Cellular Respiration Jeopardy Template

Glycolysis

Pyruvate Oxidation

Krebs Cycle

Electron Transport Chain

Fermentation

100

Where does glycolysis occur?

Cytoplasm

100

What molecule is produced at the end of glycolysis and enters pyruvate oxidation?

Pyruvate

100

Where does the Krebs cycle occur?

Mitochondiral matrix

100

Where does the electron transport chain occur?

Inner mitochondrial membrane

100

When does fermentation occur?

When oxygen is unavaliable

200

What molecule is broken down during glycolysis?

Glucose

200

Where does pyruvate oxidation occur?

Mitochondrial Matrix

200

What molecule enters the Krebs cycle after pyruvate oxidation?

Acetyl-CoA

200

What molecule acts as the final electron acceptor in the ETC?

Oxygen

200

What is the purpose of fermentation?

To allow glycolysis to continue producing ATP

300

How many net ATP are produced during glycolysis?

2 ATP

300

What molecule is released as waste during pyruvate oxidation?

Carbon dioxide

300

What are the main high-energy electron carriers produced during the Krebs cycle?

NADH and FADH2

300

What is the main function of the electron transport chain?

To produce large amounts of ATP

300

What molecule is regenerated during fermentation?

NAD+

400

What electron carrier is produced during glycolysis?

NADH

400

What electron carrier gains energy during pyruvate oxidation

NADH

400

Why is the Krebs cycle considered a cycle?

Because the starting molecule (oxaloacetate) is regenerated at the end

400

How do hydrogen ions help produce ATP during the ETC?

They flow through ATP synthase to power ATP production

400

Why does fermentation produce much less ATP than aerobic respiration?

It only uses glycolysis and skips the Krebs Cycle and ETC

500

What is the final product of glycolysis?

Pyruvate

500

What molecule is produced and sent into the Krebs cycle after pyruvate oxidation?

Acetly-CoA

500

How does the Krebs cycle contribute to ATP production if it produces very little ATP directly?

It generates NADH and FADH2, which carry electrons to the ETC where most ATP is produced

500

Why would ATP production drastically decrease if the inner mitochondrial membrane became damaged?

The proton gradient and ETC would not function properly, preventing ATP synthase from producing ATP

500

Why is regenerating NAD+ essential for glycolysis to continue during fermentation?

Glycolysis requires NAD+ to accept electrons, and without it ATP production would stop