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Certificate in Molecular Biology

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Molecular Biology


About Molecular Biology

The study of molecular biology, which includes biomolecular production, modification, processes, and interactions, aims to comprehend the molecular underpinnings of biological activity inside and between cells. Molecular biology is the study of the chemical and physical makeup of biological macromolecules. Over the next ten years, the field of molecular biology is expected to have demand growth of up to 19%, which is much greater than average when compared to other sectors. Therefore, choosing molecular biology as your field of study might be a sensible career choice because you won't likely have trouble obtaining employment when you graduate.


Why is Molecular Biology important?

In order to effectively target novel treatments, identify diseases, and comprehend cell physiology, molecular biology plays a crucial part in our knowledge of the structures, activities, and internal mechanisms that govern each individual cell.

The use of molecular biology techniques is frequently used for applications such as disease prevention and treatment, the creation of novel protein products, and the modification of plants and animals to produce desired phenotypic features.


Who should take the Molecular Biology Exam?

  • Those who are at graduation level in the field of biology, molecular biology, and Biotechnology.


Molecular Biology Certification Course Outline

  1. Central Dogma of biology
  2. Replication of DNA
  3. Semiconservative replication
  4. Complimentary base pairing
  5. Supercoil and DNA topoisomerase
  6. Replication fork
  7. DNA synthesis catalysed by DNA Polymerase
  8. DNA Damage and Repair
  9. Nucleotide Excision Repair
  10. Base Excision Repair
  11. Mismatch Repair system
  12. Central Dogma of Life
  13. What is Transcription
  14. Mechanism Of Transcription
  15. Post Transcriptional Modification
  16. Genetic Code
  17. Features Of Genetic Code
  18. Codon - Anticodon Pairing
  19. wobble Hypothesis
  20. Link Between Amino Acid And Nucleic Acid
  21. Translation In Prokaryotes   
  22. Translation  in Eukaryotes
  23. Post Translational Modification
  24. Regulation of Gene Expression
  25. Enhancers and silencers
  26. House keeping and invisible genes
  27. One cistron -one subunit concept
  28. DNA organization and Gene expression
  29. Covalent Modification of Histones control Gene expression
  30. Regulation of Gene Expression in Prokaryotes

Certificate in Molecular Biology FAQs

It is an online, proctored test featuring multiple-choice and scenario-based questions that reflect real-world molecular biology challenges.

The exam covers DNA structure and function; RNA biology; protein biosynthesis; gene regulation; molecular techniques (e.g., PCR, electrophoresis, blotting); genetic engineering (cloning, CRISPR); bioinformatics and data analysis; and laboratory safety and ethics.

No. A basic understanding of cell biology and genetics is enough to begin preparing, though hands-on lab work will help solidify your knowledge.

You can work as a Research Assistant, Laboratory Technician, Molecular Biologist, Clinical Research Coordinator, or Biotech Industry Specialist in academic, clinical, and industrial settings.

You must score at least 70% to earn the certification.

The certification remains valid for three years from the date you pass the exam.

Yes. You may retake the exam after a two-week waiting period.

Review the official course outline, standard molecular biology textbooks (e.g., Alberts’ Molecular Biology of the Cell), protocol guides for PCR and blotting, and bioinformatics tutorials for sequence alignment.

Most candidates study for 4–6 weeks, spending about 5–10 hours per week on theory review and practical exercises.

It demonstrates your mastery of core molecular biology concepts and methods, strengthening your credentials for roles in research, clinical labs, and biotech industries.