Curriculum
| Course Number | Summary | English |
|---|---|---|
| BT7001 | Advanced Molecular Biology | |
| Cells are fundamental building blocks of living organisms and basal units to coordinate the organism's function. In this lecture, we are going to study how cells regulate the gene expression and translate the protein to get the appropriate function | ||
| BT7002 | Advanced Biochemistry | |
| Study and understand basic principals of living organisms by studing the protein structure and functions, enzyme's biological and kinetic reactions, structures and functions of membranes and its associated proteins. | ||
| BT7007 | Research Methods | |
| This course exposes students to contemporary theories and techniques. | ||
| GEN7006 | Seminar I | |
| Learn and practice how to discuss and release the latest information, such as genetic engineering, biochemistry, microbiology, biotechnology, etc. | ||
| GEN7007 | Seminar II | |
| Learn and practice how to discuss and release the latest information, such as genetic engineering, biochemistry, microbiology, biotechnology, etc. | ||
| BT7008 | Advanced Cell Biology | |
| They learn the structure, metabolism, physiology and heredity of eukaryotes, and transformation between cells and cells. | ||
| BT7111 | Advanced Genetics | |
| Understanding the impact of advanced genetic and genomic approaches Understanding the complexity of many biological processes through the elucidation of gene regulatory network Updates on signaling pathway network and epigenetic modification | ||
| BT7112 | Advenced Industrial Microbiology | |
| Study the information on drug production by microorganisms and other industrial use | ||
| BT7114 | Regulation of Gene Expression | |
| Study of gene transcription, expression, and covers a wide range of mechanisms that controls operation. | ||
| BT7124 | Developmental Neurobiology | |
| Overview of the developing nervous system, Understanding anatomy of the developing nervous system, Understanding pathways integral to the development of the brain and spinal cord, Discussing fundamental mechanisms underlying neuronal determination and differentiation | ||
| BT7126 | Advanced Immunology | |
| The overall object of this advanced immunology course is to make the graduate students understand the working mechanism of our immune defense system and apply the acquired immunological knowledge to their research and development for the prevention and treatment of the human diseases. | ||
| BT7127 | Advanced Virology | |
| We study the structure, classification, replication, byeongdok, application as a gene carrier, the oncogene of the virus. | ||
| BT7142 | Advanced Bio Management | |
| This course will provide essential management information about founding and managing biotechnology companies based on knowledge and research from graduate studies. | ||
| BT7143 | Advanced Bio Marketing | |
| This course will provide systematic marketing knowledge and method based on knowledge and research from graduate studies. | ||
| GEN7004 | Bioinformatics | |
| A holistic study of the genome is done. | ||
| GEN7008 | Advanced Developmental Genetics | |
| Understanding the Principle of Early Vertebrate Development, Discussing Mechanisms that Underlie the Development of Vertebrate Organs | ||
| GEN7011 | Advanced Neurophysiology | |
| Learns the structure of a neuron electronic physiological characteristics of neurons that is the root of the nervous system stimulation transduction. | ||
| GEN7012 | Advanced Stem Cell Biology | |
| Understanding of different kind of stem cells, self renewal and differentiation of stem cells, and stem cell niche and their clinical application. In this class, Cell Biology Course (undergraduate level) is prerequisite. If not, first consult with lecturer before enrollment | ||
| GEN7014 | Advanced Protein Chemistry | |
| We learn about the structure and function of proteins and learn how to identify them experimentally. | ||
| GEN7015 | Advanced Microbial Genetics | |
| It deals with the genetic structure of microorganisms, the formation of synthetic derivatives, the exchange of genes, and the interaction with phage. | ||
| GEN7017 | Advanced Bioengineering 1 | |
| It is designed to provide information on biotechnology principles underlying the causes and therapeutic treatments of cancer. It is also supplemented with other biotechnology topics related to hybridoma technology, transgenic mouse technology, and plant cell biotechnology. | ||
| GEN7020 | Theory and Applications of Cell Culture | |
| The study about the theory and practice required for animal cell culture. | ||
| GEN7021 | Advanced Genetic Engineering | |
| The general principles and concepts to understand and deal with the application of genetic engineering. | ||
| GEN7022 | Advanced Animal Physiology | |
| Explores dongmulche physiological phenomena occurring in the structure, animal organs and functions of nerve cells and the like. | ||
| GEN7023 | Advanced Animal Cell Culture | |
| The course of the principles of the animal cell culture and animal cell incubator operating techniques. | ||
| GEN7024 | Tissue Engineering & Regenerative Medicine | |
| Recent advancement in stem cell research and biomedical engineering provided technology background for Tissue Engineering. Many approaches have been made to reconstruct natural tissues or organs based on various stem cells and specialized biomaterials called scaffold. Now, regenerative medicine is considered as an essential medical field to elevate quality of life especially in aging society. Tissue engineering approach usually includes interdisciplinary research because this field needs profound knowledge on Biology, Medicine, and Engineering. To provide integrative insight on approaches of tissue engineering, many advanced field including stem cell, biomaterials, and nano-technology will be studied in the context of biomedical engineering. Also, exploration on the success case of tissue engineering approaches will provide knowledge on possible therapeutic interventions and future perspectives. | ||
| GEN7025 | Understanding Study for disease in animal model | |
| This introduces various disease animal model to be used for evaluation of efficacy of drug in preclinical | ||
| GEN7026 | Advanced Microbial Pathogenesis | |
| In this course, we understand various strategies of pathogenic bacteria to cause disease inside their host cells using a molecular and genetic approach. | ||
| GEN7027 | Programming for Genomics | |
| This class is to enhance the programming background in pursuit of studying genomics. | ||
| GEN7029 | BIO-Business start-up & management | |
| The goal: to teach what it takes to pluck a scientific discovery from academia and turn it into a company | ||
| GEN7031 | Advanced Microbial Physiology | |
| Advanced Microbial Physiology is a class for graduate students who need to understand an advanced knowledge of microbial physiology. Each class includes discussion and presentation about new concepts and recent technological advances in microbial physiology. | ||
| GEN7032 | Advanced Intellectual Property | |
| The importance of intellectual property is growing day by day. The object of Engineering is to provide a solution to the problem of the customer in the form of product. Most of the ideas associated with new product development can be protected by intellectual property. If you develop a new product without considering the intellectual property of others, you may meet serious problems that you can not sell the new product. You may also meet a helpless situation that you can not seek a proper means for the protection of your ideas. Those who will conduct R&D must understand and use the intellectual property. This is not optional but essential. This course covers the main content of the intellectual property in this regard. | ||
| GEN7033 | Advanced GMP manufacturing and quality standards of Biologics | |
| This course is designed to introduce graduate students to the current good manufacturing practices (CGMPs) used in the biotechnology industries. The course will address the requirements and practices that the manufacturers should follow in order to produce safe biopharmaceuticals with good qualities. The students also can get the knowledge about the laws, regulations, and relevant guidance governing biopharmaceutical manufacturing in developed countries and Korea. | ||
| GEN7034 | Systems Molecular Biology in Plant | |
| It deals in detail with metabolic control technology using molecular biological technologies related to gene recombination. | ||
| GEN7035 | Application of Plant molecular Systems Biotech | |
| Each student in the class will research various topics in plant molecular biology and plant systems biotechnology, reading original literature. Students are encouraged to make use of web-based resources devoted to plant research. The instructor provides background lectures on general topics. At least one original research paper will be evaluated during the course. Students are encouraged to use computer-based presentations including Power Point. Talk organization and clarity, preparation, and responses to questions will be used to evaluate the student. The course grade will be additionally determined by class participation. | ||
| GEN7036 | Advanced Systems Biochemistry | |
| Learn in depth about the synthetic pathways and in vivo functions of primary and secondary metabolic products, the main medium of biological activity in the cell. | ||
| GEN7037 | Advanced Protein Engineering | |
| Understand the general structure and properties of protein, the main medium of biological activity in the cell, and learn about the refining, analysis and application of functional proteins. | ||
| GEN7038 | Advanced Plant Physiology | |
| It studies the growing and growing principles of the plant and addresses the causes of the phenomenon that change according to all physiological phenomena, environmental conditions and methods of cultivation that occur during the crops ' growth and differentiation process. | ||
| GEN7039 | Integrating Omics | |
| Coming into the era of big data, which is becoming popular thanks to recent developments in biotechnology, it is a new and creative solution to a problem that could not be solved through a combination of research in the field of flashlights. | ||
| GEN7040 | Plant Biochemical Metabolism | |
| Based on the individual or integrated understanding of the primary and secondary metabolic streams, we will learn the metabolic control engineering in depth using molecular biological technologies related to gene recombination. | ||
| GEN7041 | Advanced Plant Molecular Biology | |
| The intention of the course is to provide a survey of plant molecular biology, molecular genetics and genomics emphasizing recent advances in higher plants. In this course, students will be introduced not only to plant biology, but also to concepts and techniques in molecular biology and genetics. | ||
| GEN7042 | Plant Biochemistry | |
| This course focuses on the understanding of primary and secondary metabolisms in plants. | ||
| GEN7043 | Plant Physiology | |
| The study about the overall physiological phenomena occurring in the plant cells and plants. | ||
| GEN7045 | Advanced Natural Materials | |
| This course provides the newest research trends on natural materials from research papers. | ||
| GEN7046 | Advanced Natural Polymers | |
| This course provides the newest research trends on natural polymers from research papers. | ||
| PAM713 | Plant Fuctional Genomics | |
| This course aims to provide methodology to study plant function by using genomic information through bioinformatics. |