Presentation is loading. Please wait.

Presentation is loading. Please wait.

Cellular Respiration Obtain energy from the degradation of sugars Uses Oxygen and produces CO 2 Many steps take place in the mitochondria of cells Complementary.

Published byDayna McCarthy Modified over 8 years ago

Similar presentations

Presentation on theme: "Cellular Respiration Obtain energy from the degradation of sugars Uses Oxygen and produces CO 2 Many steps take place in the mitochondria of cells Complementary."— Presentation transcript:

1 Cellular Respiration Obtain energy from the degradation of sugars Uses Oxygen and produces CO 2 Many steps take place in the mitochondria of cells Complementary process to photosynthesis  Will recognize many of the same molecules

2 Oxidation-Reduction reactions Type of reaction when an electron is transferred from one atom or molecule to another  Electron donor is reducing agent  Electron acceptor is oxidizing agent  The addition of electron to a molecule or atom is called reduction Energy is released when electrons are transferred to lower energy state molecules  Electron transfer chains

3 Cellular Respiration Mechanisms 3 Stages  Glycolysis-happens in cytosol of cell  Krebs cycle-happens in matrix of mitochondria  Electron transport and oxidative phophorylation-cristae

4 Glycolysis Means “sugar splitting”-glucose is split into Pyruvate First step of respiration Broken into two stages  Energy investment phase-uses 2ATP  Energy Payoff Phase-Yields 4 ATP +2 NADH  Net of 2 ATP

5 Energy Investment Phase Begins with Glucose 2 ATPs are used to phosphorylate Carbons 1 and 6  Activated intermediates Isomerase converts glucose to fructose structure  Isomerase is enzyme that changes one molecule to an isomer Eventually yields 2 molecules of glyceraldehyde phosphate  Enters energy payoff phase

6 Fig. 9-8 Energy investment phase Glucose 2 ADP + 2 P 2 ATPused formed 4 ATP Energy payoff phase 4 ADP + 4 P 2 NAD + + 4 e – + 4 H + 2 NADH + 2 H + 2 Pyruvate + 2 H 2 O Glucose Net 4 ATP formed – 2 ATP used2 ATP 2 NAD + + 4 e – + 4 H + 2 NADH + 2 H +

7 Energy Payoff Phase Starts with Glyceraldehyde phosphate  2 for every glucose Enzyme adds phosphate GP while 2 NADH molecules are produces Phosphates are eventually loss resulting in the production of 4 ATP molecules The final product is Pyruvate  Moves into Krebs cycle

8 Transition Once Pyruvate enters Mitochondrion it is converted to Acetyl CoA and CO 2  Acetyl CoA is the starting molecule for the Krebs cycle

9 Fig. 9-10 CYTOSOLMITOCHONDRION NAD + NADH+ H + 2 1 3 Pyruvate Transport protein CO 2 Coenzyme A Acetyl CoA

10 Krebs cycle Completes the oxidation of organic molecules Takes place in matrix of mitochondria Cyclic like Calvin cycle Produces 1 ATP for each acetyl CoA  2 per glucose Many high energy electrons are saved as 3NADH and FADH 2 per cycle Also produces 2 CO 2 molecules per cycle

11 Fig. 9-12-8 Acetyl CoA CoA—SH Citrate H2OH2O Isocitrate NAD + NADH + H + CO2CO2  -Keto- glutarate CoA—SH CO2CO2 NAD + NADH + H + Succinyl CoA CoA—SH P i GTP GDP ADP ATP Succinate FAD FADH 2 Fumarate Citric acid cycle H2OH2O Malate Oxaloacetate NADH +H + NAD + 1 2 3 4 5 6 7 8

12 Fig. 9-11 Pyruvate NAD + NADH + H + Acetyl CoA CO 2 CoA Citric acid cycle FADH 2 FAD CO 2 2 3 3 NAD + + 3 H + ADP +P i ATP NADH

13 Transition 2 NADH and FADH2 are used in the electron transport chain  Happens in cristae of mitochondrion  Uses Oxygen as ultimate electron acceptor

Download ppt "Cellular Respiration Obtain energy from the degradation of sugars Uses Oxygen and produces CO 2 Many steps take place in the mitochondria of cells Complementary."

Similar presentations

Fig. 7-2a, p.108. Fig. 7-2b, p.108 a All carbohydrate breakdown pathways start in the cytoplasm, with glycolysis. b Fermentation pathways are completed.

Fig. 7-2a, p.108. Fig. 7-2b, p.108 a All carbohydrate breakdown pathways start in the cytoplasm, with glycolysis. b Fermentation pathways are completed.
Copyright © 2006 Pearson Education, Inc., publishing as Benjamin Cummings Mitochondria Figure 3.17a, b.

Copyright © 2006 Pearson Education, Inc., publishing as Benjamin Cummings Mitochondria Figure 3.17a, b.
Metabolism and Energy Production

Metabolism and Energy Production
Figure 7.UN01 becomes oxidized (loses electron) becomes reduced (gains electron)

Figure 7.UN01 becomes oxidized (loses electron) becomes reduced (gains electron)
Essential Knowledge 2.A.2: Organisms capture and store free energy for use in biological processes.

Essential Knowledge 2.A.2: Organisms capture and store free energy for use in biological processes.
Key Area 1: Cellular respiration Glycolysis, Citric Acid Cycle, Electron Transport Chain Unit 2: Metabolism and Survival.

Key Area 1: Cellular respiration Glycolysis, Citric Acid Cycle, Electron Transport Chain Unit 2: Metabolism and Survival.
(c) The McGraw-Hill Companies, Inc.

(c) The McGraw-Hill Companies, Inc.
Krebs cycle. Krebs Cycle (Citric acid cycle) Series of 8 sequential reactions Matrix of the mitorchondria Synthesis of 2 ATP Generation of 8 energetic.

Krebs cycle. Krebs Cycle (Citric acid cycle) Series of 8 sequential reactions Matrix of the mitorchondria Synthesis of 2 ATP Generation of 8 energetic.
Cellular Respiration Breakdown of glucose to carbon dioxide and water.

Cellular Respiration Breakdown of glucose to carbon dioxide and water.
Cell Respiration. Cellular Respiration To perform their many tasks cells require transfusions of energy from outside sources To perform their many tasks.

Cell Respiration. Cellular Respiration To perform their many tasks cells require transfusions of energy from outside sources To perform their many tasks.
 Organisms must take in energy from outside sources.  Energy is incorporated into organic molecules such as glucose in the process of photosynthesis.

 Organisms must take in energy from outside sources.  Energy is incorporated into organic molecules such as glucose in the process of photosynthesis.
The Krebs Cycle Biology 11 Advanced

The Krebs Cycle Biology 11 Advanced
3 parts of Respiration Glycolysis – may be anaerobic

3 parts of Respiration Glycolysis – may be anaerobic
Cellular Respiration Part 3

Cellular Respiration Part 3
Fig. 9-2 Light energy ECOSYSTEM Photosynthesis in chloroplasts CO 2 + H 2 O Cellular respiration in mitochondria Organic molecules + O 2 ATP powers most.

Fig. 9-2 Light energy ECOSYSTEM Photosynthesis in chloroplasts CO 2 + H 2 O Cellular respiration in mitochondria Organic molecules + O 2 ATP powers most.
Chp 9: Cellular Respiration. Figure 9-01 LE 9-2 ECOSYSTEM Light energy Photosynthesis in chloroplasts Cellular respiration in mitochondria Organic molecules.

Chp 9: Cellular Respiration. Figure 9-01 LE 9-2 ECOSYSTEM Light energy Photosynthesis in chloroplasts Cellular respiration in mitochondria Organic molecules.
Energy Use in Cells Glycolysis, Krebs’s Cycle, Electron Transport, Fermentation & Metabolism.

Energy Use in Cells Glycolysis, Krebs’s Cycle, Electron Transport, Fermentation & Metabolism.
NOTES: Chapter 9 (Part 2): Glycolysis & Krebs Cycle (9.2 & 9.3)

NOTES: Chapter 9 (Part 2): Glycolysis & Krebs Cycle (9.2 & 9.3)
Copyright © 2005 Pearson Education, Inc. publishing as Benjamin Cummings Concept 9.3: The citric acid cycle completes the energy-yielding oxidation of.

Copyright © 2005 Pearson Education, Inc. publishing as Benjamin Cummings Concept 9.3: The citric acid cycle completes the energy-yielding oxidation of.
The Krebs Cycle 9-2.  At the end of glycolysis, about 90% of the chemical energy available in glucose is still unused  To extract the rest, cells need.

The Krebs Cycle 9-2.  At the end of glycolysis, about 90% of the chemical energy available in glucose is still unused  To extract the rest, cells need.

Similar presentations

Ads by Google