| scholarly article | Q13442814 |
| P50 | author | Alfred Pühler | Q1488595 |
| Jörn Kalinowski | Q30420819 | ||
| Veronika Elišáková | Q80265617 | ||
| Andreas Tauch | Q108009077 | ||
| P2093 | author name string | Iris Brune | |
| Miroslav Pátek | |||
| Nic D Lindley | |||
| Christophe Chassagnole | |||
| Andrea T Hüser | |||
| Armel Guyonvarch | |||
| Muriel Merkamm | |||
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| The alanine racemase gene alr is an alternative to antibiotic resistance genes in cloning systems for industrial Corynebacterium glutamicum strains | Q44120600 | ||
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| 3-Phosphoglycerate dehydrogenase from Corynebacterium glutamicum: the C-terminal domain is not essential for activity but is required for inhibition by L-serine | Q44238970 | ||
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| Characterisation of the enzyme activities involved in the valine biosynthetic pathway in a valine-producing strain of Corynebacterium glutamicum | Q44568868 | ||
| Development of a Corynebacterium glutamicum DNA microarray and validation by genome-wide expression profiling during growth with propionate as carbon source | Q44677457 | ||
| Chaotic mixer improves microarray hybridization | Q47233156 | ||
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| THE RELATIONSHIPS BETWEEN SUBSTRATES AND ENZYMES OF GLYCOLYSIS IN BRAIN | Q51279814 | ||
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| Two families of acyl-CoA thioesterases in Arabidopsis | Q73425215 | ||
| P433 | issue | 6 | |
| P407 | language of work or name | English | Q1860 |
| P921 | main subject | Corynebacterium glutamicum | Q292314 |
| P304 | page(s) | 3255-3268 | |
| P577 | publication date | 2005-06-01 | |
| P1433 | published in | Applied and Environmental Microbiology | Q4781593 |
| P1476 | title | Rational design of a Corynebacterium glutamicum pantothenate production strain and its characterization by metabolic flux analysis and genome-wide transcriptional profiling | |
| P478 | volume | 71 |
| Q35561910 | Advanced biotechnology: metabolically engineered cells for the bio-based production of chemicals and fuels, materials, and health-care products |
| Q37108988 | Biosynthesis of Pantothenic Acid and Coenzyme A. |
| Q51095296 | Branched-Chain Amino Acids. |
| Q51095298 | Corynebacterium glutamicum for Sustainable Bioproduction: From Metabolic Physiology to Systems Metabolic Engineering. |
| Q38072991 | Corynebacterium glutamicum promoters: a practical approach |
| Q30484850 | Deletion of cgR_1596 and cgR_2070, encoding NlpC/P60 proteins, causes a defect in cell separation in Corynebacterium glutamicum R. |
| Q38555542 | Engineering microbial cell factories: Metabolic engineering of Corynebacterium glutamicum with a focus on non-natural products. |
| Q37797927 | Engineering of nitrogen metabolism and its regulation in Corynebacterium glutamicum: influence on amino acid pools and production |
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| Q35762068 | Metabolic engineering of Escherichia coli for the production of L-valine based on transcriptome analysis and in silico gene knockout simulation |
| Q40333389 | Metabolic pathway analysis for rational design of L-methionine production by Escherichia coli and Corynebacterium glutamicum |
| Q90385075 | Metabolically engineered Corynebacterium glutamicum for bio-based production of chemicals, fuels, materials, and healthcare products |
| Q38356748 | Microarray studies reveal a 'differential response' to moderate or severe heat shock of the HrcA- and HspR-dependent systems in Corynebacterium glutamicum |
| Q51095288 | Microbial Production of Amino Acid-Related Compounds. |
| Q64053935 | Modular systems metabolic engineering enables balancing of relevant pathways for l-histidine production with |
| Q33394031 | Response of the cytoplasmic and membrane proteome of Corynebacterium glutamicum ATCC 13032 to pH changes |
| Q37868995 | Tools for genetic manipulations in Corynebacterium glutamicum and their applications |
| Q36000781 | Transcriptional Regulation of the β-Type Carbonic Anhydrase Gene bca by RamA in Corynebacterium glutamicum |
| Q57041894 | Transcriptional regulation of the desferrioxamine gene cluster of Streptomyces coelicolor is mediated by binding of DmdR1 to an iron box in the promoter of the desA gene |
| Q50864238 | l-Lysine production independent of the oxidative pentose phosphate pathway by Corynebacterium glutamicum with the Streptococcus mutans gapN gene. |
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