cell respiration 3.7 and 8.1
TRANSCRIPT
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Cell Respiration3.7 and 8.1
http://www.youtube.com/watch?v=3aZrkdzrd04
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What is cell respiration?
Process by which energy in food molecules (glucose) is made available for an organism to do biological work via breakdown/being metabolized
Each redox reaction causes a small amount of energy to be released; the end goal is to convert the energy into making ATP molecules
Typically we discuss in terms of glucose, but other organic molecules can also be broken down; fats very important in making ATP and contribute to energy used in muscles, heart, liver, kidneys
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OIL RIG• An easy way to remember redox reactions is
O – oxidation
I – is
L – loss
R – reduction
I – is
G - gain
Note: This is true when dealing with electrons and/or Hydrogen atoms
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It is thought that aerobic respiration evolved after anaerobic respiration; possibly ~ 2.4 bya when O2 accumulated on Earth
The breakdown of glucose via respiration must be done in small steps in a controlled manner so that the heat produced does not destroy the cell/organism
3 steps in aerobic cellular respiration:
1)Glycolysis
2) Kreb’s cycle
3) electron transport system (ETS)
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Step 1: Glycolysis
• Glucose enters the cell through the plasma membrane (via facilitated diffusion) and goes into the cytoplasm
• Process activated by 2 ATP molecules breaking down into ADP and phosphate (phosphate goes to energize glucose)
• A series of enzymes modifies and splits the 6-carbon glucose into two 3-carbon molecules of pyruvate
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From the series of reactions in Glycolysis the following are produced:
2 Pyruvate
Net 2 ATP
2 molecules NADH
Let’s Review what happened in Glycolysis!
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But first, what if NO oxygen is available:
Plants and Fungi alcohol fermentation
Animals lactate fermentation
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Alcohol Fermentation
• Converts the pyruvate molecules to ethanol (ethyl alcohol) and CO2; these are waste products that are given off to environment
• No further yield of ATP• Ex: yeast for breads/beer
C6H12O6 2C2H5OH + 2CO2
Glucose Ethanol Carbon Dioxide
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Lactic Acid Fermentation
• Used by human muscle cells when oxygen is scarce
• Converts pyruvate molecules to lactate• After strenuous exercise, you can feel the
build up of lactic acid as muscle fatigue/pain; it will gradually be carried to liver via bloodstream
C6H12O6 2C3H6O3
Glucose Lactate
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And now, what if oxygen IS available:
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Aerobic Respiration
• Cells with mitochondria and sufficient O2 use aerobic respiration
• Takes place in the mitochondria• Formula below:
C6H12O6 + 6O2 6CO2 + 6H2O + Energy (energy is ATP + heat)• Most efficient pathway to produce ATP
(net 36 ATP per 1 glucose)
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The Link Reaction
1. Pyruvate enters matrix of mitochondria via active transport
2. Each pyruvate is converted to acetyl-CoA; this conversion involves the removal of: one CO2 molecule and Hydrogen (oxidation) to make NADH
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• Acetyl-CoA sends acetyl group (2 carbon molecule) into Kreb’s cycle to start reactions and detaches to be used again
• For each glucose broken down in glycolysis (2 pyruvate were made) so the cycle occurs twice
Kreb’s Cycle**Occurs in matrix of mitochondria**
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Main purpose of Kreb’s Cycle:
• Feed electrons into the next stage of aerobic respiration via NADH and FADH2
From the breakdown of one glucose (2 turns of the cycle):
• 2 ATP molecules produced
• 6 molecules of NADH produced
• 2 molecules of FADH2 produced
• 4 molecules of CO2 releasedLet’s Review The Kreb’s Cycle!
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Electron Transport System (ETS)**occurs on inner membrane of mitochondria**
• Uses molecules that are electron carriers (easily reduced and oxidized) that are close together and vary in electronegativity (stronger pull as you go down the line)
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• ATP produced from molecules NADH and FADH2 as they shuttle their electrons to electron carriers and their Hydrogen into the intermembrane space
NADH enters system before FADH2, therefore NADH makes 3 ATP and FADH2 makes 2 ATP
O2 is final electron acceptor…making H20
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• The electron carriers use some of the energy from the redox reactions to pump H+ across mitochondrial membrane so that ATP synthase can use the H+ energy gradient to convert ADP + Phosphate to ATP
• Note: The ETS has allowed for Chemiosmosis and Oxidative Phosphorylation
Chemiosmosis – the movement of H+ ions to provide energy
Oxidative Phosphorylation – using an electron transport chain to make ATP
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Let’s Review the Electron Transport System!
Summary of ATP Production in Cell Respiration
Process ATP used ATP produced Net ATP gain
Glycolysis 2 4 2
Kreb’s Cycle 0 2 2
ETS and Chemiosmosis
0 32 32
Total 2 38 36