Post on 15-Apr-2017
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Metabolism
Chapter 5
Why Study Metabolism?• Classification of bacteria
– Oxygen Tolerance– Biochemical reactions
• Acids, Ammonia, Gases
• Fermentation Products– Food Products
• Yogurt, Sour Cream, Bread, Alcohol– Commercial Products
• Citric Acid, Plastics
• Environmental Cleanup
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Ying & Yang of Metabolism• Metabolism = Anabolism + Catabolism
• Photosynthesis requires Respiration
• Respiration requires Photosynthesis
• Energy Production = Energy Consumption
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BreakdownProteins to Amino Acids, Starch to Glucose
SynthesisAmino Acids to Proteins, Glucose to Starch
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Overview of Metabolism• Source of Energy (Photo- vs.
Chemotroph)– Source of Electrons– Carrier of Electrons– Final Electron Acceptor
• Source of Carbon (Auto- vs. Heterotroph)– Auto- : Carbon Dioxide– Hetero- : Organic Compounds
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Classification based on Metabolism• Where microbes get their energy?
– Sunlight vs. Chemical– Photo- vs. Chemo- trophs
• How do they obtain carbon?– Carbon Dioxide (or inorganic cmpds.) vs.
Organic Compounds (sugars, amino acids)– Auto- vs. Hetero- trophs
• Examples– Photoautotrophs vs. Photoheterotrophs– Chemoautotrophs vs. Chemoheterotrophs
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Types of -trophsType Energy C source Example
Photoauto- Sun CO2 Purple &Green sulfurbacteria
Photohetero- Sun OrganicCompounds
Purple &Green Non-sulfur bacteria
Chemoauto- Chemicalbonds
CO2 H, S, Fe, Nbacteria
Chemohetero- Chemicalbonds
OrganicCompounds
Most bacteria,fungi,protozoa,animals
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Source of Electrons• Autotrophs
– Photosynthesis– H2O, H2S
• Chemotrophs– Organic Compounds– Carbohydrates (C H2O)
• Glucose, Lactose, Sucrose, Mannitol, Citrate– Amino Acids
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Electron Carriers• Photosynthesis
– NADP + H to NADPH• Respiration
– NAD + H to NADH– FAD + H to FADH
• Contain Niacin and Riboflavin– Vitamins, not stable– Can’t store these molecules
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Final Electron Acceptor• Photosynthesis
– CO2 + H’s to CH2O– Stores energy
• Respiration– Aerobic
• 1/2 O2 + H 2 to H2O
– Anaerobic• Fermentation
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Movement of Electrons• Chemical reactions
• Oxidation Reactions
• Reduction Reactions
• Reactions Coupled– Redox reactions
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Example of Redox Equations
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Example of Redox Equations
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Example of Redox Equations
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Examples• ATP ADP + P
– Oxidation, release energy• ADP + P ATP
– Reduction, stores energy• NAD + H NADH• FADH FAD + H• NH4 + 11/
2O2 NO2- +H2O + 2H + ATP
• 2H2 + O2 2H2 O
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Examples• Cellular Respiration
– C6H12 O6 + 6O2 6H2O + 6CO2 + 38 ATP
• Photosynthesis– 6H2O + 6CO2 + light C6H12 O6 + 6O2
• Nitrification– NH4 NO2 to NO3
• Ammonia to Nitrite to Nitrate
• Ammonification– N2 NH4
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Respiration• Overview;
– Glucose to Carbon dioxide + Water +Energy
– C6H12O6 + O2 6CO2 + 6H2O + 38 ATP– Glucose is highly reduced; contains energy– Oxygen receives the electrons to form
energy• 4 separate reactions
– Glycolysis, Transition Reaction, Krebs Cycle, Electron Transport, Chemiosomosis
• Requires Oxygen
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Steps in Respiration• Electron Donors
– Organic Compounds (Glucose preferred)• Electron Carriers
– NAD to NADH– FAD to FADH
• Electron Acceptors-Terminal– O2 to H2O
• Phosphorylation Reactions– ADP to ATP
• Chemiosmosis Reactions
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Glycolysis- 10 steps• Glucose is Phosphorylated to form
Fructose 1,6-diphosphate• Split to form 2 Glyceraldehyde 3-
phosphate• Final Products are:
– 2 Pyruvic Acid (C3H4O3)• Compare to original glucose - C6H12O6
– 2 NADH– 2 ATP
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Transition Reaction• Pyruvic Acid Acetyl - Co A + CO2 +
NADH• C2H4O2
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Kreb’s Cycle• Figure E.3, A29• Acetyl CoA Carbon Dioxide
– C2H4O2 to CO2
– Energy produced/Acetyl CoA (x2 for /Glucose)
• 3 NADH• 1 FADH• 1 ATP
• Metabolic Wheel– Fats, amino acids, etc. enter or leave– Citrate is product of first reaction
• Simmons Citrate Media
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Electron Transport Chain• NADH oxidized to NAD• FAD reduced to FADH• Cytochromes shuffle electrons finally to
O2
– Cytochrome Oxidase important in G - ID
• H2O formed and ATP• 3 ATP / 1 NADH• 2 ATP / 1 FADH
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Fermentation Products from Pyruvate• Homolactic = Lactic Acid
– Yogurt, Lactobacillus
• Alcohol + CO2
• Propionic Acid• Butyric Acid• Acetic Acid• Succinic Acid• Butylene to Acetoin
– basis for VP Test (Vogues-Proskauer)
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Fermentation Products• Alcohol and Carbon Dioxide
– Yeast mostly• Lactic Acid
– Humans, muscles without oxygen– Bacteria (Lactobacillus-yogurt)
• Butyric Acid– Rancid butter, Clostridium-gangrene
• Acetoin – Butanediol fermentation in Klebsiella
• Propionic Acid – Swiss Cheese
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Fermentation in Yeast
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Fermentation in Muscle
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Photosynthesis
• Plants– CO2 + H2O + Light C6H12O6 + O2
– Water is split to release electrons• Bacteria
– H2S is used not water• Sulfur or Sulfuric Acid formed• Oxygen not released
– Chlorophyll is different– Strict Anaerobe– Purple & Green Sulfur Bacteria
Chemiosmosis• Production of ATP in Electron Transport• Electrochemical Gradient Formed
between membranes• H+ (Protons) generated from NADH• Electrical Force (+) & pH Force (Acid)• Gradient formed• ATPase enzyme that channels H+ from
High to Low concentration– 3 ATP/NADH– 2 ATP/NADH
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Summary of Respiration• Aerobic Respiration
– Glycolysis– Transition Rx.– Kreb’s Cycle– Electron Transport
Chain• Anaerobic
Respiration– Pyruvate
• Lactic Acid• Mixed Acids• Alcohol + CO2
– Recycle NADH– 2 ATP / Glucose
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