cell respiration chapter 9 cp biology paul vi catholic high school
TRANSCRIPT
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CELL RESPIRATION
Chapter 9
CP BiologyPAUL VI CATHOLIC HIGH SCHOOL
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CELL RESPIRATION• Breathing and Respiration are not the same.
• Breathing allows the exchange of O2 and CO2 between an organism and its environment.
• In cellular respiration Mitochondria use O2 and produces CO2 as waste.
CO2
CO2
O2
O2Bloodstream
Muscle cells carrying out
Cellular Respiration
Breathing
Glucose O2
CO2 H2O ATP
Lungs
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CELL RESPIRATIONPhotosynthesis and cellular respiration provide energy for life
– Cellular respiration makes ATP and consumes O2 during the oxidation of glucose to CO2 and H2O
– Photosynthesis uses solar energy to produce glucose and O2 from CO2 and H2O
CO2
H2O
Glucose
O2
ATP
ECOSYSTEM
Sunlight energy
Photosynthesis in chloroplasts
Cellular respiration in mitochondria
(for cellular work)
Heat energy
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– Cellular respiration breaks down glucose molecules and banks their energy in ATP
– -”Glucose” used in examples for convenience. Other organic molecules are also used as “food”
– Glucose releases chemical bond energy, which the cell stores in the chemical bonds of ATP
– Multi-step process not a single reactionC6H12O6 CO26 H2O ATPs
Glucose Oxygen gas Carbon dioxide
6
Water Energy
O2 6+ + +
Figure 6.3
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CELL RESPIRATION– Electrons lose potential energy during their
transfer from organic compounds to oxygen– When glucose is converted to carbon dioxide
it loses hydrogen atoms, which are added to oxygen, producing water
C6H12O6 6 O26 CO2 6 H2O
Loss of hydrogen atoms (oxidation)
Gain of hydrogen atoms (reduction)
Energy
(ATP)Glucose
+ + +
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CELL RESPIRATION
GLUCOSE CATABOLISM
STAGE I: GLYCOLYSISSTAGE II: PYRUVATE OXIDATIONSTAGE III: KREBS CYCLESTAGE IV: ELECTRON TRANSPORT
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CELL RESPIRATIONCellular Respiration Overview Video
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Glycolysis harvests chemical energy by oxidizing glucose to pyruvate•ATP is used to prime a glucose molecule Which is split into two molecules of pyruvate
NAD NADH H
Glucose
2 Pyruvate
ATP2P2 ADP
22
2
2
+
+
Figure 6.7A
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CELL RESPIRATION
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CELL RESPIRATIONA.GLYCOLYSIS:
occurs in the cytoplasm of every living cell
1. Glucose Priming: changes glucose into a molecule that can be “cleaved”.
Requires 2 molecules of ATPPhosphofructokinase: commits glucose to glycolysis
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– In the first phase of glycolysis ATP is used to energize a glucose molecule, which is then split in two
ATP
Glucose PREPARATORY PHASE
(energy investment)
ADP
Step
Glucose-6-phosphate
Fructose-6-phosphate
P
P
Fructose-1,6-diphosphate
ATP
ADP
PP
Steps – A fuel molecule is energized, using ATP.
Step A six-carbon intermediate splits into two three-carbon intermediates.
1
2
3
44
1 3
Figure 6.7C
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CELL RESPIRATION
2. Splitting & Rearrangement:Six carbon compound
splits to (2) 3 “C” compounds.
Fructose 1,6, Diphosphate into (2) G3P (Glyceraldehyde-3-
Phosphate)
“Substrate Level Phosphorylation” Making ATP (4 molecules/glucose)
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In Glycolysis ATP is produced by
substrate-level phosphorylation
- a phosphate group is transferred from an organic molecule to ADP using an enzyme
Enzyme
Adenosine
Organic molecule(substrate)
ADP ATP
P
PP P
P
Figure 6.7B
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Pyruvate
ATP
ADP
ATP
ADP
P
ATP ATP
ADP ADP
P
2-Phosphoglycerate
P
H2O H2O
Phosphoenolpyruvate(PEP)
Steps – ATP and pyruvate are produced.
P 3 -Phosphoglycerate
P
P
9 9
6 6
7 7
8 8
6 9 Step A redox reaction generates NADH.
P
NADH NADHP
P P P P
P
+H+H
ENERGY PAYOFF PHASE
Glyceraldehyde-3-phosphate(G3P)
1,3 -Diphosphoglycerate
P
5
6 9
5 5
66
7 7
88
9 9
NAD NAD
– In the second phase of glycolysis
• ATP, NADH, and pyruvate are formed
Figure 6.7C
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CELL RESPIRATION 3. Oxidation: Removal of electrons
(energy) & transfer to NAD+ NADH
4. ATP Generation: 4 reactions thatconvert G3P to Pyruvate- Generates 2 ATP per Pyruvate
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• At the end of Stage 1 (Glycolysis) two molecules of pyruvate have been formed.
• Pyruvate moves from the cytoplasm into the mitochondria.
NAD NADH H
Glucose2 Pyruvate
ATP2P2 ADP
22
2
2
+
+
CELL RESPIRATION
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CELL RESPIRATION
Glycolysis Results in:
Glucose 2 molecules Pyruvate
Each pyruvate 2 ADP 2 ATP
Each G3P 2 NAD+ NADH
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CELL RESPIRATION B. Oxidation of Pyruvate: Occurs
in mitochondrion
1. Aerobic conditions Pyruvate OXIDIZED to Acetyl CoA
2. Anaerobic conditions result in FERMENTATION REACTIONS
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CELL RESPIRATION
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CELL RESPIRATION
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CELL RESPIRATIONFERMENTATION REACTIONS: 1.Lactic Acid Fermentation:
Pyruvate REDUCED to LactateNo CO2 removalNADH NAD+
2. Alcohol Fermentation:Fungal (Yeast) CellsPyruvate REDUCED to AlcoholCO2 Removed; NADH NAD+
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CELL RESPIRATION
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CELL RESPIRATION
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CELL RESPIRATION
C. KREBS CYCLE: 1. “Priming” Reactions
Prepares molecule for energy extraction
Acetyl CoA (2C) joins oxaloacetate (4C) to form Citrate (6C)
Citrate isomerizes to Isocitrate
Krebs Cycle/ Citric Acid Cycle Video
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CELL RESPIRATION
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CELL RESPIRATION
C. KREBS CYCLE: 2. “Energy Extraction”
Oxidation rxns disassemble the molecule
•Decarboxylation Reactions
•Reduction NAD+ NADH
•Reduction FAD+ FADH2
•Regeneration oxaloacetate
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CELL RESPIRATION
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CELL RESPIRATIOND. ELECTRON TRANSPORT System of REDOX reactions Series of membrane electron carriers
• Ubiquinone (quinone molecule)
• Cytochromes (contain Fe++)
OXYGEN is final electron acceptor
Water is final product (two H+) attach to oxygen
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CELL RESPIRATION
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CELL RESPIRATIOND. ELECTRON TRANSPORT:
The movement of electrons down the concentration gradient to
O2 (the final acceptor) sends protons (H+) to the intermembrane
space ETC Video Video clip
Protons move thru ATP synthase making ATP from ADP
(Oxidative Phosphorylation)Gradients (ATP Synthase) video
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Most ATP production occurs by Oxidative Phosphorylation
• Most of the carrier molecules are included in the three main protein complexes
• Carriers bind and release electrons in redox reactions
Intermembrane space
Inner mitochondrial membrane
Mitochondrial matrix
Protein complex
Electron flow
Electron carrier
NADH NAD+
FADH2 FAD
H2OATPADP
ATP synthase
H+ H+ H+
H+
H+H+
H+
H+
H+
H+
H+
H+
H+
H+
P
O2
Electron Transport Chain Chemiosmosis
.
OXIDATIVE PHOSPHORYLATION
+ 212
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– Energy released redox reactions sed to pump H+ into the space between the mitochondrial membranes
– Resulting H+ gradient stores potential energy– In chemiosmosis, the H+ diffuses back through the
inner membrane through ATP synthase complexes• Driving the synthesis of ATP
Intermembrane space
Inner mitochondrial membrane
Mitochondrial matrix
Protein complex
Electron flow
Electron carrier
NADH NAD+
FADH2 FAD
H2OATPADP
ATP synthase
H+ H+ H+
H+
H+H+
H+
H+
H+
H+
H+
H+
H+
H+
P
O2
Electron Transport Chain Chemiosmosis
.
OXIDATIVE PHOSPHORYLATION
+ 212
Figure 6.10
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CELL RESPIRATIONENERGY (ATP) YIELD per GLUCOSE
Glycolysis: 2 ATP (substrate level phosphorylation)
Ox. of Pyruvate: 2 NADH (3 ATP per) Krebs Cycle: 6 NADH (3 ATP per)
2 FADH2 (1-2 ATP per)2 ATP via GTP
Electron Transport: 32 ATP (oxidative phosphorylation)
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CELL RESPIRATION
Overview of Aerobic Respiration
CYTOPLASM
Glycolysis
Electron Transfer
Phosphorylation
KrebsCycle ATP
ATP
2 CO2
4 CO2
2
32
water
2 NADH
8 NADH
2 FADH2
2 NADH 2 pyruvate
e- + H+
e- + oxygen
(2 ATP net)
glucose
Typical Energy Yield: 36 ATP
e-
e- + H+
e- + H+
ATP
H+
e- + H+
ATP2 4
Figure 8.3Page 135
MITOCHONRIA
6
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CELL RESPIRATION
Alternate Sources for Metabolism Glycolytic pathway thru ETS is
“final common pathway” Other macromolecules can be utilized
Lipids via β-oxidation Proteins via deamination (NH3) Nucleic Acids via deamination
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CELL RESPIRATION
Alternative Energy Sources
FOOD
complex carbohydrates
simple sugars
pyruvate
acetyl-CoA
glycogenfats proteins
amino acids
carbon backbones
fatty acids
glycerol
NH3
PGAL
glucose-6-phosphate
GLYCOLYSIS
KREBS CYCLE
urea
Figure 8.11Page 145
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CELL RESPIRATIONControl of Glucose Catabolism
Feedback inhibition
Phosphofructokinase inhibited by: ATP levels Citrate levels
Phosphofructokinase stimulated by ADP levels AMP levels
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CELL RESPIRATIONThere is a mutualistic symbioticrelationship between the productsof glycolysis and the reactants for photosynthesis.
This is an interrelationship between the mitochondria and chloroplast.
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CELL RESPIRATION
Processes Are Linked
sunlight energy
water+
carbondioxide
PHOTOSYNTHESIS
AEROBICRESPIRATION
sugarmolecules
oxygen
In-text figurePage 146