Pharmacodynamics: Quantitative Description of Ligand-Receptor Binding

About
Privacy
Disclaimer

Graph Chatbot

Related lectures (32)

Page 3 of 4

Covers the cholinergic and adrenergic synapse, effects of neurotransmitters, receptor classification, and clinical applications.

Drug Targets: Receptors, Enzymes, and Transporters

Explores drug targets like receptors, enzymes, and transporters, focusing on top drug indications and receptor-mediated activation of G proteins.

Nuclear Receptors: Structure and Evolution

Explores the structure and evolution of nuclear hormone receptors, from basic steroid hormone structure to key mutations in resurrected proteins.

Receptor Tyrosine Kinases: Signalling and Regulation

Explores the activation, signalling cascades, and regulatory mechanisms of receptor tyrosine kinases, with a focus on disease implications and therapeutic strategies.

Cell Membrane Receptors: General Principles

Explains cell membrane receptors, signal transduction, and second messengers.

Cellular Signalling: Introduction & Mechanisms

Covers cellular signalling, including long-distance communication, receptor mechanisms, and the impact of small numbers in biology.

Neurotransmitters: Receptors and Effects

Explores major neurotransmitters, their effects, drug therapy, and receptor mechanisms in brain function.

Pharmacology: Drug Targets and Mechanisms

Discusses ligand-receptor binding, drug targets, insulin physiology, NSAIDs, and tyrosine kinase inhibitors.

Targeting: Biomaterials and Therapeutics

Delves into passive and active targeting mechanisms in biomaterials for therapeutic delivery to diseased cells, emphasizing the use of liposomes.

G Protein-Coupled Receptors: Signalling Diversity and Complexity

Explores the diversity and complexity of G protein-coupled receptors, focusing on their signalling pathways, ligand effects, and cellular activity.