"Bioinorganic chemistry is a field that examines the role of metals in biology."
The study of the role of metals in biological systems.
Metal ions in biological systems: Covers the importance and role of metal ions in various biological processes.
Coordination chemistry: Focuses on the structural and electronic properties of metal-ligand complexes.
Molecular orbital theory: Describes how bonding occurs in coordination complexes.
Redox chemistry: Covers the exchange of electrons between molecules or atoms.
Electron transfer reactions: Describes how electrons are transferred between molecules.
Metalloproteins: Covers enzymes that contain metal ions.
Heme: Covers the importance of heme in biological systems.
Iron-sulfur proteins: Focuses on the role of iron-sulfur clusters in electron transfer.
Copper proteins: Covers the role of copper ions in biological systems.
Zinc fingers: Describes the structure and function of zinc finger proteins.
Metalloenzymes: Covers the role of metal ions in enzymatic catalysis.
Metallocofactors: Describes the role of metal ions in cofactors.
Bioinorganic model complexes: Focuses on synthetic analogs of metalloproteins.
Metals in medicine: Covers the use of metal-based drugs in medicine.
Biomineralization: Describes the process of mineral formation in biological systems.
Metal toxicity: Covers the negative effects of metal ions on biological systems.
Metal-based sensors: Describes the use of metal-based sensors for detection of biological molecules.
Nutritional metals: Covers the importance of metals such as iron, zinc, and copper in nutrition.
Metallotherapeutics: Describes the use of metal-containing compounds in therapeutic applications.
Metal homeostasis: Focuses on the mechanisms that control the levels of metal ions in biological systems.
Metalloproteins: Metalloproteins are proteins that contain metal ions which are essential to their structure and/or function. They perform a variety of functions including structural support, electron transfer, and catalysis.
Metalloenzymes: Metalloenzymes are enzymes that contain a metal ion as a cofactor. The metal ion is essential to the enzyme's catalytic activity.
Metalloporphyrins: Metalloporphyrins are porphyrin molecules that contain a metal ion at the center of the porphyrin ring. They are involved in a variety of biological processes including oxygen transport and storage.
Metallothioneins: Metallothioneins are small, cysteine-rich proteins that bind to metal ions. They play a role in the regulation of metal ion homeostasis and detoxification.
Metal-activated enzymes: Metal-activated enzymes are enzymes that are activated by the presence of a metal ion. The metal ion may bind to the enzyme's active site, allosteric site, or regulatory site.
Bioorganometallic compounds: Bioorganometallic compounds are organic compounds that contain a metal atom or ion. They have a variety of biological applications including catalysis and therapeutic use.
Metal-based drugs: Metal-based drugs are drugs that contain a metal atom or ion. They are used in chemotherapy and treatment of diseases such as cancer and arthritis.
Metal-based sensors: Metal-based sensors are sensors that detect the presence of metal ions in biological samples. They have applications in clinical diagnosis and environmental monitoring.
Metal-based imaging agents: Metal-based imaging agents are agents that are used in medical imaging techniques such as magnetic resonance imaging (MRI) and positron emission tomography (PET). They contain metal ions that can interact with the body's tissues and cells, allowing for visualization of specific structures or functions.
Metal-based biomaterials: Metal-based biomaterials are materials that are used in medical devices and implants. They may contain metal ions that can interact with the body's tissues and cells, promoting healing and tissue regeneration.
"The study of both natural phenomena such as the behavior of metalloproteins as well as artificially introduced metals, including those that are non-essential, in medicine and toxicology."
"Behavior of metalloproteins", "biological processes such as respiration that depend upon molecules that fall within the realm of inorganic chemistry."
"Metals, including those that are non-essential, in medicine and toxicology."
"As a mix of biochemistry and inorganic chemistry."
"Implications of electron-transfer proteins, substrate bindings and activation, atom and group transfer chemistry as well as metal properties in biological chemistry."
"The successful development of truly interdisciplinary work is necessary to advance bioinorganic chemistry."