Overview
Molecular Biology is at the heart of modern biotechnology, diagnostics,
and research. This comprehensive training program is designed to provide students,
researchers, and professionals with hands-on experience and a solid
theoretical foundation in the core techniques and concepts of molecular
biology.
15 Days/2 Weeks
Program
An intensive program covering fundamental molecular biology techniques and
applications.
Key Topics Covered:
- Good Laboratory Practices and General Safety
Instructions
- Medium preparation and calculations
- Understanding the process of Sterilization
Techniques
- A practical approach towards Luria-Bertani Media
and culturing of microbes
- Isolation of Prokaryotic Bacterial genomic DNA
- Agarose Gel Electrophoresis and visualization
- Isolation & Purification of Genomic DNA from
Plant sample
- Agarose Gel Electrophoresis of Isolated Plant
Genomic DNA
- Isolation & Purification of Plasmid DNA
- Agarose Gel Electrophoresis and visualization of
Isolated Plasmid DNA
30 Days/4 Weeks
Program
An advanced program that builds on fundamental techniques and introduces genetic
engineering concepts.
Additional Topics Covered (includes all 2-week topics plus):
- RNA Isolation and Agarose Gel Electrophoresis of
Isolated RNA
- Restriction Digestion of DNA
- Electrophoresis of Digested DNA Product
- Competent Cell Preparation of E. coli
- cDNA Preparation and Cloning
- Cloning of cDNA into Digested Plasmid (cDNA
Ligation)
- Transformation of Ligated Plasmid into Competent
Cells
- Screening of the Transformed Cells (Blue-White
selection)
Program Highlights
DNA/RNA Techniques
Master isolation, purification, and analysis of nucleic acids
Genetic Engineering
Learn cloning, transformation, and recombinant DNA technology
Lab Proficiency
Develop skills for academic, clinical, or industrial research
Learning Outcomes
- Understand the principles of DNA, RNA, and protein structure and
function
- Gain practical proficiency in essential molecular techniques
- Develop critical thinking for experimental design and data
analysis
- Master genetic engineering techniques including cloning and
transformation
- Prepare for lab-based roles in biotechnology, pharmaceuticals, or
research
Who Should Enroll?
- Students (B.Sc./M.Sc./Ph.D. in Life Sciences, Biotechnology,
Microbiology)
- Lab Technicians seeking skill enhancement
- Researchers preparing for molecular biology projects
- Industry Professionals entering biotech, pharmaceuticals, or
diagnostics