Course title
三大学連携特別講義Ⅱ(Advanced Biology)   [Inter-University Special LectureⅡ(Advanced Biology)]
Course category Liberal Arts and Fundamental Studies  Requirement   Credit 2 
Department   Year 11  Semester 3rd 
Course type 3rd  Course code 01md1500
Instructor(s)
古谷 哲也   [FURUYA Tetsuya]
Facility affiliation Faculty of Agriculture Office 3-211  Email address

Course description
In this course for fundamental biology and technological applications, it is required to utelise the knowledge of English language and science, and is therefore set at an advanced level in the general education curriculum. We will learn the structure and function of cells, the mechanism of energy production in cells, and the transfer and utilization of genetic information from nucleic acids, especially DNA, to biomolecules. We will then learn how such scientific phenomena and the knowledge are applied in industrial and biomedical technologies that support our traditional, modern and future lives. This lecture course includes interactive classes, discussion sessions and opportunities for presentation.
Expected Learning
1. To gain a fundamental understanding of ‘life’ at the cellular and molecular levels and to apply such knowledge in learning biotechnology and modern molecular techniques.
2. To understand updated interdisciplinary biological topics relating to chemistry, physics, medicine and veterinary medicine in English, and to be able to describe a topic of own interest in English

Competency development:
Communication skills, Presentation skills, Knowledge on science and technology
Course schedule
1 Carbohydrates, Lipids, and Chemical Energy That Sustains Life
2 Proteins, Enzymes and Their Applications in Industry
3 Anaerobic Respiration, Fermentation and Their Applications (Food and Bioethanol Production)
4 Aerobic Respiration and ATP Synthase. Implications for Evolution.
5 Photosynthesis. Conversion of Light Energy to Chemical Energy, and Storage of Energy.
6 Application of Photosynthesis in Industry (Plant secondary Metabolism, Bioplastics, Plant Biopharming)
7 Cellular Organization: organelles structure/function in health and disease and the cutting-edge techniques behind it
8 Cellular membranes: structure/function in health and disease, their importance in biotechnology
9 Cellular Signalling in health and disease, traditional and novel methods used to unravel the complexity of signaling pathways
10  Mitosis and cell growth, Meiosis and fertilization: mechanisms of these processes in normal cells and how diseases are caused in cells with abnormal functions such as cancer cells
11 Preservation, replication and repair of genetic information: mechanisms of these processes in normal cells and how diseases are caused in cells with abnormal functions such as cells in cancer and aging process
12  Protein synthesis based on genetic information: mechanisms in normal cells and their application in biotechnology and in medicine such as development of drugs
13  Control of quantity of proteins through multiple levels including transcription, translation and stability of proteins: mechanisms through development and differentiation and roles in diseases
14  Presentations by students on specified topics
15  Summary
Examination
Prerequisites
This course carries 2 credits. In addition to 30 hours you spend in the class and 4 hours in preparing your presentation, you are recommended to prepare for, and revise, the classes spending the standard amount of time as specified by the University for each class, using the lecture handouts available from Moodle and the references specified below.
Required Text(s) and Materials
Lecture handouts and teaching materials are prepared for each class
References
Campbell & Reece “Biology” 10th ed.
Albert et al. “Molecular Biology of the Cell”
Assessment/Grading
Grades are given based 80 % on examination scores and 20 % on contribution during the classes and presentation. Note that more than 80 % attendance is required to sit for the exam.
Message from instructor(s)
Course keywords
Cell, Organelles, Biological molecules, Energy metabolism, Photosynthesis, Genes, Protein synthesis
Office hours
Please ask questions before or after the class, or email to make appointments.
Remarks 1
Remarks 2
Related URL
Lecture Language
English
Language Subject
Last update
5/24/2019 8:31:17 AM