Course Objectives
Learn the functions of chemical substances in the body and understand when and where they are synthesized.
Rubric
| Ideal Level | Standard Level | Unacceptable Level |
Achievement 1 | Understand glucose metabolism and be able to explain energy production. | Be able to explain glucose metabolism. | Be not able to explain glucose metabolism. |
Achievement 2 | Understand photosynthesis and be able to explain energy production. | Be able to explain photosynthesis. | Be not able to explain photosynthesis. |
Achievement 3 | Understand lipid metabolism and be able to explain the difference between synthesis and degradation pathways. | Be able to explain lipid metabolism. | Be not able to explain lipid metabolism. |
Assigned Department Objectives
Teaching Method
Outline:
General or Specialized : Specialized
Field of learning : Biology
Required, Elective, etc. : Program subjects
Foundational academic disciplines : Biology/Life science
Relationship with Educational Objectives :
This class is equivalent to "(1) Cultivate human creative talent, rich in practical abilities", "(2) Acquire basic science and technical knowledge", and "(3) Acquire deep foundation knowledge of the major subject area".
Relationship with JABEE programs :
The main goal of learning / education in this class is "(A)".
Course outline :
Biochemistry is a fusion of biology and chemistry. Outline the structure and function of chemical substances in the living body. In addition, their synthetic pathways will be described.
Style:
Course method :
In line with the textbook, the main points will be explained while projecting materials such as figures and tables with a projector or explaining with a board. In a timely manner, issue report assignments that match the content of the lesson, and encourage review and self-study. This course is a single semester course.
Grade evaluation method :
The scores of the two regular exams are evaluated equally (70%), and the quizzes, reports, and class attitudes up to each regular exam are added to this (30%) and evaluated each time. Textbooks and notebooks are not allowed for the exam.
Notice:
Precautions on the enrollment :
This subject is a "subject that requires study outside of class hours". Classes are offered for 15 credit hours per credit, but 30 credit hours are required in addition to this. Follow the instructions of your instructor for these studies.
Course advice :
Instead of memorize the knowledge of living things, understand and acquire the mechanism of life phenomena
Foundational subjects : Biology I (1st year) Chemistry I (2nd year), Chemistry II (3rd year), Experiments in Science (2nd year), General Biology (2nd year), Molecular Biology (3rd year)
Related subjects : Organic Chemistry I (4th year), Organic Chemistry II (5th year), Applied Biology (4th year), Developmental Biology (4th year), Experiments in Biology (4th year), Cell Biology (4th year), Bioinformatics (5th year)
Attendance advice :
Strictly adhere to the deadline for report assignments. Late arrivals will be treated as absent after half the class time has passed. If you have any questions about the lecture or anything related to it, please actively ask questions and deepen your understanding.
Course Plan
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Theme |
Goals |
1st Semester |
1st Quarter |
1st |
Guidance Biological design from a biochemical perspective (textbook p.12-22) |
Understand the field of biochemistry
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2nd |
Protein structure and function (textbook p.23-42) |
Be able to explain the structure and function of proteins
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3rd |
Nucleic acid structure and function (textbook p.43-57) |
Be able to explain the structure and function of nucleic acids
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4th |
Monosaccharides and polysaccharides, lipids and membranes (textbook p.58-75) |
Be able tp explain monosaccharides and polysaccharides, lipids and membranes
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5th |
Enzyme kinetics (textbook p.76-89) |
Be able to explain the reaction kinetics of enzymes
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6th |
Glucose metabolism 1 (textbook p.90-108) |
Be able to explain glycolysis
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7th |
Glucose metabolism 1 (textbook p.90-108) |
Be able to explain gluconeogenesis
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8th |
Mid-term exams |
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2nd Quarter |
9th |
Return of mid-term exams and explanation of answers |
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10th |
Glucose metabolism 2 (textbook p.109-123) |
Be able to explain the citric acid cycle
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11th |
Glucose metabolism 2 (textbook p.109-123) |
Be able to explain the electron transport chain
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12th |
Photosynthesis (textbook p.124-135) |
Be able to explain photosynthesis
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13th |
Lipid metabolism (textbook p.136-153) |
Be able to explain lipid metabolism
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14th |
Amino acid and nucleotide metabolism (textbook p.154-170) |
Be able to explain amino acid metabolism
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15th |
Final exams |
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16th |
Return of final exams and explanation of answers |
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2nd Semester |
3rd Quarter |
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2nd |
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3rd |
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4th |
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5th |
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6th |
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7th |
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8th |
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4th Quarter |
9th |
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10th |
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11th |
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12th |
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13th |
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14th |
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15th |
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16th |
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Evaluation Method and Weight (%)
| Examination | Presentation | Mutual Evaluations between students | Behavior | Portfolio | Other | Total |
Subtotal | 70 | 0 | 0 | 0 | 0 | 30 | 100 |
Basic Proficiency | 0 | 0 | 0 | 0 | 0 | 0 | 0 |
Specialized Proficiency | 70 | 0 | 0 | 0 | 0 | 30 | 100 |
Cross Area Proficiency | 0 | 0 | 0 | 0 | 0 | 0 | 0 |