Molecular biology is the study of understanding and explaining biological phenomena at the molecular level. Molecular biology
is a branch of biology that has developed on the basis of microbiology, biochemistry, and genetics. Based on this molecular
(cellular) biology, biotechnology (technology to apply living organisms, bioengineering) such as biomacromolecular engineering
(genetic engineering, protein engineering, enzyme engineering, glycoscience, lipid engineering) has been rapidly developed,
and has greatly contributed to the development of industry, the environment, medicine and pharmaceuticals (pharmacology, etc.),
agriculture and food. The goal of this lecture is to enable students to understand and explain life at the molecular level.
Molecular biology is the basis of biotechnology (technology that applies living organisms, biomacromolecular engineering,
etc.) and contributes greatly to the development of industry, the environment, medicine and pharmaceuticals (pharmacology,
etc.), agriculture and food. The purpose of this course is to provide students with a broad understanding of the fundamentals
of molecular biology (discovery, biomolecules, blueprints, replication, transcription, translation, expression, etc.), which
is based on microbiology and biochemistry, as well as the fundamentals of genetic engineering, which is a direct engineering
application of molecular (cell) biology. In addition, students will learn the basics of genetic engineering, which is a direct
engineering application of molecular (cell) biology.
- Understand and explain the roles and relationships of DNA, RNA, and proteins in the body.
- Explain how DNA is replicated, how RNA is transcribed from DNA, and how RNA is translated into protein.
- Explain the relationship between DNA mutation and evolution with specific examples.
- Explain to experimental methods and procedures for gene cloning and protein expression.
| Class schedule | HW assignments (Including preparation and review of the class.) | Amount of Time Required | |
|---|---|---|---|
| 1. | Cells and Genomes | Prepare and review the textbook chapter 1 and distribution print | 150minutes |
| Review of the small test | 30minutes | ||
| 2. | Information polymers (1) Nucleic acids | Prepare and review the textbook chapter 2 and distribution print | 150minutes |
| Review of the small test | 30minutes | ||
| 3. | Information polymers (2) Proteins | Prepare and review the textbook chapter 2 and distribution print | 150minutes |
| Review of the small test | 30minutes | ||
| 4. | Eukaryotic genomes | Prepare and review the textbook chapter 3 and distribution print | 150minutes |
| Review of the small test | 30minutes | ||
| 5. | Prokaryotic genomes | Prepare and review the textbook chapter 32 and distribution print | 150minutes |
| Review of the small test | 30minutes | ||
| 6. | DNA replication | Prepare and review the textbook chapter 4 and distribution print | 150minutes |
| Review of the small test | 30minutes | ||
| 7. | Midterm exam and commentary | Prepare and review the textbook chapter 1~4 and distribution print | 360minutes |
| 8. | Transcription and transcriptional regulation | Prepare and review the textbook chapter 5 and distribution print | 150minutes |
| Review of the small test | 30minutes | ||
| 9. | Post-transcriptional processing | Prepare and review the textbook chapter 5 and distribution print | 150minutes |
| Review of the small test | 30minutes | ||
| 10. | Translation | Prepare and review the textbook chapter 6 and distribution print | 150minutes |
| Review of the small test | 30minutes | ||
| 11. | DNA mutation and evolution | Prepare and review the textbook chapter 7 and distribution print | 150minutes |
| Review of the small test | 30minutes | ||
| 12. | Basics of genetic engineering (1): cloning, restriction enzymes, PCR | Prepare and review the textbook chapter 8 and distribution print | 150minutes |
| Review of the small test | 30minutes | ||
| 13. | Basics of genetic engineering (2): DNA analysis methods, expression of recombinant proteins | Prepare and review the textbook chapter 8 and distribution print | 150minutes |
| Review of the small test | 30minutes | ||
| 14. | Final exam and commentary | Prepare and review the textbook chapter 5~8 and distribution print | 360minutes |
| Total. | - | - | 2880minutes |
| Midterm exam | Final exam | Small test | Total. | |
|---|---|---|---|---|
| 1. | 10% | 10% | 5% | 25% |
| 2. | 10% | 10% | 5% | 25% |
| 3. | 10% | 10% | 5% | 25% |
| 4. | 10% | 10% | 5% | 25% |
| Total. | 40% | 40% | 20% | - |
Evaluate at a total score of 100 points including 40 midterm exams, 40 final exams, and 20 small tests, and pass at least
60%. 60% of the total point is the level that can understand the contents of textbooks and lecture distribution prints and
explain the contents to other people.
In the class, PPT materials will be distributed and several textbooks will be extensively explained. Students are encouraged
to select a book that suits their level and interest.
Textbook: (1) Molecular Biology (Kodansha, by Masato Ikegami and Mitsuru Ebihara) (for beginners)
(2) Bruce Alberts et al. "Essential Cell Biology", 4th edition [Nanjiang-do], chapters 1-10. Chapters 1-10. (For intermediate level)
(3) Keiko Nakamura and Kenichi Matsubara (translators), THE CELL: Molecular Biology of the Cell, 6th edition, Newton Press. (For advanced students)
Reference books: (1) Akihiko Kondo and Seiji Shibasaki, Genetic Engineering (Basic Biology Text Series 10), Kagaku Dojin, Tokyo.
(2)Keiko Nakamura, Molecular Biology of the Watson Gene, 7th edition, Tokyo Denki University Press.
Textbook: (1) Molecular Biology (Kodansha, by Masato Ikegami and Mitsuru Ebihara) (for beginners)
(2) Bruce Alberts et al. "Essential Cell Biology", 4th edition [Nanjiang-do], chapters 1-10. Chapters 1-10. (For intermediate level)
(3) Keiko Nakamura and Kenichi Matsubara (translators), THE CELL: Molecular Biology of the Cell, 6th edition, Newton Press. (For advanced students)
Reference books: (1) Akihiko Kondo and Seiji Shibasaki, Genetic Engineering (Basic Biology Text Series 10), Kagaku Dojin, Tokyo.
(2)Keiko Nakamura, Molecular Biology of the Watson Gene, 7th edition, Tokyo Denki University Press.
- Tuesday and Wednesday lunch break, 1 hour after class
- When you visit, please contact (e-mail etc) in advance
- Course that cultivates an ability for utilizing knowledge
- Course that cultivates a basic self-management skills
- Course that cultivates a basic problem-solving skills
- Course that cultivates a basic interpersonal skills
| Work experience | Work experience and relevance to the course content if applicable |
|---|---|
| Applicable | Based on my experience in clinical drug development, I will teach the concept of molecular biology as a fundamental technology of life science, the current latest research, and practical applications using molecular biology. |
- 1.NO POVERTY
- 2.ZERO HUNGER
- 3.GOOD HEALTH AND WELL-BEING
- 4.QUALITY EDUCATION
- 14.LIFE BELOW WATER
- 15.LIFE ON LAND
Last modified : Sun Mar 21 15:10:50 JST 2021