4.7
Molecular biology and genetic engineering have transformed how we understand life at the molecular level, establishing the path for ground-breaking advances in health, agriculture, and biotechnology. This comprehensive hands-on training program aims to provide learners with academic understanding as well as practical skills in molecular biology and genetic engineering techniques.
BDG LifeSciences is honoured to provide an intensive 5-day online training program that delves deep into the principles of molecular biology and genetic engineering, offering learners with practical experience in critical procedures. This program bridges the gap between theory and practice, ensuring that participants leave with both knowledge and practical abilities.
Why you should attend?
1. Master practical skills.
- Learn how to execute common molecular biology techniques like DNA isolation, PCR, and gel electrophoresis.
2. Understand advanced tools.
- Learn about innovative tools for genome editing, such as CRISPR.
3. Stay industry-ready.
- Prepare yourself with the information and abilities that are in great demand in biotechnology and pharmaceutical industries.
4. Expand your network.
- Connect with your classmates, scholars, and industry experts using an engaging online platform.
5. Certification
- Obtain a globally recognised certificate to demonstrate your skills in molecular biology and genetic engineering.
6. Comprehensive Training.
- Immerse yourself in the field of molecular biology and genetic engineering with an all-inclusive program.
7. Learn from experts.
- Learn from industry-leading professors who have considerable experience in molecular research and genetic engineering.
8. Boost Your Career
- Obtain an internationally recognised certification to set yourself distinct in academics and the biotech industry.
Program Highlights:
At the conclusion of the session, participants will:
1. Understand the basic concepts of molecular biology and genetic engineering.
2. Learn about gene cloning, restriction digestion, and PCR procedures.
3. Learn how to isolate DNA, run electrophoresis assays, and perform transformations.
4. Investigate the function of molecular biology in drugs discovery, agriculture, and genetic research.
Who Should Attend?
This program is ideal for:
1. Students: Young biologists, biotechnologists and bioinformaticians.
Topics Covered:
1. Introduction to Molecular Biology.
- Key principles and practices.
- Applications in genetic engineering, medicine, and biotechnology.
2. DNA Isolation and Analysis
- Extracting DNA from numerous sources.
- Techniques for assessing DNA quality and concentration.
3. Gene Cloning
- Cloning Principles.
- Vector design and selection.
- Transformation and screening procedures.
4. Polymerase Chain Reaction, or PCR
- Fundamentals of PCR and its applications.
- Designing primers and optimising conditions.
5. Restriction Digestion and electrophoresis
- Understanding restriction enzymes.
- Visualisation of DNA fragments via gel electrophoresis.
6. Genetic Engineering Techniques
- Understanding CRISPR-Cas9 and other genome editing techniques.
- Applications in agriculture, healthcare, and research.
7. Applications in biotechnology
- Genetic engineering's contribution to medication development and discovery.
- Use for boosting crop resistance and productivity in agriculture.
8. Hands-on Case Studies
- Practical exercises that reinforce theoretical understanding.
Methodology
The training program offers an interactive and learner-centred approach:
1. Live Online Sessions
- Real-time interactivity makes classes more engaging.
2. Practical Learning
- Proper guidance on conducting molecular biology experiments on your system.
3. Real-world applications.
- Case studies demonstrate how genetic engineering is used in science and industry.
4. Post-Session Resources
- Access to recorded sessions, comprehensive manuals, and troubleshooting instructions.
5. Mentorship and Support
- Instructors provide dedicated support to ensure that learning proceeds smoothly.
Benefits of Attending
1. Gain practical expertise.
- Learn essential methods that include DNA isolation, PCR, cloning, and gel electrophoresis.
2. Expand Your Career Prospects
- Molecular biology and genetic engineering are critical in academia, medicine, agriculture, and biotechnology sectors.
3. Global networking
Join a global network of learners and industry experts to share ideas and collaborate on projects.
Future applications of genetic engineering
1. Medicine: Development of personalized treatments and gene therapies.
2. Agriculture: Developing crops that are more resistant to diseases and pests.
3. Biotechnology: Advances in vaccine development, protein molecules, and industrial enzymes.
Why Choose BDG LifeSciences?
Since 2010, BDG LifeSciences is leading the way in bioinformatics and life sciences education. With more than 14 years of expertise, we have trained thousands of participants worldwide, assisting them in becoming successful in both industry and academics.
Our courses emphasize real-world, application-based learning, guaranteeing that students acquire practical experience in their chosen field. By choosing this training , you are investing in high-quality education from highly qualified professionals.
Take the first step towards learning the exciting fields of molecular biology and genetic engineering. Register and reserve your position in this revolutionary program.
Spaces are limited, so don't delay in acquiring the skills and knowledge required to foster scientific innovation from our bioinformatics course
How to Register
To secure your spot:
Previous Events and Testimonials
Gain insight into our past workshops:
Upcoming Programs: Explore other upcoming events here.
