スポンサーリンク
Department of Biotechnology, School of Engineering, Nagoya University | 論文
- Droplet-based gene expression analysis using a device with magnetic force-based-droplet-handling system(METHODS)
- Scale-up fermentation of echinocandin type antibiotic FR901379(BIOCHEMICAL ENGINEERING)
- Improvement of FR901379 production by mutant selection and medium optimization(BIOCHEMICAL ENGINEERING)
- Directed evolution of angiotensin II-inhibiting peptides using a microbead display(METHODS)
- Magnetic manipulation device for the optimization of cell processing conditions(MEDICAL BIOTECHNOLOGY)
- Practical cell labeling with magnetite cationic liposomes for cell manipulation(METHODS)
- FM-P40 Molecular analysis of cell surface components responsible for cell hydrophobicity of Pseudomonas sp. TIS1-127(Section VIII Fermentation and Microbial Technology)
- Effect of Global Transcriptional Regulators Related to Carbohydrate Metabolism on Organic Solvent Tolerance in Escherichia coli(BIOCHEMICAL ENGINEERING)
- The Effect of Bucolome, a CYP2C9 Inhibitor, on the Pharmacokinetics of Losartan
- Effect of Amiodarone on the Serum Concentration/Dose Ratio of Metoprolol in Patients with Cardiac Arrhythmia
- Prediction of Cibenzoline Dose from that of Digoxin
- Production of Recombinant Chicken IgY-Fc and Evaluation of Its Transport Ability into Avian Egg Yolks
- Directed evolution of angiotensin II-inhibiting peptides using a microbead display
- AN-P24 Magnetic manipulation device for the optimization of cell processing(Section I Animal and Plant Cell Cultures)
- Screening of Epithelial Cell-Adhesive Peptides from Fibronectin Loop Region and Its Cell Specificity
- A Motif Detection and Classification Method for Peptide Sequences Using Genetic Programming(BIOINFORMATICS)
- Mag-Seeding of Rat Bone Marrow Stromal Cells into Porous Hydroxyapatite Scaffolds for Bone Tissue Engineering(CELL AND TISSUE ENGINEERING)
- Effective Cell-Seeding Technique Using Magnetite Nanoparticles and Magnetic Force onto Decellularized Blood Vessels for Vascular Tissue Engineering(CELL AND TISSUE ENGINEERING)
- Gene Expression Property of High-Density Three-Dimensional Tissue of HepG2 Cells Formed in Radial-Flow Bioreactor(BIOINFORMATICS)
- Three-Dimensional High-Density Culture of HepG2 Cells in a 5-ml Radial-Flow Bioreactor for Construction of Artificial Liver(Biochemical Engineering)