Bachelor of Technology [B.Tech.] Genetic Engineering: Courses, Admission 2025, Fees, Syllabus, Entrance Exam, Top Colleges, Scope
Latest Updates: Bachelor of Technology [B.Tech.]Genetic Engineering 2025
December 20, 2025: JEE Main 2025: Question Paper for Session 2 OUT! December 20, 2025: The dates of the CUET UG test are set for May 15, 2025, and May 31, 2025. December 19, 2025: There will be two dates for JEE Main 2025: January and April. December 19, 2025: Session 1 of JEE Main 2025 will take place from January 24 to February 1, 2025, while session 2 will take place from April 1 to April 15, 2025. December 18, 2025: The registration window for JEE Advanced 2025 will commence on April 21, 2025, and close on April 30, 2025. Additionally, on May 26, 2025, the JEE Advanced 2025 Exam will take place. December 18, 2025: On April 1, 2025, NTA will release the JEE Main Session 2 admission card. Session 2 of the JEE Main Exam takes place from April 4 to April 15, 2025. December 17, 2025: The date of the 2025 WBJEE Exam is April 28, 2025. December 17, 2025: Phase 2 of AEEE 2025 is slated to take place from May 10–14, 2025. December 17, 2025: Exam date for OJEE 2025 is May 6, 2025 – May 10, 2025. December 16, 2025: The deadline for COMEDK UGET 2025 application forms is April 5, 2025. December 16, 2025: May 12, 2025 is the date of the COMEDK UGET exam. December 15, 2025: Additionally, on April 28, 2025, the WBJEE exam 2025 will take place. December 15, 2025: The deadline to apply for VITEEE 2025 has been extended to April 1st December 15, 2025: The computer-based VITEEE 2025 Exam will take place from April 19 to April 30, 2025. December 14, 2025: The dates of the KEAM 2025 exam are June 1, 2025, and June 9, 2025. |
Updated on :
by Kritika
December 23, 2024 10:51 PM
B.Tech Genetic Engineering is a fascinating and innovative field that merges principles of biology and engineering to manipulate the genetic material of living organisms. This four-year undergraduate program delves into the intricacies of biotechnology, focusing on modifying DNA structures to imbue organisms with desired traits. As technology advances, genetic engineering continues to revolutionize various industries, including healthcare, agriculture, and pharmaceuticals.
The student must have earned a grade of at least 50% in their 10+2 or comparable qualification from any board. Candidates should major in either maths, physics, biology, or chemistry in their 12th grade year. They had to have shown up for the entrance exam in accordance with the institute's regulations.
We've covered a few of the most well-known employment paths following a B Tech in genetic engineering in this area. Graduates can get jobs like Genetic Engineer, Genetics and Medical Writer. Leading Recruiters are Aspen Pharma Lupin, Fresenius Medical Care Aurobindo Pharma and Sun Pharmaceutical Industries, Inc.
What is B.Tech Genetic Engineering?
The B.Tech Genetic Engineering program aims to provide students with an in-depth understanding of molecular biology, genetics, and bioinformatics. Genetic engineering is the biological engineering of living organisms with the potential to benefit society. This program delves into genetic manipulation, gene therapy, cloning, and sequencing methods. Through practical training and laboratory work cultivate technical expertise in the up-and-coming area of genetic engineering among aspiring professionals.
B.Tech Genetic Engineering Course Details
Here are the essential details regarding the B.Tech Genetic Engineering Course:
| Course Details | Details |
| Duration | The B.Tech Genetic Engineering program spans four years, divided into eight semesters. |
| No. of Colleges Offering This Course | 7 |
| Eligibility | Candidates must have completed their 10+2 education with Physics, Chemistry, Biology, and Mathematics as major subjects, with a minimum aggregate of 50%. |
| Admission Process | Admission is typically based on entrance tests or cutoff marks in qualifying examinations. |
| Course Fees | The average course fee in India ranges from INR 2 to 10 lakhs, depending on the institution. |
| Average Salary | Graduates can expect an average starting salary of around INR 2 lakhs per annum. |
| Job Profiles | Career opportunities for B.Tech Genetic Engineering graduates include roles such as Genetic Engineer, Information Security Engineer, and Scientific and Medical Writer. |
| Top Recruiters | Leading pharmaceutical companies such as Lupin, Aspen Pharma, Aurobindo Pharma, and Fresenius Medical Care are among the top recruiters for B.Tech Genetic Engineering graduates. |
Why Study B.Tech Genetic Engineering Degree Courses?
B.Tech Genetic Engineering program offers students advanced knowledge and skills to tackle environmental challenges and address the needs of modern medicine. Through a combination of theoretical learning and practical applications, they learn to develop organisms that exhibit enhanced characteristics, such as resistance to pests, tolerance to herbicides, and modified oil content in crops.
- Cutting-Edge Science: B.Tech Genetic Engineering covers the forefront of scientific innovation, offering students the opportunity to explore the latest advancements in genetic manipulation techniques.
- Addressing Global Challenges: With pressing issues such as food security, environmental sustainability, and healthcare, genetic engineering are important factors in developing solutions to these challenges.
- Diverse Career Opportunities: Graduates of B.Tech Genetic Engineering programs have access to numerous career paths in sectors such as biotechnology, pharmaceuticals, agriculture, and research institutions.
- Impactful Contributions: Through genetic engineering, individuals can contribute to creating organisms with beneficial traits, potentially revolutionizing industries and improving quality of life.
- Interdisciplinary Approach: B.Tech Genetic Engineering integrates principles from biology, genetics, chemistry, and engineering, providing students with a comprehensive understanding of the field's multidisciplinary nature.
- Innovation and Creativity: Studying genetic engineering increases creativity and innovation, encouraging students to devise modern solutions to complex biological problems.
Different Types of B.Tech Genetic Engineering Degree Courses
B.Tech Genetic Engineering degree courses usually have multiple specializations designed to adequately meet the unique requirements of individual learners. Although the core courses mainly present general concepts and techniques relevant to genetic engineering, the several electives enable students to further explore areas of interest. Some of the common B.Tech Genetic Engineering degree courses include:
| Course Name | Description |
| Molecular Genetics | This course focuses on the study of genes at the molecular level, exploring topics such as DNA structure, replication, transcription, and translation. Students learn about techniques used in molecular biology, including polymerase chain reaction (PCR), gene cloning, and DNA sequencing. |
| Biotechnology | Biotechnology courses delve into the application of genetic engineering techniques in various sectors, including agriculture, healthcare, and industrial biotechnology. Students gain hands-on experience in gene editing, recombinant DNA technology, and genetic modification of organisms. |
| Genomics and Proteomics | Genomics and proteomics courses examine the structure, function, and regulation of genes and proteins on a genome-wide scale. Students learn about genome sequencing, bioinformatics analysis, and high-throughput technologies used in genomics and proteomics research. |
| Bioinformatics | Bioinformatics courses integrate computer science and biological sciences to analyze and interpret biological data, including DNA sequences, protein structures, and gene expression patterns. Students develop proficiency in programming languages, statistical analysis, and database management for biological data analysis. |
| Genetic Engineering Applications | This course explores the practical applications of genetic engineering in areas such as agriculture, medicine, and environmental conservation. Students examine case studies and real-world examples of genetically modified organisms (GMOs) and gene therapy techniques. |
| Ethical and Legal Aspects of Genetic Engineering | This course addresses the ethical, social, and legal implications of genetic engineering technologies. Students explore topics such as genetic privacy, informed consent, intellectual property rights, and bioethics principles in the context of genetic research and biotechnology. |
| Advanced Topics in Genetic Engineering | Advanced courses cover specialized topics and emerging trends in genetic engineering, such as CRISPR-Cas9 genome editing, synthetic biology, gene therapy, and personalized medicine. Students engage in research projects and seminars to explore cutting-edge developments in the field. |
B.Tech Genetic Engineering Degree Courses: Eligibility Criteria
| Eligibility Criteria for B.Tech Genetic Engineering | Description |
| Academic Qualification | - Candidates must have passed the Higher Secondary School Certificate (10+2) examination from a recognized Board of education. |
| Subjects Required | - Biology, Physics, and Chemistry must be the main subjects studied at the 10+2 level. |
| Minimum Aggregate Score | - A minimum aggregate score of 60% is required in the 10+2 examination. |
| Additional Qualifications | - Candidates with a Bachelor’s degree in Science or Molecular Biology are also eligible to apply. |
Top B.Tech Genetic Engineering Entrance Exams 2025 in India
Preparing for B.Tech Genetic Engineering entrance exams requires thorough planning and dedication. Here are some of the top entrance exams for B.Tech Genetic Engineering in India:
| Entrance Exam | Description |
| Joint Entrance Examination (JEE) Main | Conducted by the National Testing Agency (NTA), JEE Main is a national-level entrance exam for admission to various undergraduate engineering programs, including B.Tech Genetic Engineering. |
| BITSAT (Birla Institute of Technology and Science Admission Test) | BITSAT is conducted by the Birla Institute of Technology and Science (BITS) for admission to its integrated first-degree programs, including B.Tech Genetic Engineering. |
| VITEEE (Vellore Institute of Technology Engineering Entrance Examination) | VITEEE is conducted by VIT University for admission to its B.Tech programs, including Genetic Engineering. |
| SRMJEEE (SRM Joint Entrance Examination) | SRMJEEE is conducted for admission to B.Tech programs offered by SRM Institute of Science and Technology. B.Tech Genetic Engineering aspirants can appear for SRMJEEE to secure admission to Genetic Engineering programs. |
| KEAM (Kerala Engineering Architecture Medical Entrance Exam) | KEAM is conducted by the Commissioner of Entrance Examinations (CEE), Kerala, for admission to engineering courses in the state, including B.Tech Genetic Engineering programs. |
B.Tech Genetic Engineering Recommended Books:
Before starting your B.Tech Genetic Engineering entrance exam preparation, it's essential to go through standard textbooks and reference materials. Some recommended books for preparation include:
- "Concepts of Genetics" by William S. Klug
- "Molecular Biology of the Gene" by James D. Watson
- "Genetics: From Genes to Genomes" by Leland H. Hartwell
- "Principles of Genetics" by D. Peter Snustad and Michael J. Simmons
- "Genetic Engineering: Principles and Methods" by Jane K. Setlow
B.Tech Genetic Engineering Cutoff 2024
The cutoff marks for B.Tech Genetic Engineering courses vary from year to year and depend on factors such as the number of applicants, the difficulty level of the entrance exam, and the availability of seats in top colleges. Here's an insight into the expected cutoff trends for 2025:
| Entrance Exam | Cutoff |
| JEE Main | For top engineering colleges like IITs, NITs, and other reputed institutes, the JEE Main cutoff for Genetic Engineering may range between 80 to 90 percentile for general category candidates. However, it's important to note that the cutoff may differ for different categories. |
| State-Level Entrance Exams | State-level entrance exams like KEAM, MHT CET, and others have their respective cutoff marks for Genetic Engineering courses in colleges within the state. The cutoff for these exams is usually determined based on factors specific to each state, including the number of applicants and the difficulty level of the exam. |
| Institute-Specific Cutoffs | Each institute may have its own cutoff marks for B.Tech Genetic Engineering based on their admission policies and past trends. Institutes like BITS Pilani, VIT Vellore, SRM Chennai, and others set their cutoffs considering various factors like the number of applicants, the performance of candidates, and the availability of seats. |
| Category-Wise Cutoffs | Cutoff marks may also vary based on the category of the candidates, such as general, OBC, SC, ST, and others. Generally, candidates belonging to reserved categories have a lower cutoff compared to those from the general category. |
| Previous Year Trends | Analyzing the cutoff trends from previous years can provide valuable insights into the expected cutoff for 2025. Candidates can refer to previous year's cutoff marks to estimate the range within which the cutoff for B.Tech Genetic Engineering may fall in 2025. |
B.Tech Genetic Engineering Admission 2025
| Particulars | Details |
| Entrance Exams | Most institutes conduct entrance exams like JEE Main, BITSAT, VITEEE, SRMJEEE, and state-level exams such as KEAM, MHT CET, etc. |
| Direct Admission | Some institutes offer direct admission based on merit or through management quota seats. |
| Eligibility Criteria | Candidates must pass 10+2 with Physics, Chemistry, and Biology/Mathematics with a minimum aggregate percentage set by the institutes. |
| State-wise Admission Process | Each state may have its own admission process for government and private engineering colleges. Check respective state admission authorities' websites |
| Scholarships | Various scholarships are available for meritorious and economically disadvantaged students. Apply during admission or as per scholarship guidelines. |
