This online course provides an in-depth understanding of carbohydrate metabolism, essential for students pursuing a career in biochemistry, pharmacy, or related fields. Throughout this course, participants will explore the key biochemical pathways involved in carbohydrate breakdown, storage, and synthesis, gaining insights into their roles in health and disease.
The course is divided into four weeks, with each week focusing on different metabolic processes, starting with the fundamentals and progressing through complex biochemical pathways.
Week 1:
We begin by introducing the concept of metabolism, explaining its definition, and distinguishing between catabolism and anabolism. We dive into the glycolysis pathway and its energetics, setting the stage for more complex metabolic pathways.
Week 2:
This week focuses on the Citric Acid Cycle, Gluconeogenesis, and the HMP Shunt. Students will learn about energy production, gluconeogenesis in maintaining blood glucose levels, and the role of the HMP Shunt in cellular functions.
Week 3:
We cover glycogen metabolism, including glycogenesis, glycogenolysis, and glycogen storage diseases. Special attention is given to the mechanism of glucose-6-phosphate dehydrogenase deficiency (G6PD) and its role in protection against malaria.
Week 4:
The final week delves into the Electron Transport Chain, exploring its role in oxidative phosphorylation and ATP synthesis. We discuss the mechanism of electron transport and the impact of inhibitors on cellular respiration.
Each week consists of video lectures, detailed study material, quizzes to reinforce key concepts, and assignments designed to deepen your understanding of the topics. By the end of the course, participants will have a comprehensive grasp of carbohydrate metabolism, its regulation, and its clinical relevance, preparing them for advanced studies or careers in the life sciences.
Course Features:
-
11 video lectures explaining key concepts
-
Study material to enhance learning
-
Quizzes with multiple-choice questions to test your understanding
-
Assignments to apply knowledge in real-world scenarios
-
Self-paced learning with the flexibility to study anytime
- Teacher: Dean KIP
Scope:
This course provides a comprehensive introduction to fundamental practical skills required in pharmaceutical chemistry laboratories. It covers essential laboratory techniques, chemical calculations, API testing, safety protocols, and analytical techniques necessary for pharmaceutical analysis and synthesis. The course is designed for students, researchers, and professionals who seek to strengthen their hands-on laboratory competencies in pharmaceutical chemistry.
Objectives:
By the end of this course, participants will be able to:
1. Understand the principles of pharmaceutical chemistry and the role of practical skills in API synthesis.
2. Perform accurate chemical calculations, including molarity, normality, molality, and yield percentage.
3. Identify and manage laboratory hazards through proper safety protocols and waste management practices.
4. Execute essential laboratory techniques such as weighing, pH measurement, buffer preparation, and chromatography.
5. Conduct organic synthesis reactions and analyze reaction mechanisms commonly used in pharmaceutical applications.
6. Utilize analytical techniques like spectroscopy (UV-Vis, IR, NMR) and chromatography (HPLC, GC) for drug analysis.
7. Develop proficiency in maintaining accurate laboratory records and reporting experimental results effectively.
8. Apply best practices for error minimization and quality control in pharmaceutical labs.
- Teacher: Dean KIP
The Certificate Course in Fundamentals of Secondary Metabolites from Plants is designed to provide learners with a solid foundation in the significance of plant-derived secondary metabolites. This short-term program explores the major classes of secondary metabolites—alkaloids, glycosides, phenolics, flavonoids, tannins, saponins, and resins—highlighting their structural diversity, biological roles, and pharmaceutical importance.
- Teacher: Dean KIP
- Teacher: Dean KIP