over pathway flux | Q34968176 | ||
| Genotype-phenotype mapping: genes as computer programs | Q34987779 | ||
| The lactic acid bacteria: a literature survey | Q35052749 | ||
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| Engineering metabolic highways in Lactococci and other lactic acid bacteria | Q35646100 | ||
| High-throughput phenomics: experimental methods for mapping fluxomes | Q35753254 | ||
| Use of genome-scale microbial models for metabolic engineering | Q35753258 | ||
| Analyzing cellular biochemistry in terms of molecular networks | Q35800024 | ||
| Pyruvate formate-lyase activating enzyme: elucidation of a novel mechanism for glycyl radical formation | Q35974374 | ||
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| Lactococcus lactis as a cell factory for high-level diacetyl production | Q39487566 | ||
| Spontaneous formation of a mannitol-producing variant of Leuconostoc pseudomesenteroides grown in the presence of fructose | Q39491449 | ||
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| Effect of different NADH oxidase levels on glucose metabolism by Lactococcus lactis: kinetics of intracellular metabolite pools determined by in vivo nuclear magnetic resonance | Q39676668 | ||
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| Engineering of carbon distribution between glycolysis and sugar nucleotide biosynthesis in Lactococcus lactis | Q39708651 | ||
| IS981-mediated adaptive evolution recovers lactate production by ldhB transcription activation in a lactate dehydrogenase-deficient strain of Lactococcus lactis | Q39791409 | ||
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| Lactate dehydrogenase has no control on lactate production but has a strong negative control on formate production in Lactococcus lactis | Q43817972 | ||
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| Conversion of Lactococcus lactis from homolactic to homoalanine fermentation through metabolic engineering | Q47952252 | ||
| P433 | issue | 1 | |
| P407 | language of work or name | English | Q1860 |
| P921 | main subject | lactic acid bacteria | Q13360072 |
| P304 | page(s) | 46-56 | |
| P577 | publication date | 2006-01-01 | |
| P13046 | publication type of scholarly work | review article | Q7318358 |
| P1433 | published in | Nature Reviews Microbiology | Q1071797 |
| P1476 | title | Modelling strategies for the industrial exploitation of lactic acid bacteria | |
| P478 | volume | 4 |
| Q37210415 | A critical view of metabolic network adaptations |
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| Q92480864 | A systematic assessment of current genome-scale metabolic reconstruction tools |
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| Q51114019 | Analysis of growth of Lactobacillus plantarum WCFS1 on a complex medium using a genome-scale metabolic model |
| Q37712802 | Anti-infective activities of lactobacillus strains in the human intestinal microbiota: from probiotics to gastrointestinal anti-infectious biotherapeutic agents |
| Q41971637 | CRISPR-Cas9-assisted recombineering in Lactobacillus reuteri |
| Q92831110 | CRISPR/Cas9-Assisted Seamless Genome Editing in Lactobacillus plantarum and Its Application in N-Acetylglucosamine Production |
| Q40324335 | CcpA affects expression of the groESL and dnaK operons in Lactobacillus plantarum |
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| Q51449620 | Combining metabolic engineering and biocompatible chemistry for high-yield production of homo-diacetyl and homo-(S,S)-2,3-butanediol. |
| Q38479640 | Comparison of quenching and extraction methodologies for metabolome analysis of Lactobacillus plantarum |
| Q52626796 | Constraint-based modeling in microbial food biotechnology. |
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| Q28475065 | Evaluation and characterization of bacterial metabolic dynamics with a novel profiling technique, real-time metabolotyping |
| Q35571447 | Evolution of D-lactate dehydrogenase activity from glycerol dehydrogenase and its utility for D-lactate production from lignocellulose |
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| Q34086901 | Functional Genomics for Food Fermentation Processes |
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| Q35596545 | Interplay between constraints, objectives, and optimality for genome-scale stoichiometric models |
| Q34429462 | Lactobacillus rhamnosus accelerates zebrafish backbone calcification and gonadal differentiation through effects on the GnRH and IGF systems |
| Q38039368 | Metabolic shifts: a fitness perspective for microbial cell factories |
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| Q28543399 | Monte-Carlo modeling of the central carbon metabolism of Lactococcus lactis: insights into metabolic regulation |
| Q39433303 | More than just a gut feeling: constraint-based genome-scale metabolic models for predicting functions of human intestinal microbes |
| Q42101147 | Optimal flux spaces of genome-scale stoichiometric models are determined by a few subnetworks |
| Q41875215 | Optimality principles in the regulation of metabolic networks |
| Q35717195 | Oral Administration of Lactococcus lactis Expressing Synthetic Genes of Myelin Antigens in Decreasing Experimental Autoimmune Encephalomyelitis in Rats |
| Q93054828 | Recent Advances of L-ornithine Biosynthesis in Metabolically Engineered Corynebacterium glutamicum |
| Q39654760 | Stimulation of acetoin production in metabolically engineered Lactococcus lactis by increasing ATP demand |
| Q28655686 | Synechocystis: Not Just a Plug-Bug for CO2, but a Green E. coli |
| Q51304212 | Systematic development and optimization of chemically defined medium supporting high cell density growth of Bacillus coagulans |
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| Q37945326 | Systems solutions by lactic acid bacteria: from paradigms to practice |
| Q97094544 | Traditional Balkan fermented milk products |
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