For more details on the courses, please refer to the Course Catalog
Code | Course Title | Credit | Learning Time | Division | Degree | Grade | Note | Language | Availability |
---|---|---|---|---|---|---|---|---|---|
BTH5031 | Advanced Immunotherapy | 3 | 6 | Major | Master/Doctor | Biopharmaceutical Convergence | English | Yes | |
Immunotherapy is a method to alleviate the disease by improving or suppressing the immune function of the host, and treatments for cancer and various infectious diseases have been developed and are still actively being studied. This lecture aims to teach the contents of immunotherapeutics currently being developed and clinically used, along with understanding of the immunotherapeutics currently being developed and used clinically. | |||||||||
BTH5032 | Advanced Bioinformatics | 3 | 6 | Major | Master/Doctor | Biopharmaceutical Convergence | - | No | |
Lectures on understanding the use and development of software systems that can systemize various biotechnology theories and knowledge about genes, proteins, cells, and diseases. | |||||||||
BTH5033 | Applied Microbial Biotechnology | 3 | 6 | Major | Master/Doctor | Biopharmaceutical Convergence | Korean | Yes | |
The course will cover the application of microbes, and current microbial technologies for biotechnology such as development of industrial strains and process for bioproducts | |||||||||
BTH5034 | Advanced Bioorganic Engineering | 3 | 6 | Major | Master/Doctor | Biopharmaceutical Convergence | - | No | |
Lecture on bioreaction kinetics, organic solvent phase reaction, high concentration substrate manufacturing and reaction, and pharmaceutical, cosmetic and food material development using various bioreactions. | |||||||||
BTH5035 | Advanced Cell Culture Engineering | 3 | 6 | Major | Master/Doctor | Biopharmaceutical Convergence | - | No | |
This lecture will cover the basic theory of cultivation engineering and application techniques to maximize the function of cells in bioreactors and to realize economical material conversion. To acquire general information on the basics of biological process, process control and bioreacter design. | |||||||||
BTH5037 | Advanced Protein Engineering | 3 | 6 | Major | Master/Doctor | Biopharmaceutical Convergence | - | No | |
Lectures on molecular structure, functionality, mechanism of action, and industrial application technology of bioactive substances derived from plants and animals existing in nature. | |||||||||
BTH5038 | Advanced Molecular Design | 3 | 6 | Major | Master/Doctor | Biopharmaceutical Convergence | English | Yes | |
The overall concept of analyzing the structures of bioactive regulatory molecules, such as proteins, which play important roles in vivo, and designing and analyzing new drug candidates that enhance or inhibit their functions on a computer and verify the in vivo and in vitro effects. | |||||||||
BTH5041 | Advanced Stem Cell Engineering | 3 | 6 | Major | Master/Doctor | Biopharmaceutical Convergence | - | No | |
In this course, based on the understanding of the basic concept of stem cells, this course introduces more in-depth and recent research trends in stem cell application technology applied to the treatment of incurable diseases and acquires detailed research contents. | |||||||||
BTH5044 | Host-Microbe Interactions | 3 | 6 | Major | Master/Doctor | Biopharmaceutical Convergence | - | No | |
Based on understanding the frame of host-microbe interactions, to persuit any protection means for plant and animal hosts agasisnt infectious microbes | |||||||||
BTH5045 | Applied Cytogenetics | 3 | 6 | Major | Master/Doctor | Biopharmaceutical Convergence | Korean | Yes | |
The purpose is to broaden the understanding of the occurrence of life, disease and diversity by introducing genetic phenomena and their molecular mechanisms, and to understand and apply various modern molecular genetic research methods using genetic principles. | |||||||||
BTH5047 | Advanced Synthetic Biology | 3 | 6 | Major | Master/Doctor | Biopharmaceutical Convergence | - | No | |
Synthetic Biology is one of the recently emerged technologies that combines various disciplines in the field of natural science and engineering subjects. Synthetic biology decomposes various cellular components as biological parts and assembles them for a specific cellular function of our interests in the basis of engineering principles. In this course, students will learn latest fundamental tools and techniques for synthesizing and assembling standardized biological parts for a new functional biological system. Also statistical modeling techniques describing the new biological system will be learned for understanding the biological system in an engineering point of view. | |||||||||
BTH5048 | Advanced Systems Biology | 3 | 6 | Major | Master/Doctor | Biopharmaceutical Convergence | - | No | |
This course will discuss the development of experimental techniques and informatics research methods that quantitatively, comprehensively and predictively analyze complex organisms based on the latest system biology research results | |||||||||
BTH5050 | Research for Innovative New Drug Development | 3 | 6 | Major | Master/Doctor | Biopharmaceutical Convergence | Korean | Yes | |
By grasping each stage of the development of new biologic drugs in detail, we acquire the knowledge necessary to develop a new paradigm of innovative biopharmaceuticals. | |||||||||
BTH5054 | Introduction to Biotechnology Commercialization | 3 | 6 | Major | Master/Doctor | Biopharmaceutical Convergence | - | No | |
Introduction to Biotechnology Commercialization course aims to provide students opportunity to understand the overall landscape of biotechnology commercialization. Topics include Life science and industry, Bioentrepreneurship, Intellectual property, Biotech startup and growth, Business plan preparation and presentation skills, Regulatory approvals and biomanuctural process, and Human resource and career development. | |||||||||
BTH5055 | Introduction to Fusion Biotechnology | 3 | 6 | Major | Master/Doctor | Biopharmaceutical Convergence | Korean | Yes | |
This course introduces traditional biotechnology and nanotechnology in general, and introduces recent trends in nanobiotechnology incorporating these two technologies. In addition, it describes the fields where nano-biotechnology is currently applied and discusses the direction of new technologies in the future by brain-storming. |