Theme I – integration of metabolism What is metabolism?
Lecture I1 – overview of metabolism, compartmentalization of • Chemical reactions in living systems
metabolism and metabolism in specific tissues - provide energy for cellular work
- synthesize biomolecules - anabolism
Central pathways of energy metabolism
- degrade biomolecules – catabolism
Metabolism is divided into two distinct groups of chemical
reactions linked by primary coupling agents:
- ATP/ADP
- NADPH/NADP+
Anabolism - reductive, uses NADPH
Catabolism - oxidative, produces NADH(→NADPH)
Integration of metabolism
1. Overview and compartmentalization
2. Metabolism in specific tissues and Regulation
3. Starvation and diabetes
4. Integration of metabolism in plants (Self-study)
,Metabolic pathways Recovery: anabolism
• Reaction pathways coupled in network of linked reactions
• Reactions are catalyzed by enzymes
• Reactions and pathways are tightly regulated
Energy metabolism and O2
Anaerobic production of ATP
Energy production: catabolism
, Energy metabolism and O2 Compartmentalization of pathways in animals
Aerobic production of ATP • Certain pathways are confined to certain organs
• Certain enzymes are confined to a cellular compartment
(organelles)
• Anabolic reactions usually take place in the cytosol
• Catabolic reactions usually take place in the mitochondria
• Certain compounds (coenzymes, substrates, products)
may be confined to a cellular compartment
Anabolism and catabolism are functionally coupled
Lecture I1 – overview of metabolism, compartmentalization of • Chemical reactions in living systems
metabolism and metabolism in specific tissues - provide energy for cellular work
- synthesize biomolecules - anabolism
Central pathways of energy metabolism
- degrade biomolecules – catabolism
Metabolism is divided into two distinct groups of chemical
reactions linked by primary coupling agents:
- ATP/ADP
- NADPH/NADP+
Anabolism - reductive, uses NADPH
Catabolism - oxidative, produces NADH(→NADPH)
Integration of metabolism
1. Overview and compartmentalization
2. Metabolism in specific tissues and Regulation
3. Starvation and diabetes
4. Integration of metabolism in plants (Self-study)
,Metabolic pathways Recovery: anabolism
• Reaction pathways coupled in network of linked reactions
• Reactions are catalyzed by enzymes
• Reactions and pathways are tightly regulated
Energy metabolism and O2
Anaerobic production of ATP
Energy production: catabolism
, Energy metabolism and O2 Compartmentalization of pathways in animals
Aerobic production of ATP • Certain pathways are confined to certain organs
• Certain enzymes are confined to a cellular compartment
(organelles)
• Anabolic reactions usually take place in the cytosol
• Catabolic reactions usually take place in the mitochondria
• Certain compounds (coenzymes, substrates, products)
may be confined to a cellular compartment
Anabolism and catabolism are functionally coupled
