The major of biochemistry and molecular biology has been teaching biochemistry, bioinformatics, genetic engineering, fermentation engineering and molecular biology for many years, as well as biochemical drugs, genetic engineering drugs, immunology, plant Based on the scientific research work related to interactions with microorganisms and transgenic stress-resistant plants, the growth point is to study and clarify the biochemical metabolic process of organisms and use molecular biology methods to reveal the mechanism of metabolic changes. Welcome everyone to read relevant information! Analytical Interpretation of Biochemistry and Molecular Majors at the University of Southern California
Master of Science in Biochemistry and Molecular Medicine
Biochemistry and Molecular Medicine, M.S.
Biochemistry and Molecular Medicine The Master of Science is a STEM program designed to provide rigorous theoretical and practical training in research related to biochemistry and molecular medicine. Students conduct research in areas such as genetic disease, cancer, development, stem cells, drug discovery, epigenetics, structural biology, and bioinformatics. The majority of our graduates successfully enter the biotechnology or pharmaceutical industry, complete top PhD programs or undertake internships/work. The Department of Biochemistry and Molecular Medicine receives more than $16 million in research funding annually and has affiliated programs including the Institute for Genetic Medicine, the Norris Comprehensive Cancer Center and the Zikha Neurogenetic Institute.
Our Mission
Relying on advanced equipment and facilities, through a series of research and training, our team of well-known teachers with diverse backgrounds combines the basic concepts of biochemistry with a wide range of cross-disciplinary topics. The combination of subject themes allows students to better understand the underlying mechanisms of human disease and achieve major breakthroughs in drug development, therapeutic science, disease etiology, genomics, and the prevention, diagnosis and treatment of disease.
Course Highlights
? This major lasts for two years. The strict curriculum perfectly combines thesis and guided research;
? It is guided by the thesis. Using advanced experimental methods, the content focuses on: cancer biology, therapeutic science, genetic diseases, drug discovery, epigenetics, bioinformatics, stem cell biology, and structural biology, etc.;
? Courses Focus on the cultivation of students' abilities, including: scientific writing (applied to formal thesis writing), public speaking reports, independent critical thinking, problem-solving abilities, etc.
? In the second year of the course, students will participate in biology Annual medical symposium to communicate with researchers from different backgrounds;
Students will have the opportunity to co-author publications.
Course Schedule
This master’s program requires students to complete at least 34 credits of graduate-level courses. A total of 16 credits of required courses in the first year will help students deeply understand and learn traditional and state-of-the-art concepts and methods, including biostatistics courses. In the second year, students are required to complete at least 10 credits of directed research. For the remaining 8 credits, students are free to choose courses within and outside the department.
First Year
Autumn
BIOC581 Biochemistry and Molecular Biology Toolbox 4 credits
BIOC511 Fundamentals of Molecular Medicine 4 credits< /p>
BIOC000 Faculty Research Report 0 Credits
Spring
BIOC515 Logic and Design of Disease Mechanism Research 4 Credits
TRGN527 Applied Data Science and Biology Informatics 4 credits
BIOC590 Directed Research 2 credits
Summer
INTD500 Ethics and Responsibility in Biomedical Research 0 credits
Chapter Second academic year
Fall
BIOC590 Directed research 2-6 credits
BIOC594A Master’s thesis 2 credits
BIOC599 Exploring data release methods 2 credits
*Up to 4 credits of elective courses
Spring
BIOC573 Best Research Presentation 0 credits
BIOC590 Directed Research 2-6 credits< /p>
BIOC594B Master’s thesis 2 credits
*Elective courses up to 4 credits
*Elective courses
Fall
BIOC561 Molecular Biology 4 credits
INTD531 Advanced Cell Biology 4 credits
INTD504 Cancer Molecular Biology 4 credits
INTD572 Systems Physiology and Disease (I) 4 credits
BIOC575 Predictive and prognostic biomarkers in cancer treatment 2 credits
BIOC580 Cancer (Epi)Genomics 1 credit
Spring
< p> BIOC543 Human Molecular Genetics 4 creditsBIOC549 Protein Chemistry 4 credits
MEDS537 Pathway and Target Discovery 4 credits
INTD573 Systems Physiology and Disease (2) 4 credits
BIOC580 Cancer (Epigenomics) 1 credit
Summer
PM579 Statistical Analysis of High Dimensional Data 4 credits
Career Directions
Students admitted to this program come from all over the world, including China, India, South Korea, Japan, Thailand, Saudi Arabia, Canada, Finland and Switzerland.
Graduates can serve in a variety of positions
R&D personnel in the pharmaceutical or biotechnology industry
Technical support and sales staff
Faculty members at universities or research institutions
Research assistants in academic research laboratories
Physicians
Pharmacists
Patent attorneys
Technical Writer
There are also many graduates who choose to continue to study for a doctoral degree. The admitted institutions include: University of Southern California, California Institute of Technology, Cornell University, Duke University, and Oxford University, University of California, Berkeley, University of California, Los Angeles, Washington University in St. Louis, University of Utah and University of Minnesota, among others.