Lecture 1 - General Introduction and Prospects
Lecture 2 - Metals in Biology: Nature's Selection of Elements in Life
Lecture 3 - Metals in Biology: Control, Use and Enzymatic Action
Lecture 4 - Metals in Biology: Choice of Redox Active Metal Ions
Lecture 5 - Metals in Biology: Importance of Cobalt in Coenzyme-B12
Lecture 6 - Design Principles Used in Chemical Biology: Some Noteworthy Examples!
Lecture 7 - Design Principles Used in Chemical Biology: Role of Proteins in Controlling Reactivity!
Lecture 8 - Design Principles Used in Chemical Biology: Blue-Copper Proteins
Lecture 9 - Design Principles Used in Chemical Biology: Fixation of Nitrogen from Air
Lecture 10 - Life with Oxygen: Molecular and Chemical Properties of O2
Lecture 11 - Life with Oxygen: Cytochrome c oxidase
Lecture 12 - Life with Oxygen: Superoxide Dismutase Activity
Lecture 13 - Life with Oxygen: Catalase and Peroxidase Activities
Lecture 14 - Life with Oxygen: Oxygenase Activity
Lecture 15 - Life with Oxygen: O2-Carrying Proteins Hemocyanin and Hemerythrin
Lecture 16 - Life with Oxygen: O2-Carrying Proteins Hemoglobin and Myoglobin
Lecture 17 - Life with Oxygen: Reversible O2-binding and Transport
Lecture 18 - Life with Oxygen: Heme Oxygenase Activity
Lecture 19 - Metals in Medicine: Introduction to Medicinal Inorganic Chemistry
Lecture 20 - Metals in Medicine: Platinum-based Anti-Cancer Drugs