Cellular Respiration Review Jeopardy Template

Phase 1

Phase 2

Phase 3

Phase 4

Miscellaneous

100

The first phase of Cellular Respiration (the splitting of glucose occurs here)

Glycolysis

100

The second phase of cellular respiration

Pyruvate Oxidation

100

The third phase of cellular respiration

citric acid cycle (krebs cycle)

100

the fourth phase of Cellular Respiration

Oxidative Phosphorilation

200

This part of the cell is where Glycolysis occurs

Cytosol

200

This part of the mitochondrion is where pyruvate oxidation occurs

Mitochondrial Matrix

200

This part of the mitochondrion is where the Krebs cycle takes place

The Mitochondrial matrix

200

Electrons carried by NADH and FADH2 are transported through the Electron Transport Chain to this part of the mitochondrion

The Intermembrance space

200

The Electron Transport Chain is located in this part of the Mitochondria

The inner mitochondrial membrane

300

The end product of Glycolysis per glucose

2 pyruvate

300

This amount of CO2 is released during Pyruvate Oxidation per glucose

2 CO2

300

4 molecules of this gas are released during the Krebs cycle as a waste product per glucose

Carbon Dioxide

(1 Acely-CoA > 2 CO2) x 2

300

This is what causes the electron transport chain to open

Eletrons jumping emitts energy which is absorbed by the electron transport chain

300

This is the final electron acceptor, forming water as a byproduct

Oxygen

400

This electron carrier is reduced during glycolysis

NAD+

400

The end product of pyruvate oxidation per glucose

2 Acetyl CoA

(1 pyruvate> 1 Acetyl-CoA) x2

400

Along with NADH+, this electron carrier protein carries electrons to the Electron Transport Chain

FADH2

400

List the concentration of the intermembrane space and matrix prior to the opening of ATP Synthase

High electron concentration in the intermembrane space

Low electron concentration in the matrix

400

List an advantage of a narrow intermembrane space in the mitochondria

Allows electrons to build up more easily in the intermembrane space, resulting in a H+ gradient

500

At the end of glycolysis, this is the net gain of ATP

2 ATP (-2, +4)

500

This amount of NADH is produced in the Kreb cycle per glucose

6 NADH

(1 Acetly CoA > 3 NADH) x2

500

This amount of ATP is produced through chemiosmosis by ATP Synthase

30-32 ATP

500

List an advantage of a folded intermembrane (cristae) in the mitochondria

increased surface area, allowing more membrane proteins (Electron Transport Chains) to be embedded