3.2 Aerobic Respiration

Aerobic Cellular Respiration

Catabolic pathways

Breaks down energy-rich

compounds to make ATP

Requires oxygen

Occurs in different parts

of the cell

C6H12O6 (s) + 6O2(g) 6CO2(g) + 6H2O(l) + energy

Metabolism of Glucose – ATP Yield

Eukaryotes: 36 ATP molecules

2+2+4+6+22

Yield from total glycolytic NADH – 4 ATP

Prokaryotes: 38 ATP molecules

2+2+6+6+22

Yield from total glycolytic NADH – 6 ATP

4 Main stages of aerobic cellular respiration

1. Glycolysis

2. Pyruvate Oxidation

3. Krebs Cycle

4. Electron Transport

Chain and

Chemiosmosis

Substrate-level

phosphorylation

Substrate-level

phosphorylation

Oxidative

phosphorylation

1. Glycolysis

3. Krebs Cycle

4. Electron Transport Chain

and Chemiosmosis

1. Glycolysis

glucose + 2 NAD+ + 2 ADP + 2 Pi

2 pyruvate + 2H2O + 2 NADH + 2 ATP

10 reactions

Net reaction:

Glycolysis

Overview

Glucose

Glucose 6-phosphate

Fructose 6-phosphate

Fructose 1,6-bisphosphate

Glyceraldehyde 3-phosphate (G3P) Dihydroxyacetone phosphate

1,3-Bisphosphoglycerate (BPG) 1,3-Bisphosphoglycerate (BPG)

3-Phosphoglycerate (3PG) 3-Phosphoglycerate (3PG)

2-Phosphoglycerate (2PG)

Phosphoenolpyruvate (PEP)

Pyruvate

2-Phosphoglycerate (2PG)

Phosphoenolpyruvate (PEP)

Pyruvate

1 glucose

2 pyruvate

(transported into mitochondrial matrix)

2 acetyl-CoA + 2 NADH

Only when oxygen is present

3. Krebs Cycle

Cyclical metabolic pathway

9 reactions

Occurs in the mitochondrial matrix

Completes breakdown of glucose to carbon dioxide

1 glucose 2 acetyl Co-A 2 Kreb cycles

total 4 CO2

Krebs Cycle

Overview

See textbook

Kreb’s Cycle – Net production

The net production for each acetyl-CoA is:

3 NADH, 1 FADH2, and 1 ATP.

NADH and FADH2 will be used to produce ATP

in the oxidative phosphorylation pathway.

4. Oxidative Phosphorylation

Oxidation of NADH and FADH2 by electron transport chain

Produces ATP in chemiosmosis

Oxygen (electron acceptor) is converted to water

Energy transferred from electron carriers to ATP

Electron transport chain Chemiosmosis

Electron Transport Chain

A series of electron

carriers and proteins

Embedded in the

inner membrane of

mitochondrion

Arranged in order of

increasing

electronegativity

Intermembrane

Mitochondrial matrix

Electron Transport Chain

A series of REDOX reactions occur between each protein complex to transfer electrons

2 electrons are transferred each time

As electrons move down the ETC, energy is release and electrons become more stable

Step 1:

NADH reduces (donate

electrons to) NADH

dehydrogenase (Complex I)

Ubiquitone shuttle electrons to

Complex II

Energy released during the

REDOX reaction pumps H+

into the intermembrane space

Step 2:

Cytochrome b-c1 (Complex II)

receives electrons from

ubiquitone and is reduced

Cytochrome C shuttle

electrons to Complex II

Energy released during the

REDOX reaction pumps H+

into the intermembrane space

Step 3:

Cytochrome C reduces Cytochrome oxidase complex (Complex III)

Oxygen is very electronegative and plucks electrons away from Complex III

O2 combines with H+ to form H2O

Electron Transport Chain - Energy

Highly exergonic

Free energy released is

used to pump H+ into the

intermembrane space

Electron Transport Chain - Energy

No substrates or products are

involved in electron transport.

The electron carriers

continuously cycle between

their reduced form and their

oxidized form while passing

electrons from one to the next

and finally to oxygen

NADH vs FADH2

Pumps out 3 H+

Produces more ATP

Pumps out 2 H+

Enter ETC at

ubiquitone

NADH FADH2

Electron Transport Chain & Chemiosmosis

Inner mitochondrial

membrane prevents H+ from

flowing back into the matrix

Protons pumped into the

intermembrane space during

ETC creates an

electrochemical gradient

drive the synthesis of ATP

Chemiosmosis

The process in which ATPase converts energy from the electrochemical gradient to synthesize ATP

ADP + Pi ATP

Aerobic Respiration – Energy Balance Sheet

Prokaryotes can generate 38 ATP

they do not have to use up 2 ATP to transport NADH from glycolysis across the mitochondrial membranes

Aerobic Respiration – Energy Balance Sheet

Experimental observations show only 30-32 ATP are produced. Because:

• Some protons leak through the inner mitochondrial membrane

• Some energy is used to transport pyruvate into the mitochondria

• Some energy is used to transport ATP into cytoplasm for use

Interconnections of Metabolic Pathways

Compounds from the breakdown of

all dietary nutrients can be

converted into intermediates in

glycolysis and the Kreb’s cycle

They can enter/leave at many

different stages of the pathways

Regulation of Aerobic Catabolic Pathways

Rate of ATP production is controlled by feedback mechanisms.

Ratio of ATP to ADP remains constant

Enzymes involved are:

1. Phosphofructokinase (in glycolysis)

2. Pyruvate dehydrogenase (in pyruvate oxidation)

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