Stoichiometric network constraints on xylose metabolism by recombinant Saccharomyces cerevisiae

Medicine & Life Sciences

• Xylose 86%
• Saccharomyces cerevisiae 60%
• Yeasts 35%
• Ethanol 27%
• Oxygen 23%
• Fermentation 23%
• Metabolic Networks and Pathways 21%
• D-Xylulose Reductase 19%
• xylose-glucose 16%
• Xylitol 15%
• Metabolic Engineering 14%
• Aldehyde Reductase 14%
• Hexoses 14%
• Pichia 13%
• Thermodynamics 13%
• Phenotype 13%
• Carbon 10%
• Oxidation-Reduction 10%
• Computer Simulation 10%
• Biochemistry 9%
• Genes 8%
• Electrons 8%
• Glucose 6%
• Growth 5%

Engineering & Materials Science

• Xylose 100%
• Metabolism 82%
• Yeast 77%
• Oxidoreductases 24%
• Metabolic Networks and Pathways 22%
• Fluxes 19%
• Glucose 18%
• Fermentation 18%
• Genes 15%
• Biochemistry 11%
• Cell growth 11%
• Oxidation-Reduction 10%
• Electrons 8%
• Thermodynamics 6%
• Carbon 6%
• Availability 5%
• Experiments 2%

Chemical Compounds

• Xylose 76%
• Xylitol 25%
• Metabolic 22%
• Ethanol 18%
• Glucose 13%
• Hexose 11%
• Cofactor 8%
• Electron Particle 5%
• Carbon Atom 4%
• Reaction Yield 3%