Cellular Respiration by Shelley Penrod and RM Chute
description
Transcript of Cellular Respiration by Shelley Penrod and RM Chute
Anaerobic Respiration
GlycolysisFermentation
•Alcohol•Lactic Acid
Cellular Respiration by Shelley Penrod and RM Chuteby Shelley Penrod and RM Chute
Aerobic RespirationKrebs CycleElectron Transport Chain
Glycolysis OutlineGlycolysis Outline
glucosepyruvic acid
cytoplasm 10 10
ADP
+ 2P
1
NADH
H
+
ATP
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ATP
NAD+
Pyruvic Acid Pyruvic Acid Aerobic or Anaerobic Aerobic or Anaerobic
bacteria
Aerobic to mitochondria back of page
Anaerobic Fermentation Muscles(lactic acid)Yeast (alcohol)
pyruvic acid
NAD+
lactic acid
Anaerobic Respiration Fermentation
NADH
H+
ATP
H
H
NADH
H
+AD
P +P
1oxygenNAD+
2
Lactic Acid Fermentation
NADH
H
+
NADH
H+
pyruvic acid
NAD+
Anaerobic Respiration Fermentation
ATP
H H
ADP
+P1
CO2
ethanol
oxygenNAD+
2
Alcohol Fermentation
Aerobic RespirationAerobic Respiration
matrixmitochondria
pyruvic acid
CO2
NADH H+CoAacetyl oxaloacetic acid
citric acid
CoA
CO2
CO2
NADH H+
NADH H+
NADH H+
ATP
FADH2
matrixmitochondria
oxaloacetic acid
pyruvic acid
return to summary
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282
CoA
2nd pyruvic acid
Krebs Cycle (TCA)Krebs Cycle (TCA)Citric Acid CycleCitric Acid Cycle
CoA recycles for 2nd Pyruvic Acid and 2nd turn of the Krebs Cycle
innermitochondria
electrons
H+
ATP Synthase
three
two
Electron Transport Chain – Transport Chain –Oxidative PhosphorylationOxidative Phosphorylation
Glycolysis:
Glycolysis:
2 2
2 6 6Pyruvic acid
Krebs Cycle
3 6
3192
1
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pdf. Handout
Summary of Maximum Energy Yield from the Summary of Maximum Energy Yield from the Oxidation of One Molecule of GlucoseOxidation of One Molecule of Glucose