B.Tech Genetic Engineering is a UG program that aids aspirants to learn the application of Genetic Manipulation, Molecular Biology, and Biotechnology. The Genetic Engineering curriculum focuses on areas of engineering, incorporating advanced biological sciences. The Bachelor's in Genetic Engineering includes Genetics, Genomics, recombinant DNA Technology, Bioinformatics, and much more.
The strong practical component of the B.Tech in Genetic Engineering course is complemented by laboratory work, seminars, projects, and electives that prepare the students for a career in research, health care, agriculture, pharmaceutical sectors, and biotechnology industries. The syllabus is periodically revised in response to developments in genetic engineering such that, at the time of graduation, students possess theoretical knowledge and practical skills to suit modern scientific and industrial demands.
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B.Tech in Genetic Engineering Semester-Wise Syllabus 2025
The B.Tech Genetic Engineering program covers core engineering, fundamental biology, and advanced topics in genetic engineering. Basic concepts are covered in the starting semesters, including Mathematics, Physics, Chemistry, and Cell Biology. The later semesters cover areas like Molecular Biology, Genetic Engineering, Bioinformatics, Gene Therapy, and Biotechnology, along with practical labs and project work. The B Tech Genetic Engineering syllabus followed at Sharda University is mentioned below:
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B.Tech in Genetic Engineering Elective Subjects
Students can select the different electives for B Tech in Genetics from the list mentioned below:
B.Tech in Genetic Engineering Semester-wise Exam Pattern
The B.Tech in Genetic Engineering follows an 8-semester exam pattern, with each semester lasting six months. At the end of every semester, students must appear for the external examinations that include both theoretical and practical components. This helps in assessing their understanding of core subjects and laboratory skills. More details are mentioned in the table below:
Frequently Asked Questions
What are the core subjects of the B.Tech in Genetic Engineering syllabus?
In the B.Tech Genetic Engineering syllabus, many core subjects exist. Among these are Cell Biology, Biochemistry, Genetics, Cytogenetics, Molecular Biology, Biophysics, Bioprocess Engineering, Chemical Reaction Engineering, Bioinformatics, Immunology, Enzyme Technology, and Metabolic Engineering. Besides these core subjects, the B.Tech Genetic Engineering syllabus generally includes interdisciplinary subjects from computer science and chemical engineering, thus equipping the students for a broad scientific base.
How is the B.Tech in Genetic Engineering syllabus structured for the four years?
The B.Tech in Genetic Engineering syllabus is divided into two-year periods in eight semesters. The syllabus begins in the first year with foundational courses in Engineering Mathematics, Physics, Chemistry, and introductory Biology. The advanced subjects like rDNA Technology, Genomics, Proteomics, Gene Therapy, Cancer Biology, and specialized electives are taught in subsequent semesters. Adding to the syllabus of the B.Tech in Genetic Engineering are practical labs, seminars, mini-projects, and the final-year project.
What kinds of practicals are included in the syllabus of B.Tech. in Genetic Engineering?
The syllabus of BTech in Genetic Engineering laboratory work consists of realizations in Microbiology, Molecular Biology, Biochemistry, Immunology, Plant Genetic Engineering, Gene Cloning, and Animal Cell Culture. Seminars, projects, and training provide practical experience and research exposure to the students during the course.
What key skills are students expected to learn from the B.Tech in Genetic Engineering syllabus?
Students studying for a B.Tech in Genetic Engineering are expected to learn the art of manipulating genes such as molecular cloning, bioinformatics, proteomics, genomics, etc. They shall also study the impact of genetic engineering on ethical, legal, and social issues in society. Apart from this, the B.Tech in Genetic Engineering also teaches research methodology, biosafety, bioethics, and intellectual property rights.
