Structures of carbohydrates
- Monosaccharides: carbohydrates with a single ring structure
- Disaccharides: carbohydrates with a double ring structure
- Polysaccharides: long chains of monosaccharides, storage carbohydrates
- Branching of glycogen enables fast metabolism of glucose
Thermodynamics
- 1st Law: energy is neither created nor destroyed
- 2nd Law: when energy is converted from one form to another, some of that energy becomes unavailable to do work
- No energy transformation is 100% efficient
Thermodynamic reactions
- Reactions involve change in:
- Enthalpy: heat content
- Entropy: randomness/disorder
- Means free energy will tend towards an unusable state after multiple reactions
- Change in free energy = (energy of products) – (energy of reactants)
- 𝝙G = 𝝙H - T 𝝙S
- Free energy is related to the point of equilibrium
- 𝝙G near 0 means reaction is readily reversible
Exergonic reactions
- Total free energy of products is less than total free energy of reactants
- Reactions can occur spontaneously
Endergonic reactions
- Total free energy of products is more than total free energy of reactants
- Reactions require input of energy
Coupling of reactions
- Many reactions within the body occur by coupling an unfavorable reaction (positive 𝝙G) with a favorable reaction - e.g. ATP + H2O → ADP + Pi + H+
- Therefore, ATP is widely used as energy for many cellular processes
Metabolism
- Metabolism: all the reactions taking place in the body
- Catabolism: breaking down complex molecules into smaller ones and releasing energy
- Yields energy - exergonic and oxidative
- Anabolism: synthesizing complex molecules out of smaller ones in energy-consuming reactions
- Requires energy - endergonic and reductive
Made with Bullet