About
The world faces the critical challenge of feeding an ever-growing population while minimizing environmental impact. Genetic engineering has emerged as a powerful tool in agricultural biotechnology, offering innovative solutions for crop improvement, resistance to pests and diseases, and reduced reliance on chemical inputs. This 1-month program delves into the fundamental principles of genetic engineering and its transformative applications in agriculture.
Participants will explore the role of genetically modified organisms (GMOs), gene editing tools like CRISPR, and other modern technologies in agricultural biotechnology. Through case studies and practical sessions, the course covers key aspects of genetic manipulation, regulatory frameworks, and the ethical implications of biotechnology in agriculture, preparing participants for advanced roles in this dynamic field.
Aim
This program aims to equip participants with a thorough understanding of genetic engineering techniques in agricultural biotechnology, focusing on crop improvement, pest resistance, and sustainable agriculture. Participants will learn how genetic engineering contributes to enhancing agricultural productivity and food security.
Program Objectives
- Understand the principles of genetic engineering in agriculture.
- Explore modern technologies like CRISPR in crop improvement.
- Learn about pest resistance and drought-tolerant crops.
- Analyze the regulatory frameworks surrounding GMOs and biotechnology.
- Evaluate the ethical and environmental impacts of genetic engineering in agriculture.
Program Structure
Week 1: Introduction to Genetic Engineering in Agriculture
Overview of Genetic Engineering and Agricultural Biotechnology.
The Role of GMOs in Agriculture: History and Evolution.
CRISPR and Other Gene-Editing Tools in Agricultural Biotechnology.
Regulatory and Ethical Considerations in Genetic Engineering.
Week 2: Applications in Crop Improvement
Genetic Modifications for Pest Resistance.
Enhancing Crop Yield through Genetic Engineering.
Case Studies: Drought-Tolerant and Herbicide-Resistant Crops.
Practical Session: Designing Gene-Editing Experiments for Crops.
Week 3: Regulatory Frameworks and Ethical Implications
Global Regulatory Standards for GMOs.
Navigating the Approval Process for Genetically Engineered Crops.
Ethical Issues in Genetic Modification and Biotechnology.
Real-World Case Studies of Regulatory Challenges.
Week 4: Future Trends and Innovations
The Future of Genetic Engineering in Agriculture.
Emerging Technologies in Crop Improvement.
Career Opportunities in Agricultural Biotechnology.
Preparing for Research and Industry Roles in Biotech Agriculture.
Participant’s Eligibility
- Undergraduate degree in Agricultural Science, Biotechnology, or related fields.
- Professionals in the agricultural biotechnology or food production industries.
- Individuals with a keen interest in genetic engineering and sustainable agriculture.
Program Outcomes
- Understanding of genetic engineering and its role in agriculture.
- Ability to apply gene editing tools to improve crop yield and resilience.
- Familiarity with the regulatory landscape for GMOs.
- Ethical and environmental awareness in genetic engineering practices.
- Practical skills for advancing agricultural biotechnology innovations.
Program Deliverables
- Access to e-LMS
- Real-Time Project for Dissertation
- Project Guidance
- Paper Publication Opportunity
- Self Assessment
- Final Examination
- e-Certification
- e-Marksheet