Font Size: a A A
Keyword [NADPH]
Result: 21 - 40 | Page: 2 of 3
21. Tuning Cellular Oxidative Stress By Diversifying Gold Nanoparticles’ Surface Properties
22. Strengthening NADPH Bioavailability Through Metabolic Regulation In Recombinant E.coli And Its Application In The Synthesis Of Chiral Alcohols
23. Construction Of CRISPR System And Screening NADPH Supply Pathways In Mortierella Alpina
24. Further Improvement Of E.coli IS5-d For Xylitol Production Via CRP Mutation And Enhancement Of NADPH Regeneration
25. Regulation Of MTHFD On Fatty Acid Synthesis In Mortierella Alpina
26. Metabolic Engineering Of Corynebacterium Glutamicum For Improved Cofactor Supply And For L-arginine Synthesis
27. Preliminary Mechnism Study On Fatty Acid Ester Triggering Corynebacterium Crenatum L-arginine Overproduction
28. Study Of Whole-cell Biocatalysis For ε-caprolactone Production In Escherichia Coli
29. Construction Of EP-bifido Pathway In E.coli For Efficient Production Of AcCoA Derivatives
30. Engineering and analysis of cofactor partitioning for NADPH-dependent xylitol production in Escherichia coli
31. Kinetic studies of saccharopine reductase from Saccharomyces cerevisiae
32. Studies of photoheterotrophic degradation of acrylamide and carboxylation of 2-ketopropyl-coenzyme M by NADPH-2-ketopropyl-coenzyme M oxidoreductase/carboxylase
33. Improving the efficiency of nadph-dependent xylitol production in engineered escherichia coli
34. Production of recombinant NADPH: 2-ketopropyl-coenzyme M oxidoreductase/carboxylase
35. Metabolic Engineering and Transhydrogenase Effects on NADPH Availability in Escherichia coli
36. Contributions of Q67 and Y69 residues to ligand binding and catalysis in R67 dihydrofolate reductase
37. Role of ionic interactions in the catalytic mechanism of R67 dihydrofolate reductase
38. Intermediates in isoprenoid biosynthesis
39. Effects of chlorothalonil on phagocyte function in fish (Morone saxatilis and Fundulus heteroclitus) and oysters (Crassostrea virginica): Mechanisms of immunotoxicity
40. Effects And Molecular Mechanism Of Reactive Oxygen Species On The Growth And Lipid Production Of Chlorella Pyrenoidosa
  <<First  <Prev  Next>  Last>>  Jump to