Life is based on redox - University of Idaho · Life is based on redox •All energy generation in...
Transcript of Life is based on redox - University of Idaho · Life is based on redox •All energy generation in...
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Life is based on redox
• All energy generation in biological systems is due to redox(reduction-oxidation) reactions
Aerobic Respiration:C6H12O6 + 6 H2O ==> 6 CO2 + 24 H+ +24 e- oxidation electron donor
(aka energy source)(O2+ 4H+ + 4e- ==> 2H2O) x6 reduction electron acceptor---------------------------------------C6H12O6 + 6 O2 ==> 6 CO2 + 6 H2O overall reaction (24 electrons)
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Types of bacterial metabolisms
• While eukaryotes only reduce O2 and oxidize organiccompounds, prokaryotes can use a variety of electrondonors and acceptors, organic and inorganic.
• Aerobic respiration: e- acceptor is O2
• Anaerobic respiration: e- acceptor is not O2
• Fermentation: e- donor and acceptor are organic molecules• Chemolithotrophy: e- donor and acceptor are inorganic
molecules• Phototrophy: e- donor is light and e- acceptor is either
organic or inorganic
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all microorganisms
energy source?
chemical light
chemotroph phototroph
carbon source?
organiccompound CO2
chemoheterotroph chemoautotroph
e- acceptor?
O2 Other than O2
Organiccompound
Inorganiccompound
fermentative organism anaerobic respiration: nitrate, sulfate, Fe(III)
carbon source?
photoheterotroph photoautotroph
green non-sulfur and purple non-sulfur bacteria anoxygenic
photosynthesis: green sulfur and
purple sulfur bacteria
use H2O to reduce CO2?
oxygenic photosynthesis:cyanobacteria
organiccompound CO2
most bacteria
Nitrifying and sulfur-oxidizing bacteria
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Aerobic or anaerobic respiration
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Chemolithotrophy
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Important molecules
Redox Electron Carrier: for example the NAD/NADH couple
Energy storage compounds: ATPCoenzyme A
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NAD as a Redox Electron Carrier
• freely diffusible carrier• nicotinamide-adenine dinucleotide NAD+
• transferring electrons from one place toanother in the cell• carry 2 e- and 2 protons (H+)• NAD+/NADH -0.32 V - NADH is a good e-
donor•NAD+ + 2 e- +2 H+ ==> NADH + H+
2 [H]
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Coenzyme A
• Conserve energy released in energy-producingreactions• Energy stored on thioester bond• Can store enough energy to drive the synthesis of ATP
Acetyl-S-CoA + H2O +ADP+Pi ==> acetate + HS-CoA + ATP
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Metabolism
glucose pyruvate
TCAcycle
glycolysis
lactate
butyrate
acetate
Acetyl-coA
Oxidative phosphorylation
NADH/ FADH2
Proton motive force
ATP
ATPase
GTP Substrate-level phosphorylationATP
Substrate-level phosphorylation
ATP
e- acceptor:O2, NO3
- orSO4
2-
fermentation
NADH
Substrate-level phosphorylation
ATP
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CAC= citric acid cycle
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Glycolysis
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Citric acid cycle
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Oxidative Phosphorylation
• NADH and FADH coming fromglycolysis will bring electrons
NADH ==> NAD+ + e-
FADH2 ==> FAD+ + e-
• These electrons are transporteddown the chain until they oxidizeO2
• At each step, protons aretranslocated to outside themembrane
• Thus, a proton gradient isestablished between inside andoutside the cell
• This proton gradient is termed theproton motive force (PMF)
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anaerobic respiration
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ATP generation with PMF
• The proton motiveforce is used by ATPsynthase to produceATP.
• Process calledchemiosmosis
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Substrate level phosphorylation
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Other metabolisms
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Anaerobic food chain• In contrast to aerobic organisms, no single anaerobe is able to take
glucose to CO2
• Need an anaerobic food chain that takes each compound part of theway.
• Various organisms participate in the degradation of a polymeric sugarsuch as cellulose
time
con
cen
trati
on
cellulose
acetate
CH4
fatty acidsH2
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Methanogenic environments
Carbohydrates, nucleic acidsProteins, lipids
1
LactatePropionate
Alcohols, …
AcetateH2, CO2
CH4, CO2
2
3
4
1234
Fermentative bacteria
Syntrophic bacteria
Homoacetogenic bacteria
Methanogenesis
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Types of metabolisms• Fermentative bacteria:Diversity of fermentation types- use sugars, amino acids,
nucleic acids- produce any combination of acids, alcohol,CO2, H2, NH3
• Syntrophic:Organisms that produces H2 and needs other organisms in co-
culture to remove the H2 produced• Homoacetogenic:4 H2+ H+ + 2 HCO3
- ==> CH3COO- + 4 H2O acetate
• Methanogenic (archea)4 H2+ CO2
==> CH4 + 2 H2Omethane
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Sulfidogenic environments
Carbohydrates
1
LactatePropionate
Alcohols, …
AcetateH2, CO2
H2S and CO2 and/or acetate
2
3
123
Fermentative bacteria
Syntrophic bacteria
Sulfate-reducing bacteria
2
SO42-
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Important molecules
C C C
O
O
OHpyruvate
lactate
C C O
OH
acetateC C C O
OH
OH
succinateC C C O
OHCO
OH
fumarate
C C C OOH
COOH
C O
OH
formate
C C
OH
ethanol
OH
malate
C C C OOH
CO
OH