Cellular Respiration Jeopardy Template

Glycolysis

Citric Acid Cycle

Oxidative phosphorylation

100

TRUE or FALSE

In the following equation

[CH4 (methane) + 2O2 --> CO2 + 2H 2O + energy]

methane is the oxidizing agent, while oxygen is the reducing agent.

False

Methane is the reducing agent and oxygen (O2) in the oxidizing agent.

100

Where does the citric acid cycle (Krebs cycle) occur in the mitochondria?

A) Cristae

B) outer membrane

C) matrix

matrix

100

TRUE or FALSE

During aerobic respiration, both NAD+ and FAD can donate electrons to the electron transport chain

False -

NADH and FADH2 can donate electrons to the electron transport chain

200

How many ATP molecules are produced during glycolysis for each glucose molecule used?

2 ATP

200

Before the citric acid cycle can begin, pyruvate must be converted into what molecule?

Acetyl CoA

200

In the electron transport chain, Electrons (e-) are passed to O2 to create H2O through a series of four protein complexes containing electron carriers called ___________?

cytochromes

300

Where does the glycolysis reaction occur in the cell?

cytosol

300

How many enzyme-catalyzed steps does the citric acid cycle have?

8 steps

300

The electron transport chain causes proteins to pump H+ ions (protons) from the mitochondrial matrix to the intermembrane space. Afterwards, H+ ions then moves back across membrane into the matrix through _____________ -->resulting in the majority of ATP production.

ATP synthase

400

What type of fermentation releases a CO2 molecule after glycolysis?

Alcohol fermentation

400

Daily Double!

What are the four products of the citric acid cycle?

CO2 , FADH2, NADH, ATP

400

Oxidative phosphorylation accounts for the majority of ATP production in cellular respiration. About how many ATP does this step produce from a single glucose molecule?

32- 34 ATP

(total reaction is 36- 38 ATP)