MM307 Molecular Basis of Diseases 1 (Trial)
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About This Module
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Students mustView
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Module Coordinator
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Module Facilitators
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Students mustView
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Students mustView
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Ice Breaking Session
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eBook
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Students mustView
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References
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Marking rubric
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Students mustMark as done
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Topic Discussion
This is an ongoing discussion platform for each topic. You can post questions, share learning resources or even share your thoughts and suggestions related to the topic.
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Formative Assessment
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Students mustMark as done
1. Introduction to Molecular Basis of Disease 1
Knowledge check activity
2. Functional Basis of Molecular Diseases
Knowledge check activity
3. Molecular Basis of Neurodegenerative Disorders
Knowledge check activity
4. Molecular basis of Cardiovascular Diseases
Knowledge check activity
5. Molecular Basis of Renal Disorders
Knowledge check activity
Discussion sessions
6. Molecular Basis of Musculoskeletal Disorders
Knowledge check activity
Discussion sessions
7. Molecular Basis of Reproductive Disorders
Knowledge check activity
Discussion sessions
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Summative Assessment
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Students mustMark as done
1. Molecular Basis of Neurodegenerative Disorders
Case Study Report Submission
2. Molecular Basis of Cardiovascular Diseases
Case Study Report Submission
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Introduction to molecular basis of diseases 1 (Lecture- 1 hr)
Faculty-in-Charge: Dr. Mayuren Candasamy
This is a lecture outlining the basics of molecular diseases, including molecular biology, drug/receptor interactions, receptors and ion channels, regulation of second messengers, and drug metabolism. The correlation of genetics, basic physiology and pathology and its influence on molecular resistance, diagnostics, treatment and translational research will be dealt with.-
Learning Resources:
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Functional basis of molecular diseases (Lectures- 2 hrs)
Faculty-in-Charge: Dr. Mayuren Candasamy
The lectures deal with dose response curves, knowledge regarding various molecular models of drug-receptor interaction like Molecular Models of Drug-Receptor Interaction including heterotrimeric and ternary complexes and operational model of drug action and various mechanisms of efficacy that include direct agonism, stimulus response mechanisms, estimation of agonist efficacy and indirect agonism. This will help students to understand the practicalities involved in the functional pharmacology which include different methods employed for measurement and comparison of drug response and various pre-requisites for the acquisition of reliable data.-
Students mustMark as done
Learning Resources:
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Dear Students,
After going through the lecture notes, please go through the reading materials for your detailed understanding. Once you have finished your reading, please ensure that the knowledge check activity has been completed.
Thank You
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Students mustMark as done
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Students mustMark as done
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Students mustMark as done
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Students mustMark as done
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Students mustMark as done
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Students mustMark as done
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Students mustMark as done
Knowledge Check Activity:
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Students mustMark as done
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