Presentation is loading. Please wait.

Presentation is loading. Please wait.

Electron Transport Chain

Published byBambang Kurnia Modified over 6 years ago

Similar presentations

Presentation on theme: "Electron Transport Chain"— Presentation transcript:

1 Electron Transport Chain
Lecture 3

2 Glycolysis Review Questions
What is needed to start the reactions of glycolysis? Where does Glycolysis occur in the cell? What Kingdoms perform Glycolysis? How many total ATP are produced during glycolysis? How many net ATP? What electron carrying molecule is produced during glycolysis? Is glucose oxidized or reduced during glycolysis? What is glucose converted into at the end of glycolysis?

3 Kreb’s Cycle Review Questions
Where does the Kreb’s cycle occur in eukaryotes? Why is the Kreb’s cycle cyclic? What electron carrying molecules are produced during the Kreb’s cycle? What is the acetyl CoA converted into during the Kreb’s cycle? What type of ATP production is occurring during the Kreb’s cycle: oxidative or substrate level phosphorylation?

4 Electron Transport Chain
Final step of cellular respiration Requires oxygen (aerobic) Located in the inner mitochondrial membrane (cristae)

5 Electron transport chain
Electrons lost from NADH and FADH2 move through a series of enzymes (ubiquinone and cytochromes) Energy used to move H+ from NADH and FADH2 (protons to the inner membrane space) Oxygen accepts electrons at last enzyme and creates water

6 More on Making ATP 3 places in the chain make ATP NADH FADH2
Electrons from NADH start “higher” in the waterfall, so they generate more ATP than FADH2 electrons, which start “lower” (less PE) and miss 1 ATP-generating step.

7 CHEMIOSMOSIS = makes ATP from a proton gradient.
It occurs in all living things Protons move through ATP synthase from high (inner membrane space) to low concentration (matrix) spinning turbine that produces ATP in matrix Prokaryotes create gradient across cell membrane to make ATP to pump nutrients & waste and move flagella

8 OXIDATIVE PHOSPHORYLATION
= using proton gradient created by electron transport chain in cristae membrane to make ATP MITOCHONDRION

9 Cellular respiration Kreb’s Cycle: mitochondrial matrix;
pyruvate → CO2 NADH made Electron Transport Chain: cristae; NADH & FADH2 donate electrons → oxygen Glycolysis: cytosol; glucose → pyruvate

10 Cellular Respiration Grand Total
Glycolysis: →2 ATP (substrate-level phosphorylation) Kreb’s Cycle:→ 2 ATP (substrate-level phosphorylation) Electron transport & oxidative phosphorylation: NADH (glycolysis) → 5 ATP NADH (acetyl CoA) →5 ATP NADH (Kreb’s) → 15 ATP FADH2 (Kreb’s) → 3 ATP 32 TOTAL ATP from 1 molecule of glucose (-2 ATP to transport 2 pyruvate into mitochondria) NET of 30 ATP Eukaryotes (32 Prokaryotes)

Download ppt "Electron Transport Chain"

Similar presentations

 What part of photosynthesis happens across the thylokoid membrane?  What are the two steps of the light reaction?  These have scientific names!  What.

 What part of photosynthesis happens across the thylokoid membrane?  What are the two steps of the light reaction?  These have scientific names!  What.
Biology 107 Cellular Respiration October 3, 2003.

Biology 107 Cellular Respiration October 3, 2003.
Biology 107 Cellular Respiration September 30, 2005.

Biology 107 Cellular Respiration September 30, 2005.
Cellular Respiration: Aerobic Respiration Krebs Cycle Electron Transport Chain and ATP Synthase.

Cellular Respiration: Aerobic Respiration Krebs Cycle Electron Transport Chain and ATP Synthase.
Cellular Respiration 7.3 Aerobic Respiration.

Cellular Respiration 7.3 Aerobic Respiration.
CELLULAR RESPIRATION Breathing Cells. Three Stages.

CELLULAR RESPIRATION Breathing Cells. Three Stages.
AP Biology Cellular Respiration Part 2. Is Oxygen present?

AP Biology Cellular Respiration Part 2. Is Oxygen present?
The Electron Transport Chain & Chemiosmosis. Aerobic Respiration 1.Glycolysis: C 6 H 12 O 6  2C 3 H 4 O 3 + 2 ATP + 2 NADH 2.Krebs: 2C 3 H 4 O 3  6CO.

The Electron Transport Chain & Chemiosmosis. Aerobic Respiration 1.Glycolysis: C 6 H 12 O 6  2C 3 H 4 O ATP + 2 NADH 2.Krebs: 2C 3 H 4 O 3  6CO.
Aerobic Respiration Only occur in the presence of oxygen Two stages

Aerobic Respiration Only occur in the presence of oxygen Two stages
Oxidative Phosphorylation & Chemiosmosis Chapter 9.4.

Oxidative Phosphorylation & Chemiosmosis Chapter 9.4.
Cellular Respiration Chapter 7 Table of Contents Section 1 Glycolysis and Fermentation Section 2 Aerobic Respiration.

Cellular Respiration Chapter 7 Table of Contents Section 1 Glycolysis and Fermentation Section 2 Aerobic Respiration.
Cell Respiration C 6 H 12 O 6 + 6 O 2 + 6 H 2 O  6 CO 2 + 12 H 2 O + ATP.

Cell Respiration C 6 H 12 O O H 2 O  6 CO H 2 O + ATP.
Cellular Respiration II Aerobic Respiration pp. 137-142.

Cellular Respiration II Aerobic Respiration pp
Cellular Respiration Chapter 7 Miss Colabelli Biology CPA.

Cellular Respiration Chapter 7 Miss Colabelli Biology CPA.
Cellular Respiration Chapter 7. Cellular Respiration Glycolysis and Fermentation Aerobic Respiration.

Cellular Respiration Chapter 7. Cellular Respiration Glycolysis and Fermentation Aerobic Respiration.
Cellular Respiration Chapter 7 Table of Contents Section 1 Glycolysis and Fermentation Section 2 Aerobic Respiration.

Cellular Respiration Chapter 7 Table of Contents Section 1 Glycolysis and Fermentation Section 2 Aerobic Respiration.
CELLULAR RESPIRATION How Cells Harvest Chemical Energy.

CELLULAR RESPIRATION How Cells Harvest Chemical Energy.
Glycolysis, Kreb’s, and ETC

Glycolysis, Kreb’s, and ETC
Aim: What is the electron transport chain?

Aim: What is the electron transport chain?
Glycolysis, Pyruvate Oxidation and Kreb’s have produced very little ATP and some energy in the form of electron carriers Majority of ATP will come from.

Glycolysis, Pyruvate Oxidation and Kreb’s have produced very little ATP and some energy in the form of electron carriers Majority of ATP will come from.

Similar presentations

Ads by Google