Visiting Hong Kong Chapter 1, Book 5B Primary Longman Express.
CHAPTER 5B
description
Transcript of CHAPTER 5B
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CHAPTER 5BCELLULAR RESPIRATION
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Where does the energy of life come from?
Radiant energy Chemical
energy
Photosynthesis Respiration
CELL ACTIVITIES
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RESPIRATION
The release of chemical energy for cellular use
*Takes place in small steps…
Occurs in the MITOCHONDRIA
Done by HETEROTROPHS and some AUTOTROPHS
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Respiration
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CELLULAR RESPIRATIONMolecules are broken down inside the
cell to release energyC6H12O6 + oxygen CO2 + H2O + energy2 Types 1. Aerobic:oxygen is present2. Anaerobic:no oxygen present
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glucose2 Pyruvic Acids
Alcoholic
Fermentation
Lactic Acid
Fermentation
Ethyl Alcohol and Carbon Dioxide
Lactic Acid
Anaerobic
Respiration
Aerobic Respiration
Acetyl Co-A
Krebs Cycle
E- transport chain
CO2
H2OATP
CYTOPLASM
MITOCHONDRIA
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Cellular Respiration
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1. Glycolysis -Doesn’t require oxygen
-Takes place in the cytoplasm -Main function is to take 1
C6H12O6 and make PYRUVIC ACID
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A. Glucose is phosphorylated by 2ATP molecules forming a new 6C molecule (very unstable)
B. Molecule splits into 2, 3C, PGALC. Each PGAL gains a “P” group,
floating in the cells environment.
D. At the same time NAD+ removes two H+ atom to form NADH + H+
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E. The PGAL loses 2 “P” groups each to ADP
4ADP4 ATP PGAL is converted to PYRUVIC ACIDH2O is lost
Glucose
PGAL PGAL
PGAL + P
PGAL + P
Pyruvic Acid
Pyruvic Acid
ATP ATP
ADP ADP
NAD
NADH
2 ADP
2ATP
P P
NAD
NADH
2 ADP
2ATPH2O
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OVERALL ENERGY RESULTS
OF GLYCOLYSIS1. Used 2 ATP’s
Made 4 ATP’s NET GAIN: 2 ATP’s2. Gained 2 NADH+ H+3. 2 (3C) Pyruvic Acid’s
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1. Anaerobic Respiration Fermentation - The breaking down of Pyruvic Acid
without oxygen - Occurs in the CYTOPLASM - NO ATP produced - Pyruvic Acid Regenerates NAD+ to
be used in glycolysis lactic acid fermentation alcoholic fermentation
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A. Lactic Acid Fermentation:
Alternative pathway that converts Pyruvic acid lactic acidDuring exercise breathing rates increase to supply more O2
Enough for Aerobic Exercise (EX: Walking, swimming, jogging)Anaerobic exercise will result in O2 debt (Ex: Weight lifting, sprinting)
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Feel the Burn…If there is not enough O2 available lactic acid will begin to accumulate in the musclesBurning sensation is the result of lowering the muscle pHBlood takes the lactic acid to the liver and breaks it down to pyruvate
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B. Alcoholic Fermentation: Without O2 NADH gives H+ to pyruvic acid pyruvic acid ethyl alcohol + CO2 + NAD+ Wine Formation: Sugar in grapes is broken down with
glycolysis Dry Wine: Fermentation until all
sugar is used up Sweet Wine: Alcohol inhibits
fermentation before all sugar is used up
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Pyruvic Acid Fermentation
Lactic Acid
NADH+HNADTo Glycolysis
Carbon Dioxide
FermentationEthyl
Alcohol
To Glycolysis NADNADH+H
Pyruvic Acid
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2. Aerobic RespirationGlycolysis followed by the breakdown of pyruvic acid using oxygenOccurs inside the MITOCHONDRIAPyruvic acid formed in the cytoplasm diffuses across the membrane into the MATRIX
1. Conversion of Pyruvic Acid 2. Krebs Cycle 3. Electron transport chain
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The Mitochondrion
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A. Conversion of Pyruvic Acid
1. Pyruvic acid loses a C to form CO2 and a H that is picked up by NAD + Forming an Acetyl group & NADH + H+.
2. Acetyl group then picks up COENZYME A to form Acetyl-CoA.
NAD
NADH +H
CO2
CO A
CoA
ACETYL CoA
Pyruvic Acid
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The Krebs
Cycle
Pyruvic AcidCO2
CO2
CO2
CoA
Citric Acid (6C)NAD
NADH + H
Ketoglutaric Acid (5C) NAD
NADH + H
NADH + H
NAD
ADPATP
Succinic Acid (4C)
FAD
FADHMalic Acid (4C)
Oxaloacetic Acid (4C)
Acetyl – CoA (2C)
NAD
NADH + H
CoA
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B. Kreb’s Cycle or Citric Acid Cycle
Discovered by Hans KrebsReleases CO2 and hydrogen ions and results in the formation of ATP
Steps of the Kreb’s
1. Acetyl CoA gives up the CoA and binds with (4C) Oxaloacetic Acid to form CITRIC ACID (6C)
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2. Citric Acid (6C):releases H ion to NAD+ to form NADH + H+ C to form CO2 - this results in KETOGLUTARIC ACID (5C)
3. Ketoglutaric Acid (5C):H ion to NAD+ to form NADH + H+C to form CO2
phosphate group to ADP to form ATP –this results in SUCCINIC ACID (4C).
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4. Succinic Acid: gives up H to FAD to create FADH2 – results in MALIC ACID (4C)
5. Malic Acid:H+ ion to NAD+ to form NADH + H+ - this results in OXALOACETIC ACID (4C) - the starting and stopping part of the Kreb’s Cycle
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Krebs
Cycle
Pyruvic AcidCO2
CO2
CO2
CoA
Citric AcidNAD
NADH + H
Ketoglutaric AcidNAD
NADH + H
NADH + H
NAD
ADPATP
Succinic AcidFAD
FADHMalic Acid
Oxaloacetic Acid
Acetyl - CoA
NAD
NADH + H
CoA
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Overall Results Of Krebs CycleFrom one C6H12O6 molecule the following is
formed…..-6 NADH + H+ (3 each pyruvic acids)-4 CO2 (2 each pyruvic acid)-2 ATP (1 per pyruvic acid)-2 FADH (1 per pyruvic acid)
Overall Results: Glycolysis + Kreb’s Cycle-4 ATP (2 from glycolysis, 2 from Kreb’s)-10 NADH +H+ 30ATP-2 FADH2 4 ATP
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C. Electron Transport Chain-Occurs across the inner membrane of the
mitochondria-Consists of enzymes, carrier molecules
Steps of Electron Transport1. NADH + H+ and FADH2 from the
Krebs cycle arrives at the electron transport chaine- are released and move down the chain, releasing energy.Oxygen is the final e- acceptor
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2. At the same time… NADH+ H+ and FADH2 deliver H+, Across the inner membrane out of the matrix.This Creates a concentration gradient
3. Ions want to diffuse across the membrane down their concentration gradient.
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4. Hydrogen move across the membrane through ATPsynthetase… ATP is made. CHEMIOSMOSIS
5. The diffused hydrogen ions are picked up by incoming oxygen to form water.
*This is a continuous process, oxygen removes H+ while NADH+H+ and FADH2 replace it.
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NADH + H+
FADH2 H+
H+
MATRIX
MATRIX
O2
H2O
e-
MATRIX
H+
ADP + PATP
ATP
Synthetase
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ENERGY RESULTSScientists have determined….
-After Krebs and Glycolysis- 10 NADH give 3 ATP’s each and total 30
ATP’s 2 FADH give 2 ATP’s each and total 4 ATP’s 34 ATP’s/
glucose Total ATP/glucose Glycolysis 2 ATP Krebs 2 ATP e- transport 34 ATP 38 ATP/glucose
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2 NADH + H+
2 NADH + H+
6 NADH + H+
2 FADH2
2ATP
ADP
2ATP
2ATP
34 ATP
38 ATP’S
KREB’S
2PGAL
Glu
c ose
2 P.
A.
2 Acetyl Co-A
Glycolysis
E-.Transport Chain
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Respiration Overview
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The Chemistry…The chemical reactions of photosynthesis and respiration are oppositesPhotosynthesisCO2 + H2O + ENERGY (C6H12O6) + O2
RespirationC6H1206 + O2 CO2 + H2O + ENERGY