AP Biology

Living Metabolism

Part 1

Dehydration and HydrolysisReactions

Short polymer Unlinked monomer

Dehydration removes a water

molecule, forming a new bond

Dehydration reaction in the synthesis of a polymer

Longer polymer

Hydrolysis adds a water

molecule, breaking a bond

Hydrolysis of a polymer

Catabolism(Hydrolysis Reaction)

Reactants

Energy

Products

Progress of the reaction

Amount of

energy

released

(G < 0)

Fre

e e

nerg

y

Exergonic reaction: energy released

Anabolism(Dehydration Synthesis)

Reactants

Energy

Products

Progress of the reaction

Amount of

energy

required

(G > 0)

Fre

e e

nerg

y

Endergonic reaction: energy required

Catabolism(Hydrolysis Reaction)

Reactants

Energy

Products

Progress of the reaction

Amount of

energy

released

(G < 0)

Fre

e e

nerg

y

Exergonic reaction: energy released

Energy CouplingTwo processes united by Energy

Kinetic Energy vs. Potential Energy

Potential Energy vs. Kinetic Energy

Potential Energy vs. Kinetic Energy

Thermodynamics

LE 8-3

Chemical

energy

Heat CO2

First law of thermodynamics Second law of thermodynamics

H2O

Gibbs “Free” Energy

• Δ G = ΔH – TΔ S

• G- Gibbs “free” energy

• H – Enthalpy (Total usable energy in the system)

• T – Temperature in Kelvin (273 + C⁰)

• S- Entropy (Disorder created by something being broken down)

• Δ – Change in a variable over time

Unstable (Capable of work)vs.

Stable (no work)

G = 0

A closed hydroelectric system

G < 0

LE 8-6a

Reactants

Energy

Products

Progress of the reaction

Amount of

energy

released

(G < 0)

Fre

e e

nerg

y

Exergonic reaction: energy released

LE 8-6b

Reactants

Energy

Products

Progress of the reaction

Amount of

energy

required

(G > 0)

Fre

e e

nerg

y

Endergonic reaction: energy required

Potential Energy vs. Kinetic Energy

Types of work performed by

living cells

NH2

Glu

P i

P i

P i

P i

GluNH3

P

P

P

ATP

ADP

Motor protein

Mechanical work: ATP phosphorylates motor proteins

Protein moved

Membrane

protein

Solute

Transport work: ATP phosphorylates transport proteins

Solute transported

Chemical work: ATP phosphorylates key reactants

Reactants: Glutamic acidand ammonia

Product (glutamine)made

+ +

+

ATP

Phosphorylation