Coordination Chemistry in Biological Systems
( 30 Modules )

Module #1
Introduction to Coordination Chemistry
Overview of coordination chemistry, importance of metal ions in biological systems, and introduction to key concepts

Module #2
Metal Ions in Biological Systems
Types of metal ions, their functions, and examples of biological molecules that interact with metal ions

Module #3
Coordination Compounds and Ligands
Definition of coordination compounds, types of ligands, and their role in biological systems

Module #4
Coordination Geometry and Isomerism
Types of coordination geometries, isomerism, and its relevance to biological systems

Module #5
Metal-Ligand Bonding and Spectroscopy
Metal-ligand bonding theories, spectroscopic methods to study coordination compounds, and their applications

Module #6
Metal Ion Transport and Storage
Mechanisms of metal ion transport, storage, and regulation in cells

Module #7
Metal Ions in Enzymes
Role of metal ions in enzyme catalysis, examples of metal-dependent enzymes, and mechanisms of action

Module #8
Metal Ions in Proteins
Coordination of metal ions in proteins, structural and functional implications, and examples

Module #9
Metal Ions in Nucleic Acids
Interactions between metal ions and nucleic acids, structural and functional implications

Module #10
Metal Ion Homeostasis and Regulation
Mechanisms of metal ion homeostasis, regulation, and response to metal ion deficiency or overload

Module #11
Copper in Biological Systems
Role of copper in biological systems, examples of copper-dependent enzymes and proteins

Module #12
Iron in Biological Systems
Role of iron in biological systems, examples of iron-dependent enzymes and proteins

Module #13
Zinc in Biological Systems
Role of zinc in biological systems, examples of zinc-dependent enzymes and proteins

Module #14
Other Essential Metal Ions
Role of other essential metal ions (e.g. manganese, cobalt, nickel) in biological systems

Module #15
Toxic Metal Ions
Toxicity of non-essential metal ions (e.g. lead, mercury, cadmium), mechanisms of toxicity

Module #16
Metal-Based Therapeutics
Metal-based drugs, their modes of action, and potential applications

Module #17
Bioinorganic Chemistry in Medicine
Applications of bioinorganic chemistry in medicine, including diagnostics and therapeutics

Module #18
Computational Tools in Coordination Chemistry
Computational methods for studying coordination compounds, including molecular modeling and molecular dynamics

Module #19
Recent Advances in Coordination Chemistry
Recent advances in coordination chemistry, including new methods, discoveries, and applications

Module #20
Case Studies in Coordination Chemistry
In-depth analysis of specific examples or systems, highlighting the importance of coordination chemistry in biological systems

Module #21
Coordination Chemistry in Environmental Science
Role of coordination chemistry in environmental science, including bioremediation and environmental monitoring

Module #22
Coordination Chemistry in Food Science
Role of coordination chemistry in food science, including food processing and nutrition

Module #23
Coordination Chemistry in Materials Science
Role of coordination chemistry in materials science, including biomaterials and nanomaterials

Module #24
Coordination Chemistry in Energy Applications
Role of coordination chemistry in energy applications, including catalysis and energy storage

Module #25
Coordination Chemistry in Analytical Chemistry
Role of coordination chemistry in analytical chemistry, including chromatography and spectroscopy

Module #26
Coordination Chemistry in Biomedical Imaging
Role of coordination chemistry in biomedical imaging, including MRI and PET

Module #27
Coordination Chemistry in Cancer Research
Role of coordination chemistry in cancer research, including metal-based anticancer agents

Module #28
Coordination Chemistry in Neurodegenerative Diseases
Role of coordination chemistry in neurodegenerative diseases, including Alzheimers and Parkinsons

Module #29
Coordination Chemistry in Infectious Diseases
Role of coordination chemistry in infectious diseases, including antibiotic resistance and metal-based antimicrobials

Module #30
Course Wrap-Up & Conclusion
Planning next steps in Coordination Chemistry in Biological Systems career

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Coordination Chemistry in Biological Systems ( 30 Modules )

Coordination Chemistry in Biological Systems
( 30 Modules )