1. | 강의 소개 및 측정과 단위 | 의약바이오 산업에서 의약품 분석 기술의 습득 및 개발은 매우 중요한 부분을 차지하고 있다. 본 강의 에서는 의약품에 관한 기본 성질을 배우고 의약품 분석에 필요한 기본적인 기술을 배우게 된다. |
||
2. | 의약품개발에 있어 분석화학의 중요성 | 1. 지구둘레와 단위에 대해 알아보자 2. 유효숫자 및 오차에 대해 알아보자 |
||
3. | Introduction to biomolecules, Analysis and quantification of biomolecules | 1. 단백질 의약품에 대해 알아보자. 2. 생체분자에 대해 알아보자. |
||
4. | Transition metals in health and disease, Ions, electrodes and biosensors | 1. Analysis and quantification of biomolecules 2. Transition metals in health and disease |
||
5. | Applications of spectroscopy | Ions, electrodes and biosensors - Impact of ions and oxidation - pH, biochemical buffers and physiological regulation - 4.3 Chenical and physical sensors and biosensors |
||
6. | Centrifugation and separation | * Applications of Spectroscopy - An introduction to spectroscopic techniques - Major types of spectroscopy - Principles and applications |
||
7. | Chromatography of biomolecules | * Chromatography of biomolecules - Chromatography : a key method for separation and identification of biomolecules - Principles, types and modes of chromatography |
||
8. | 중간고사 | |||
9. | Principles and applications of electrophoresis | - Principles and applications of electrophoresis - Principles and theory of electrophorestic separation - Major types of electrophoresis - electrophoresisin pratice - Applications of electrophoresis in life and health sciences - Advanced electrophoretic separation - methodologies for genomics and proteomics |
||
10. | Applications of mass spectrometry | -Applications of mass spectrometry -Major types of mass specterometry -Understanding the core principles of mass spectrometry -Major types of mass spectrometry in practice |
||
11. | Immunochemical techniques and biological tracers | 1. Immunochmeical 2. Antibodies 3. Radioimmunoassay 4. Immunosorbent assay 5. Immunohistichemistry |
||
12. | Bioanalysis by magnetic resonance technologies: NMR and MRI | 1. NMR and MRI technologies : Key tools or the life and health sciences 2. Principles of NMR and the importance of this biomeolecular analytical technique 3. Estavlished and emerging applications of NMR 4. Principles and uses of MRI 5. MRI as a principal siagnostic and research tool |
||
13. | 외부강사 | 1. 신의약개발 (항생제) 2. 신의약 후보 물질합성 3. 화합물 분석 방법 4. 핵자기공명 분광법 |
||
14. | Bioanalytical approaches from diagnostic, research and pharmaceutical perspectives (1) | 1. Bioanalytical approaches from diagnostic, research and pharmaceutical perspective 2. Clinical genomics, proteomics and metabolomics 3. Clinical diagnosis and screening 4. Research and development 5. Emerging pharmaceutical products 6. Future perspectives |
||
15. | Bioanalytical approaches from diagnostic, research and pharmaceutical perspectives (2) | |||
16. | Bioanalytical approaches from diagnostic, research and pharmaceutical perspectives (3) |