Comprehensive Course Listing
| Semester | Course Code | Course Title | Credits (L-T-P-C) | Prerequisites |
|---|---|---|---|---|
| 1 | BIO101 | Introduction to Biology | 3-0-0-3 | - |
| 1 | CHE101 | Chemistry for Biotechnology | 3-0-0-3 | - |
| 1 | MAT101 | Mathematics I | 3-0-0-3 | - |
| 1 | PHY101 | Physics for Biotechnology | 3-0-0-3 | - |
| 1 | BIO102 | Biology Lab | 0-0-3-1 | - |
| 1 | CHE102 | Chemistry Lab | 0-0-3-1 | - |
| 1 | MAT102 | Mathematics I Lab | 0-0-3-1 | - |
| 2 | BIO201 | Cell Biology | 3-0-0-3 | BIO101 |
| 2 | CHE201 | Organic Chemistry | 3-0-0-3 | CHE101 |
| 2 | MAT201 | Statistics and Probability | 3-0-0-3 | MAT101 |
| 2 | PHY201 | Modern Physics | 3-0-0-3 | PHY101 |
| 2 | BIO202 | Cell Biology Lab | 0-0-3-1 | BIO101 |
| 2 | CHE202 | Organic Chemistry Lab | 0-0-3-1 | CHE101 |
| 3 | BIO301 | Molecular Biology | 3-0-0-3 | BIO201 |
| 3 | CHE301 | Physical Chemistry | 3-0-0-3 | CHE201 |
| 3 | BIO302 | Molecular Biology Lab | 0-0-3-1 | BIO201 |
| 3 | CHE302 | Physical Chemistry Lab | 0-0-3-1 | CHE201 |
| 4 | BIO401 | Genetics and Genomics | 3-0-0-3 | BIO301 |
| 4 | BIO402 | Genetics Lab | 0-0-3-1 | BIO301 |
| 5 | BIO501 | Bioprocessing and Fermentation Technology | 3-0-0-3 | BIO401 |
| 5 | BIO502 | Bioprocessing Lab | 0-0-3-1 | BIO401 |
| 6 | BIO601 | Bioinformatics and Computational Biology | 3-0-0-3 | BIO501 |
| 6 | BIO602 | Bioinformatics Lab | 0-0-3-1 | BIO501 |
| 7 | BIO701 | Pharmaceutical Biotechnology | 3-0-0-3 | BIO601 |
| 7 | BIO702 | Pharmaceutical Lab | 0-0-3-1 | BIO601 |
| 8 | BIO801 | Capstone Project | 0-0-6-6 | BIO701 |
Advanced Departmental Electives
The department offers a range of advanced elective courses designed to deepen students' expertise in specialized areas of biotechnology. These courses are taught by leading faculty members who are actively engaged in cutting-edge research and industry collaborations.
- Bioinformatics and Computational Biology: This course introduces students to computational tools used in analyzing biological data, including sequence alignment algorithms, protein structure prediction, and genome assembly techniques. Students learn to apply these methods to solve real-world problems in genomics and proteomics.
- Drug Design and Development: This elective explores the principles of rational drug design, including molecular docking, ADMET properties, and lead optimization strategies. Students engage with industry-standard software for virtual screening and structural biology.
- Bioreactor Engineering: Focused on the design and operation of bioreactors used in large-scale biotechnology processes, this course covers topics such as mass transfer, mixing dynamics, and control systems. Practical sessions involve operating pilot-scale reactors under various conditions.
- Microbial Biotechnology: This course delves into the applications of microorganisms in industrial settings, including fermentation technology, enzyme production, and biofuel synthesis. Students conduct experiments involving microbial cultivation and product characterization.
- Regenerative Medicine: Covering stem cell biology, tissue engineering, and gene therapy, this elective explores emerging therapies for treating degenerative diseases. The course includes case studies from clinical trials and ethical considerations in regenerative medicine.
- Environmental Biotechnology: This course examines how biological systems can be harnessed to address environmental challenges such as pollution remediation, waste management, and sustainable resource utilization. Students study bioremediation techniques and their applications in real-world scenarios.
- Plant Biotechnology: Focused on genetic modification of crops, this elective explores the use of biotechnology for improving yield, disease resistance, and nutritional value. Students engage in hands-on experiments involving plant transformation and selection techniques.
- Bioethics and Regulatory Affairs: This course discusses ethical issues in biotechnology research and development, regulatory frameworks governing biotech products, and compliance strategies. Students analyze real case studies from regulatory agencies like FDA and EMA.
- Nanobiotechnology: Combining principles of nanotechnology with biological systems, this elective explores the design and application of nanoscale devices for drug delivery, biosensors, and imaging applications. Students gain experience with advanced characterization techniques.
- Bioprocessing Unit Operations: This course covers the fundamental unit operations involved in bioprocess engineering, including separation techniques, purification methods, and process optimization. Students learn to design and scale up bioprocesses using industry-standard software tools.
Project-Based Learning Philosophy
The department's approach to project-based learning is centered on fostering creativity, innovation, and critical thinking among students. Projects are designed to mirror real-world challenges faced by biotechnology companies, ensuring that students gain practical experience relevant to industry needs.
Mini-projects begin in the third year and involve small teams of 3-5 students working under faculty supervision. These projects typically last 6-8 weeks and focus on specific problems within the broader field of biotechnology. Students are required to present their findings through written reports and oral presentations.
The final-year capstone project is a significant component of the program, requiring students to conduct independent research or develop an innovative solution to a complex problem. The project must demonstrate originality, scientific rigor, and practical applicability. Students work closely with a faculty advisor throughout the process, receiving regular feedback on progress and methodology.
Evaluation criteria for projects include scientific soundness, clarity of presentation, innovation, teamwork, and adherence to ethical standards. The department also encourages students to publish their research findings in peer-reviewed journals or present at national/international conferences, providing opportunities for recognition and networking.