International Course in Bioscience and Biotechnology Program Tokyo Institute of Technology

◆ International Course in Bioscience and Biotechnology Program Tokyo Institute of Technology

Graduate School of Bioscience & Biotechnology

Dept. of Life Science

Dept. of Biological Sciences

Dept. of Biological Information

Dept. of Bioengineering

Dept. of Biomolecular Engineering

Integrated doctoral program (3 - 5 yrs)

The Graduate School of Bioscience and Biotechnology has launched a new program entitled “International Course in Bioscience and Biotechnology” within our Integrated Doctoral Education Program. The primary aim of the course is to foster student excellence within our various and sophisticated educational programs by exposing students to the advanced science and technology that underpins medical and environmental industries and to other related areas of bioscience and biotechnology. By enhanced exchange between international and Japanese students, we will produce high level researchers and engineers who will flourish as national and global leaders.

Course Program

The program will commence in October of each year, and student education will be conducted in English.

1) A student must be certified at master’s degree level while attending the course, which will be of at least 3 years duration.

2) A student must acquire more than 25 credits in the special and general subjects listed below. (exclusive of colloquium (IGC Seminar I – X) and internship (IGC Bio-Internship I, II) credits.) *See the tables below.

3) In these subjects, a student must acquire 2 credits of Directed Collaboration Works. *compulsory

4) A student must acquire more than 4 credits of IGC Bio-Internship. IGC Bio-Internship: a 3-6 month project at research institutes or corporations in Japan. *compulsory

5) A student must take all of the required colloquium (IGC Seminar I – X of each department) credits. *compulsory

6) A student usually files for a master’s degree after acquiring 30 credits in general and special subjects together with one IGC Seminar in each semester (usually a total 2-4 credits). She/he then submits a research report which must be passed according to the examination rules in each department. Students who are admitted to obtain a master’s degree must take the qualifying examination for the doctoral course immediately, and those who pass it will become students of the doctoral course.

7) To graduate, doctoral students must present satisfactory mid-term progress reports, and then pass doctoral thesis review and a final oral examination.

Standard Courses

Ex.1

1st year	2nd year	3rd year	4th year
M1	M2	D1	D2
	QP	QP	FP, FE

Ex.2

1st year	2nd year	3rd year	4th year
M1	D1	D2	D3
QP	QP	QP	FP, FE

QP: qualifying presentation, FP: final presentation, FE: final examination

Classes in this list given in English

Class Name	Class No	Credit	Lecturer(s)	Semester	Remarks
Bioengineering Now	78023	2-0-0	Nakamura et al.	Autumn	E, C
Advanced Bioorganic Chemistry	78014	2-0-0	Okahata et al.	Autumn	E, C
Advanced Molecular Biology	78015	2-0-0	Handa et al.	Autumn	E, C
Advanced Life Science Frontiers	78025	2-0-0		Spring	E, C
Advanced Course of Molecular Developmental Biology	81006	2-0-0	Tanaka	Autumn	E
Synthesis of Bioactive Substances	78002	2-0-0	Yuasa	Autumn	E
Advanced Cell Biochemistry	81002	2-0-0	Komada	Spring	E
Advanced Biochemistry	78021	2-0-0	Kitamura et al.	Autumn	O, C
Advanced Biology	78022	2-0-0	Motokawa et al.	Autumn	O, C
Advanced Biophysical Chemistry	78001	2-0-0	Inoue et al.	Autumn	O, C
Advanced Biotechnology Frontiers	78024	2-0-0		Spring	O, C
Advanced Course of Biological Recognition and Signaling II	81004	2-0-0	Itoh et al.	Autumn	O
Asymmetric Synthesis	79011	2-0-0	Kobayashi	Autumn	O
Advanced Course of Biological Molecular Function	78033	2-0-0	Aizawa	Spring	O
Advanced Developmental Genetics	72006	2-0-0	Kawakami	Spring	O
Structure and Function of Biological Supramolecules	82014	2-0-0	Arisaka	Spring	O
Bioscience and Biotechnology Topics 1 (200X)	78072	1-0-0	Ichinose et al.	Spring	C
Bioscience and Biotechnology Topics 2 (200X)	78073	1-0-0	Sakurai et al.	Autumn	C
Evaluation in the International Development, its theory and practice	78083	2-0-0	Sato	Autumn	C
Advanced Course of Bioscience Communication	81014	2-0-0	Arimura	Autumn
Development and Disease	82021	1-0-0	Kitamura, Takeuchi	Autumn	C
Bionanotechnology	82023	1-0-0	Mihara, Heddle	Autumn	C

“E” or “O” in the remarks column shows that those classes are open in even or odd year, respectively.

The classes without such symbols are open every year.

“C” in the remarks column indicates the class is common to all departments.

*Must take more than 4 credits in other departments.

Internship, Advanced Experiments and Colloquiums (Seminar) of each department (compulsory)

Class Name	Class No	Credit	Lecturer(s)	Semester	Remarks
●　IGC Bio-Internship I	78091	0-4-0	Kajiwara et al	Autumn
●　IGC Bio-Internship II	78092	0-4-0	Kajiwara et al	Spring
○ Directed Collaboration Works	78071	2-0-0	Kajiwara, Mihara	Autumn	MC 1st year
○ Advanced Experiments I (each dept)	78601	0-0-2	Mentor	Spring	MC 1st year
○ Advanced Experiments II (each dept)	78602	0-0-2	Mentor	Autumn	MC 1st year
○ IGC Seminar I (each dept)		1	Mentor	Autumn	MC 1st year
○ IGC Seminar II (each dept)		1	Mentor	Spring	MC 1st year
○ IGC Seminar III (each dept)		1	Mentor	Autumn	MC 2nd year
○ IGC Seminar IV (each dept)		1	Mentor	Spring	MC 2nd year
○ IGC Seminar V (each dept)		1	Mentor	Autumn	DC 1st year
○ IGC Seminar VI (each dept)		1	Mentor	Spring	DC 1st year
○ IGC Seminar VII (each dept)		1	Mentor	Autumn	DC 2nd year
○ IGC Seminar VIII (each dept)		1	Mentor	Spring	DC 2nd year
○ IGC Seminar IX (each dept)		1	Mentor	Autumn	DC 3rd year
○ IGC Seminar X (each dept)		1	Mentor	Spring	DC 3rd year

●Taking one of these credits is compulsory.　○Compulsory

Tokyo Tech Common Lectures

Class Name	Class	Credit	Lecturer(s)	Semester	Remarks
Japanese 1 First	99601	0-2-0	Marutani	Autumn
Japanese 1 Second	99602	0-2-0	Marutani	Spring	Suzukakedai
Japanese 2 First	99603	0-2-0	Marutani	Autumn	Suzukakedai
Japanese 2 Second	99604	0-2-0	Marutani	Spring	Suzukakedai
Japanese 3S-Autumn	99607	0-2-0	Moriizumi	Autumn	Suzukakedai
Japanese 3S-Spring	99605	0-2-0	Moriizumi	Spring	Suzukakedai
Japanese 4S-Autumn	99611	0-2-0	Moriizumi	Autumn	Suzukakedai
Japanese 4S-Spring	99609	0-2-0	Moriizumi	Spring	Suzukakedai
Japanese 5LS	99615	0-2-0	Marutani	Autumn/Spring	O-okayama
Japanese 5WR	99614	0-2-0	Yoshizawa	Autumn/Spring	O-okayama
Japanese 6LS	99619	0-2-0	Marutani	Autumn/Spring	O-okayama
Japanese 6WR	99618	0-2-0	Kaseda	Autumn/Spring	O-okayama
Advanced Oral Expression in English CIIa	99082	0-2-0	Abel	Autumn
Advanced Oral Expression in English CIIb	99086	0-2-0	Pulvers	Autumn
Advanced Oral Expression in English CIIc	99088	0-2-0	Morton	Autumn
Advanced Oral Expression in English CIId	99090	0-2-0	Kiyama	Autumn
Academic Presentation in English CIIc	99126	0-2-0	Gildart	Autumn

Bioengineering Now (2-0-0)

Autumn semester of even year

Prof. Satoshi NAKAMURA, Assoc Prof. Eiry KOBATAKE and Assoc. Prof. Yasunori TANJI

(Aim)

Most advanced research status of bioengineering is to be learned, where bio-functions derived from biological elements such as viruses/phages, enzymes, microbes, plant/animal cells are applied to the construction of innovative systems for producing materials and/or energy, and contributing environmental technology.

Advanced Bioorganic Chemistry (2-0-0)

Autumn semester of even year

Prof. Yoshio OKAHATA, Prof. Tomoya KITAZUME and Assoc. Prof. Toshiaki MORI

(Aim)

Bioorganic chemistry related to “Bio activity” as well as advanced organic chemistry necessary for the study of Bioscience and biotechnology is expounded.

Advanced Molecular Biology (2-0-0)

Autumn semester of even year

Prof. Hiroshi HANDA, Assoc. Prof. Masaaki WACHI and Assoc. Prof. Shinji MASUDA

This course will feature the molecular biological aspects of a variety of biological phenomena, such as embryogenesis,cell differentiation, signal transduction, transcriptional regulation, cell response, etc. In addition, future aspects of gene technology, genetic diagnosis, and therapy will be presented. This course will be made in English.

Advanced Life Science Frontiers（2-0-0）

Spring semester of even year

Advanced Course of Molecular Developmental Biology (2-0-0)

Autumn semester of even year

Assoc. Prof. Mikiko TANAKA

(Aim)

This course is designed to provide a basic understanding of the cellular and molecular mechanisms that regulate vertebrate development.

(Schedule)

1. Introduction to Developmental Biology

2. Nervous System

3. Neural Crest Cells

4. Heart

5. Paraxial and Intermediate mesoderm

6. Endoderm

7. Limb Development

8. Blood Vessels and Blood Cells

9. Germ Line

10. Regeneration

11. Medical Implications

(How to Grade)

Attendance and presentation

Synthesis of Bioactive Substances (2-0-0)

Autumn semester of even year

Assoc. Prof. Hideya YUASA

(Aim)

Organic synthesis is one of the most powerful tools to create drugs for diseases, such as cancer, diabetes, flu, and etc. Thus the knowledge and skills of organic synthesis are prerequisite for the research in pharmaceutical industry. The aim of this class is to have you understand the logics and mechanisms underlying the design and synthesis of bioactive molecules. To make the class less bored, each lecture will deal with the synthesis of a few compounds, with which the basic principles behind the constituent reactions will be uncovered. Therefore, you do not have to attend all of the classes. The first half of this class will be based on the text book, “Top Drugs: Top Synthetic Routes” (John Saunders, Oxford University Press: Oxford, 2000). Our own research results are discussed in the latter half.

(Schedule)

1. Inhibitors of angiotensin converting enzyme

2. Blockade of angiotensin-II receptors

3. Calcium channel blockers

4. Antagonists of histamine receptors

5. Proton pump inhibitors

6. Modulation of central serotonin

7. Ligands for benzodiazepine receptor

8. Blockers of the H1 recptor

9. Inhibitors of HIV reverse transcriptase

10. Anti-bacterial DNA gyrase inhibitors

11. Glycosidase inhibitors against diabetes

12. Carbohydrate-based future drugs

13. Principles of mimics and mimetics

14. Dynamic molecules for future drugs

15. Peptide synthesis (optional)

(How to grade)

Attendance and report

Advanced Cell Biochemistry (2-0-0)

Spring semester of even year

Assoc. Prof. Masayuki KOMADA

(Aim)

Precise transport of proteins to their destinations in the cell is essential for various cellular functions. Membrane traffic is a major protein transport process between organelles made of lipid membranes. This course focuses on the molecular mechanisms as well as physiological and pathological roles of various membrane traffic processes in eukaryotic cells. Equal efforts will be made to address the fundamentals and recent findings on each subject.

(Schedule)

1. Endocytosis

2. Traffic from endosomes to lysosomes

3. Budding of viruses from host cells

4. Traffic between the endoplasmic reticulum (ER) and Golgi

5. Exocytosis

6. Traffic from the Golgi to endosomes

7. Rab family of small GTPases

8. Autophagy

9. Kinesin-mediated vesicle transport

10. Mechanisms of membrane protein localization

(How to Grade)

Tests, report

Advanced Biochemistry (2-0-0)

Autumn semester of odd years

Prof. Naomi KITAMURA, Prof. Katsuhiko SHIRAHIGE, and Prof. Hiroshi ICHINOSE

Major areas of contemporary biochemistry will be covered to help understand the chemical basis of life.　The themes include (1) biological membranes, chemical communication between cells, and intracellular trafficking; (2) protein motifs, protein folds, and macromolecular assembly; and (3) extracellular matrices and biochemistry of cell community.

(Schedule)

Prof. KITAMURA : Growth factor signaling

1. Growth factors and receptors

2. Growth factor-induced intracellular signaling pathways

3. Intracellular trafficking of growth factor receptors

4. Growth factor signaling and cancer

Prof. SHIRAHIGE : Structure & Function

Topics on most recent Chromosome Biolog will be stated with the principles of the basic behavior of chromosome
during cellcycle.

Prof. ICHINOSE : Biochemistry and molecular biology of neurotrasmitters

1. Neurotranmitters and the receptors

2. Regulation of neural transmission

3. Neurotransmitters and neurological disorders

4. Neurotransmitters and psychiatric disorders

Advanced Biology (2-0-0)

Autumn semester of odd year

Prof. Tatsuo Motokawa, Prof. Takeo KISHIMOTO and Assoc. Prof. Yuichi Hongo.

Major areas of contemporary biology will be covered to help understand the modern biology.

The themes include (1) Molecular ecology, (2) Cell and molecular biology of the cell cycle control, and (3) Echinoderm biology and biology of size.

(Aim)

Ecology using molecular tools will be studied, mainly focusing on the diversity and functions of environmental microorganisms. (Y. Hongo).

Cellular and molecular mechanisms that control the cell cycle will be studied. Main focus will be on the cell cycle engine and checkpoint control (K. Kishimoto).

The uniqueness of echinoderms will be studied with special reference to the body plan and catch connective tissues. The animal scaling will be also studied (T. Motokawa).

(Schedule)

1. Molecular taxonomy (Hongoh)

2. Measuring biological diversity (Hongoh)

3. Environmental microbiology (Hongoh)

4. Environmental genomics (Hongoh)

5. Symbiosis (Hongoh)

6. Development of cell cycle study (Kishimoto)

7. Cell cycle engine (Kishimoto)

8. Checkpoint control (Kishimoto)

9. Cell cycle research in our lab (Kishimoto)

10. Body plan of echinoderms (Motokawa)

11. Catch connective tissues (Motokawa)

12. Animal scaling (Motokawa)

13. Scaling and time (Motokawa)

Advanced Biotechnology Frontiers(2-0-0)

Spring semester of odd year

Advanced Biophysical Chemistry (2-0-0)

Autumn semester of odd year

Prof. Yoshio INOUE, Prof. Ken KUROKAWA and Assoc. Prof. Hiroyuki OHTANI.

Topics on advanced biophysical chemistry will be stated with the principles of the basic analytical instruments for the biological material.

Advanced Course of Biological Recognition and Signaling II (2-0-0)

Autumn Semester of odd year

Prof. Takehiko ITOH, Assoc. Prof. Junji YAMAUCHI, Assoc. Prof. Hideki NOGUCHI

(Aim)

Students will learn the up-to-date knowledge and the ways to carry out research about biological signal transduction. This object could be attained not only from the lectures given by the instructor but also by actively participating in a series of presentations given by fellow students.

(Schedule)

1. Give basic and general understanding about Biological Signal Transduction. (2 weeks)

Explain various receptors and molecules involved in different biological signal transduction pathways, and cross-talks

among them.

2. Discuss about various oncogenes and tumor suppressors with regard to apoptosis, differentiation and cancer,
based on topics published in recent literatures. (2 weeks)

3. Students are expected to make a bit formal presentations about a series of subjects chosen from current literature.

Students will learn from this experience how to write and read papers as well as how to give a talk in conferences.

(8 weeks)

(How to grade)

Students are expected to attend lectures as often as possible, and actively participate in the discussion about the topics presented by fellow students.

Asymmetric Synthesis (2-0-0)

Autumn semester of odd year

Assoc. Prof. Yuichi KOBAYASHI

(Aim)

Asymmetric reaction is a powerful method to obtain enantiomerically enriched compounds for synthesis of biologically important compounds. Among the efficient asymmetric reactions so far published, several types of reactions listed below will be described. The principle for the creation of stereocenter(s) are discussed.

(Schedule)

1. Fundamental Aspects of Asymmetric Synthesis

2. Preparation of Enantiomerically Enriched Compounds by means of Optical Resolution, Asymmetric Synthesis,

Chiral Pool Method, Reactions using Enzymes

3. Diastereoselection and Enantioselection

4. Enolate Formation and Asymmetric Alkylation

5. Asymmetric Aldol Reaction: Part 1

6. Asymmetric Aldol Reaction: Part 2

7. Catalytic Asymmetric Reactions: Part 1: Hydrogenation, Isomerization, Allylic Substitution

8. Catalytic Asymmetric Reactions: Part 2: Cyclopropanation, Diels-Alder Reaction

9. Asymmetric Epoxidation

10. Transformations of Epoxides

11. Asymmetric Dihydroxylation

12. Dissymmetrization of Compounds with Symmetry Elements

13. Chiral Pool Method

14. Asymmetric Synthesis of Biologically Active Compounds

15. Summary

(How to grade)

Attendance and report

Advanced Course of Biological Molecular Function (2-0-0)

Spring semester of odd year

Assoc. Prof. Yasunori AIZAWA

(Course Description)

This course considers the structural and functional aspects of the most fundamental cellular molecules, ribonucleic acids (RNAs). Topics in this course covers mechanisms on expression, processing, intracellular transport, and functional outcome of different classes of protein-coding RNAs as well as noncoding RNAs (ribosomal RNAs, transfer RNAs, small RNAs, and polyadenylated noncoding RNAs). In addition, to deeply understand these RNA-related mechanisms, this course provides additional topics on genome structures and functions. The technique and logic used to address important issues in RNA biology is also emphasized. Lectures cover the broad topic areas and class discussions focus on representative papers in the field.

(Topics)

1. Genome Architecture and Function

2. Definition of Gene and Complexity of Mammalian Genomes

3. RNA Expression and Processing

4. Intracellular RNA Transport

5. Gene Regulation through RNAs

6. Noncoding RNA

(Student requirements)

Intensive reading assigned papers and high quality performance in the class discussion is required from all the students.

Advanced Developmental Genetics (2-0-0)

Spring semester of odd year

Assoc. Prof. Atsushi KAWAKAMI

(Aim)

Cellular and molecular mechanisms that regulate animal development, organ formation and related issues will be studied. Through the studies of developmental genetics and related areas, students will develop ability for oral presentation in English about respective researches and/or issues related to developmental genetics. Final goal of this class is to cultivate a faculty for logical thinking and scientific communication.

(Schedule)

1. Introduction, schedules etc.

2. Developmental genetics in model animal, particularly in small fish species

3. Cellular and molecular background of tissue regeneration

4-12. Presentations by students

(How to Grade)

Attendance and presentation

Structure and Function of Biological Supramolecules (2-0-0)

Spring semester of odd year

Assoc. Professor Fumio ARISAKA

(Aim)

Among biological supramolecules, focus will be made on the protein supramolecules and the mechanisms and principles that control the molecular assembly and the methods of analyses will be taught. First, hierarchical structure of proteins will be introduced and varieties of interactions involved in the formation of protein supramolecules will be explained. After describing the various structures in the cell, structure of viruses will be introduced and the mechanism of assembly and the structural changes during assembly and infection process will be described through examples of bacteriophages along with the methodology of the analyses.

(Schedule)

1. Overview of supramolecules in the cell －tight complex and association-dissociation system－

2. Hierarchical structure of proteins

3. Protein-protein interactions

4. Repeats and symmetry in protein supramolecules

5. Co-operativity in the structure formation of protein assembly

6. Structure of viruses

7. Principle of quasi-equivalence －Caspar・Klug theory－

8. Methods of analyses on assembly

：application of conditional lethal mutants and in vivo and in vitro complementation

9. Methods of strucutre determination：electron microscopy, X-ray crystallography etc.

10. Methods of analysis in protein-protein interactions

：anaytical ultracentrifugation, surface plasmon resonance, isothermal titration microcalorimetry, light scattering

11. paper review (1)

12. paper review (2)

13. paper review (3)

14. Summary

(How to Grade)

Attendance to the lectures and reports

Bioscience and Biotechnology Topics 1 (200X) (1-0-0)

Spring semester

Prof. Hiroshi ICHINOSE

Bioscience and Biotechnology Topics 2 (200X) (1-0-0)

Autumn semester

Prof. Minoru SAKURAI et al.

Evaluation in the International Development, its theory and practice (2-0-0)

Autumn semester

Assoc. Prof Yuriko SATO

By taking this course, students can expect to deepen their understanding of major evaluation theories, their historical background and their application in the field of international development. They can also expect to acquire basic evaluation skills through the use of case studies, performing meta-evaluation and creating evaluation proposals.　

Advanced Course of Bioscience Communication (2-0-0)

Autumn semester

Assoc. Prof. ARIMURA

Development and Diseases (1-0-0)

Autumn semester

Prof. Naomi KITAMURA,　Assist. Prof. Jun K. TAKEUCHI

(Aim)

This field of science is defined to know “us-human being”, that means how we are established and born, how we are different from other people or animals, and how diseases are occurred. Since genes for making body pattern was first reported, many indispensable genes for patterning and diseases have been identified and characterized for over twenty years. And such gene-profiling study will be finished soon, following the genome projects. Next, we need to know combinatorial functions of genes to explain how complicated human body is formed and why significance of disease differs among people. In this lecture, exciting and outstanding studies will be picked up in each term, and will be discussed why it was “exciting and outstanding“. We will focus on anatomical, genetic & developmental, and technical approaches to study embryology and aging.

(Schedule)

1. Anatomical Science

2. Early Development

3. Late Development

4. Heart Development

5. Diseases

6. Functional Analyses & ES Technologies

7. Evolutional Sciences & Future Effort

(How to Guide)

Successful guidance for this lecture has at least two important requirements. First, a couple of interesting papers will be picked up and discussed as an introduction at every class. From this project, students will figure out new insights or important points about the theme of each term. Second, every class follows these papers to understand their background and their thought. Through lecture, students will have the opportunity to meet the ideas of great scientists who have made significant contributions in their field and our life.

(Text)

Developmental Biology 8th edition (S.Gilbert)

Heart 2nd edition (N.Rosenthial & R.Harvey)

Bionanotechnology(1-0-0)

Autumn semester

Prof. Hisakazu MIHARA, Assist. Prof. Jonathan HEDDLE

(Aim)

Using biological molecules to construct functional materials at the nanoscale for uses as diverse as microelectronics and therapeutics is a new and exciting field. The aim of this lecture series is to introduce the ideas and concepts behind bionanotechnology, giving examples from recent research.

(Schedule)

What is Bionanotechnology? An Introduction

1. Current Uses of Bionanotechnology

2. Bionanotechnology with protein spheres

3. Bionanotechnology with TRAP protein part I

4. Bionanotechnology with TRAP protein part II

5. DNA as a bionanotechnology tool

6. Future prospects of Bionanotechnology

(How to Grade)

Attendance and Report

IGC Bio-Internship I (0-4-0)

Autumn Semester

Assoc. Prof. Susumu KAJIWARA et al.

This class is a practical project at research institutes or corporations in Japan from three to six months.

A student must take this class or IGC Bio-Internship II.

IGC Bio-Internship I (0-4-0)

Spring Semester

Assoc. Prof. Susumu KAJIWARA et al.

This class is a practical project at research institutes or corporations in Japan from three to six months.

A student must take this class or IGC Bio-Internship I.

Directed Collaboration Works (2-0-0)

Autumn Semester

Assoc. Prof. Susumu KAJIWARA, Prof. Hisakazu MIHARA

To foster the creativity and planning about research and development in bioscience and biotechnology fields, and the scientific communication with other students, a student plans to develop a product with the other student(s), mainly Japanese students. A group spends two weeks to one month to finish this work. In the end of the semester, all groups have to perform oral presentations about their works.

List of Regular-course Lectures

(Given in Japanese, but international graduate course students can also attend and earn credits)

Department of Life Science

Class	Class No.	Credit	Lecturer	Semester	Note
Bio-Internship I	78030	0-0-2	Sakurai et al.	Spring	C
Bio-Internship II	78029	0-0-2	Yuasa et al.	Autumn	C
Bio-Internship Ш	78082	0-0-2	Sato	Autumn	C
Bioinformatics	78032	2-0-0	Nakai et al.	Spring	C
Industrial Sociology	78033	2-0-0	Handa et al.	Spring	C
Brain Science	78034	2-0-0	Matsui et al.	Spring	C
Biotechnical Reading	78035	2-0-0	Shibata	Spring	C
Biotechnical Writing	78051	2-0-0	James Watt	Spring	C
Advances Course of　Molecular Structure Analysis	78003	2-0-0	Murakami	Autumn	E
Advanced Course of Molecular Regulation	78006	2-0-0	Kajiwara	Autumn	O
Organic Chemistry of Biomolecules	78007	2-0-0	Sekine	Autumn	E
Molecular Recognition of Biomolecules	78008	2-0-0	Seio	Spring	O
Advanced Course of Biological Physics	78009	2-0-0	Hayashi	Spring	E
Advanced Course of Medical Chemistry	78028	2-0-0	Ichinose	Autumn	O
Advanced Molecular Life Science	78017	2-0-0	Muto	Spring	E
Science of Radiation and Beams	93018	2-0-0	Kono	Spring
Instrumental Analysis	78033	2-0-0	Naruke	Spring
Environmental Microbiology	95013	2-0-0	Hisabori	Spring
Advanced Course of Bioscience Communication	81014	2-0-0	Arimura	Autumn
Directed Collaboration Works	78071	2-0-0	Mihara, Kajiwara	Autumn
Chemistry of the oxygen atmosphere	18107	1-0-0	Maruyama, et al.	Autumn
Science of Photosynthetic Organisms	18108	1-0-0	Maruyama, Ohta	Spring
History of life and modern life under extreme environments	18109	1-0-0	Maruyama, Takai	Spring
Project Managing Skills I	25031	2-0-0	Ohtani	Spring
Project Managing Skills Ш	25033	2-0-0	Furuta	Autumn
Lecture on Advanced Life Science 1	78501	1-0-0		Spring	O
Lecture on Advanced Life Science 2	78502	1-0-0		Spring	E
Lecture on Advanced Life Science 3	78503	1-0-0		Autumn	O
Lecture on Advanced Life Science 4	78504	1-0-0		Autumn	E
Directed Laboratory Works in Life Science 1	78601	0-0-2		Spring	Master's Course ①
Directed Laboratory Works in Life Science 2	78602	0-0-2		Autumn	Master's Course ①
Seminar in Life Science 1	78701	1		Spring	Master's Course ①
Seminar in Life Science 2	78702	1		Autumn	Master's Course ①
Seminar in Life Science 3	78703	1		Spring	Master's Course ②
Seminar in Life Science 4	78704	1		Autumn	Master's Course ②
Seminar in Life Science 5	78801	1		Spring	Doctoral Course ①
Seminar in Life Science 6	78802	1		Autumn	Doctoral Course ①
Seminar in Life Science 7	78803	1		Spring	Doctoral Course ②
Seminar in Life Science 8	78804	1		Autumn	Doctoral Course ②
Seminar in Life Science 9	78805	1		Spring	Doctoral Course ③
Seminar in Life Science 10	78806	1		Autumn	Doctoral Course ③
Cell signaling and regulation	82020	1-0-0	Hirose	Autumn
Development & Diseases	82021	1-0-0	Kitamura, Takeuchi	Autumn
Advanced Bioscience	78050	2-0-0	Gu, Kajiwara	Spring	Tsinghua University
Advanced Biotechnology	78069	2-0-0	Xing, Arisaka	Spring	Tsinghua University
Advanced Bio-molecule Science	78070	2-0-0	Wang, Akaike	Spring	Tsinghua University
Bio Off-Campus Project I	78054	0-4-0	Mentor	Spring
Bio Off-Campus Project II	78055	0-4-0	Mentor	Autumn
Advanced Life Science (Integrated Doctoral Education Program)	78056	2-0-0	Ichinose	Autumn	O
Advanced Biologic Sciences (Integrated Doctoral Education Program)	78057	2-0-0	Tanaka	Autumn	E
Advanced Biological Information (Integrated Doctoral Education Program)	78058	2-0-0	Tokunaga	Spring	O
Advanced Bioengineering (Integrated Doctoral Education Program)	78059	2-0-0	Arisaka	Spring	O
Advanced Biomolecular Engineering (Integrated Doctoral Education Program)	78060	2-0-0	Akaike	Spring	E
Training for Bio-business and Bio-industry	78084	4-0-0	Hirose et al.	Spring	C
Frontier Course of Nanomedicine　(200X)	78076	2-0-0	Sekine et al.	Autumn	C
Frontier Course of Biological information (200X)	78074	2-0-0	Shirahige et al.	Autumn	C
Frontier Course of Biotechnology (200X)	78075	2-0-0	Okahata　et al.	Autumn	C