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Module 3 Microbial Metabolism
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Copyright © 2013 Pearson Education, Inc. Lectures prepared by Christine L. Case
Chapter 5
Microbial Metabolism
© 2013 Pearson Education, Inc. Lectures prepared by Helmut Kae
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Catabolic and Anabolic Reactions
§ Metabolism: the sum of the chemical reactions in an organism
§ Two general types of metabolic reactions § Catabolism: provides energy and building blocks for
anabolism § Anabolism: uses energy and building blocks to build large
molecules § Recall from Chapter 2
§ Energy can be stored when covalent bonds form § Energy can be released when covalent bonds broken
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Catabolic Reactions
§ Breakdown of complex substances to small molecules § Degradative reactions § Breaking of covalent bonds § What type of reaction used to break covalent bonds?
§ Purpose is to generate energy, make building blocks § Releases energy stored in bonds § Breakdown products used to build new molecules
§ Eg, breakdown of glucose for energy
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Anabolic Reactions
§ Building macromolecules from small molecules § Biosynthetic reactions § Forming of covalent bonds § What type of reaction used to form covalent bonds?
§ Requires energy to form bonds § Purpose is to generate materials for cell growth § Eg, making proteins from amino acids
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Figure 5.1 The role of ATP in coupling anabolic and catabolic reactions.
Catabolism releases energy by oxidation of molecules
Energy is stored in molecules of ATP
Anabolism uses energy to synthesize macromolecules that make up the cell
Energy is released by hydrolysis of ATP
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Catabolic and Anabolic Reactions
§ A metabolic pathway is a sequence of chemical reactions in a cell
§ Metabolic pathways are controlled by enzymes
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Enzymes
§ Enzymes are biological catalysts § “Allow” reactions to occur § Not used up in that reaction
§ Specific for a single chemical reaction § Specificity is due to structure of enzyme
§ Proteins (enzymes) have characteristic 3D structure § Structure is essential for function
§ If enzyme loses shape, enzyme doesn’t work § Denaturation (Denatured)
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Enzymes
§ Enzymes act on one or more “substrates” § Substrates bind at active site
§ Each enzyme is specific: § For one (set of) substrate(s) § For one reaction
§ Names of enzymes end in “-ase” § Sucrase, Catalase, DNA polymerase
§ Eg, the enzyme sucrase catalyses the hydrolysis of sucrose into glucose and fructose § That’s it, no other reactions
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Enzyme Components
§ Many enzymes are made entirely of proteins § Some consist of 2 components:
§ Apoenzyme: protein § Cofactor: nonprotein component - Coenzyme: organic cofactor
§ Holoenzyme: apoenzyme plus cofactor § Apoenzyme alone doesn’t function
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Coenzyme Substrate
Apoenzyme (protein portion),
inactive
Cofactor (nonprotein portion),
activator
Holoenzyme (whole enzyme),
active
Enzyme Components
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Enzyme Mechanism
§ General sequence of events in an enzymatic reaction § Substrate(s) bind to active site - Enzyme-substrate complex
§ The substrate(s) is transformed § Transformed molecule(s), product(s), released - No longer fits active site - Enzyme only binds to substrate
§ Enzyme is free to bind to new substrate(s)
§ Sequence continues until enzyme is shut off, or enzyme breaks down
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Substrate Active site
Enzyme–substrate
Products
Enzyme complex
Enzyme Mechanism
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Factors Influencing Enzyme Activity
§ Temperature § pH § Inhibitors
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Active (functional) protein Denatured protein
Factors Influencing Enzyme Activity
§ Enzymes require specific conditions to function § Hostile environments can cause proteins to denature
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§ Temperature § In general, chemical reactions speed up as temperature
increases slightly § For enzymes, too high temperature increases cause
denaturation
Factors Influencing Enzyme Activity
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Figure 5.5a Factors that influence enzymatic activity, plotted for a hypothetical enzyme.
(a) Temperature. The enzymatic activity (rate of reaction catalyzed by the enzyme) increases with increasing temperature until the enzyme, a protein, is denatured by heat and inactivated. At this point, the reaction rate falls steeply.
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§ pH § pH is a measure of hydrogen ions (H+) in a solution § All enzymes have preferred pH § Shift from preferred pH will denature enzymes
Factors Influencing Enzyme Activity
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Figure 5.5b Factors that influence enzymatic activity, plotted for a hypothetical enzyme.
(b) pH. The enzyme illustrated is most active at about pH 5.0.
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Factors Influencing Enzyme Activity
§ Certain chemicals that bind to enzymes § Binding disrupts enzyme function
§ Function as enzyme inhibitors § Two classes of inhibitors
§ Competitive inhibitors § Noncompetitive inhibitors
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Normal Binding of Substrate Action of Enzyme Inhibitors
Substrate Active site
Enzyme
Competitive inhibitor
Competitive Inhibitors
§ Bind at active site § Compete with substrate for the active site of enzyme
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The Sulfa Drugs
§ Sulfa drugs inhibit Tryptophan (an essential amino acid) synthesis via competitive inhibition
§ Sulfa drugs were the first effective antibacterial drugs
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Normal Binding of Substrate
Substrate Active site
Enzyme
Action of Enzyme Inhibitors
Noncompetitive inhibitor Allosteric
site
Altered active site
Noncompetitive Inhibition
§ Bind away from active site § Aka allosteric inhibition
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Noncompetitive Inhibition
§ Nevirapine (NNRTI) prevents replication of HIV via non-competitive inhibition
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Substrate
Pathway Operates
Intermediate A
Intermediate B
End-product
Enzyme 1
Allosteric site
Enzyme 2
Bound end-product
Pathway Shuts Down
Feed
back
Inhi
bitio
n
Enzyme 3
Enzyme Inhibitors: Feedback Inhibition
§ Control of enzymatic activity by use of allosteric inhibition § Mechanism to stop cell
from wasting chemical resources
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5-8 Explain the term oxidation-reduction. 5-9 List and provide examples of three types of
phosphorylation reactions that generate ATP. 5-10 Explain the overall function of metabolic
pathways.
Energy Production
Learning Objectives
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Energy Production
§ Energy is stored in covalent bonds § Recall: covalent bonds form by sharing electrons
§ Energy is stored in electrons of covalent bonds § Catabolism involves stripping “high energy”
electrons from molecules and concentrate them in the bonds of ATP
§ Reactions that involve removing and adding electrons are called “oxidation-reduction” reactions
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Oxidation-Reduction Reactions
§ Oxidation: removal of electrons § Reduction: gain of electrons § Redox reaction: an oxidation reaction paired with
a reduction reaction § Catabolism is the oxidation of highly reduced
molecules
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Reduction
A oxidized B reduced
Oxidation
A B
A Redox Reduction
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Reduction
Oxidation
H+
(proton)
Organic molecule that includes two hydrogen atoms
(H)
NAD+ coenzyme (electron carrier)
Oxidized organic
molecule
NADH + H+ (proton) (reduced electron
carrier)
H
Biological Oxidation
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The Generation of ATP
§ Energy released by redox reactions “trapped” by ATP
§ ATP is generated by the phosphorylation of ADP § Addition of a phosphate § Requires energy
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Generation of ATP
§ 3 Types of phosphorylations to generate ATP § Substrate-level phosphorylation § Oxidative phosphorylation § Photophosphorylation
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§ Direct transfer of a PO4– to ADP generates ATP
§ Enzymatic process § Quick and easy § Not highly efficient
Substrate-Level Phosphorylation
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Oxidative Phosphorylation
§ “High energy” electrons from organic molecule (food) used to generate a chemiosmotic (proton) gradient § Gradient used to drive ATP production
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Photophosphorylation
§ Occurs only in photosynthetic cells § Light transfers energy to “low-energy” electrons
§ Electrons get “excited”
§ Excited electrons used to generate chemiosmotic gradient, drive ATP production § Similar to oxidative phosphorylation, using light instead of
food to “build dam”
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Metabolic Pathways of Energy Production § Catabolism involves series of controlled reactions
§ Releasing energy in one reaction generates too much heat, can’t be harnessed efficiently
§ Catabolism is a series of redox reactions § Electrons extracted to generate ATP § Sequence of reactions called a pathway
§ Every reaction in a pathway performed by one enzyme
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Carbohydrate Catabolism
§ Carbohydrates are primary source of energy § Glucose is most common energy source
§ Glucose is broken down via two general processes § Cellular respiration - Glucose + O2 à CO2 + H2O + energy
§ Fermentation - Glucose à Energy + Organic end-product, i.e. ethanol,
lactic acid
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Figure 5.11 An Overview of Respiration and Fermentation.
1
3
2
The Krebs cycle produces some ATP by substrate-level phosphorylation, reduces the electron carriers NAD+ and FAD, and gives off CO2. Carriers from both glycolysis and the Krebs cycle donate electrons to the electron transport chain.
In the electron transport chain, the energy of the electrons is used to produce a great deal of ATP by oxidative phosphorylation.
Glycolysis produces ATP and reduces NAD+ to NADH while oxidizing glucose to pyruvic acid. In respiration, the pyruvic acid is converted to the first reactant in the Krebs cycle, acetyl CoA.
In fermentation, the pyruvic acid and the electrons carried by NADH from glycolysis are incorporated into fermentation end-products.
brewer’s yeast
NADH
NADH
NADH
FADH2
NADH & FADH2
Glycolysis Glucose
Pyruvic acid
Pyruvic acid (or derivative)
Formation of fermentation end-products
ATP
ATP
ATP CO2
O2
Electrons
Acetyl CoA
Electron transport chain and chemiosmosis
respiration fermentation
H2O
Kreb’s cycle
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Cellular Respiration
§ Complete oxidation (catabolism) of glucose § Waste products are inorganic
§ Most of the energy is produced via oxidative phosphorylation
§ Two types of respiration § Aerobic Respiration – with oxygen § Anaerobic Respiration – without oxygen
§ Multiple pathways involved § Glycolysis § Krebs Cycle § Electron transport Chain
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Glycolysis
§ The oxidation of glucose (6 Carbon) to 2 pyruvic acid (3 Carbon)
§ Main end products § 2 pyruvic acids (aka
pyruvate) § 2 NADH – an electron
carrier § 2 ATP – via SLP
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A Word About Electron Carriers
§ NAD+ (empty electron carrier) removes electrons from organic molecule (food à glucose) § Becomes NADH (full electron carrier)
§ NADH takes electrons to their final destination § Stay tuned ….
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Glycolysis
1
3
4
5
1 - Requires 2 ATP to “get started”
This part of glycolysis occurs twice per glucose
molecule
2 – NAD+ is reduced to NADH 2 NADH produced
3 – 4 ATP produced Overall, 2 ATP produced by
glycolysis 4 – 2 pyruvic acid
produced
Glycolysis DOES NOT require
oxygen
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Alternatives to Glycolysis
§ Pentose phosphate pathway § Uses pentoses and NADPH (electron carrier for
anabolism) § Operates with glycolysis
§ Entner-Doudoroff pathway § Produces NADPH and ATP § Does not involve glycolysis
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Figure 5.11 An Overview of Respiration and Fermentation.
1
3
2
The Krebs cycle produces some ATP by substrate-level phosphorylation, reduces the electron carriers NAD+ and FAD, and gives off CO2. Carriers from both glycolysis and the Krebs cycle donate electrons to the electron transport chain.
In the electron transport chain, the energy of the electrons is used to produce a great deal of ATP by oxidative phosphorylation.
Glycolysis produces ATP and reduces NAD+ to NADH while oxidizing glucose to pyruvic acid. In respiration, the pyruvic acid is converted to the first reactant in the Krebs cycle, acetyl CoA.
In fermentation, the pyruvic acid and the electrons carried by NADH from glycolysis are incorporated into fermentation end-products.
brewer’s yeast
NADH
NADH
NADH
FADH2
NADH & FADH2
Glycolysis Glucose
Pyruvic acid
Pyruvic acid (or derivative)
Formation of fermentation end-products
ATP
ATP
ATP CO2
O2
Electrons
Acetyl CoA
Electron transport chain and chemiosmosis
respiration fermentation
H2O
Kreb’s cycle
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§ Pyruvic acid (from glycolysis) is oxidized and decarboxylated
§ NADH is produced § CO2 waste
Intermediate Step
1 NADH produced; 2 per
glucose
1 C lost as CO2
Acetyl-CoA “enters” next step of respiration
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The Krebs Cycle
§ Aka tricarboxylic acid cycle (TCA); citric acid cycle § Series of 8 reactions § Completely catabolizes organic molecule to CO2
§ Released as waste § Main products are NADH, FADH2, 1 ATP
§ Electron carriers § Final organic end-product is same as starting
reactant § A “cycle”
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The Krebs Cycle
1 – Acetyl-CoA enters Krebs cycle
Cyclical pathway, last product is
same as starting reactant
Generates NADH, FADH2
CO2 generated as waste
1 ATP produced
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Figure 5.11 An Overview of Respiration and Fermentation.
1
3
2
The Krebs cycle produces some ATP by substrate-level phosphorylation, reduces the electron carriers NAD+ and FAD, and gives off CO2. Carriers from both glycolysis and the Krebs cycle donate electrons to the electron transport chain.
In the electron transport chain, the energy of the electrons is used to produce a great deal of ATP by oxidative phosphorylation.
Glycolysis produces ATP and reduces NAD+ to NADH while oxidizing glucose to pyruvic acid. In respiration, the pyruvic acid is converted to the first reactant in the Krebs cycle, acetyl CoA.
In fermentation, the pyruvic acid and the electrons carried by NADH from glycolysis are incorporated into fermentation end-products.
brewer’s yeast
NADH
NADH
NADH
FADH2
NADH & FADH2
Glycolysis Glucose
Pyruvic acid
Pyruvic acid (or derivative)
Formation of fermentation end-products
ATP
ATP
ATP CO2
O2
Electrons
Acetyl CoA
Electron transport chain and chemiosmosis
respiration fermentation
H2O
Kreb’s cycle
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The Electron Transport Chain
§ A series of electron carrier enzymes in membrane § NADH, FADH2 pass electrons to ETC
§ Become NAD+, FAD § Return to glycolysis, Krebs cycle
§ Energy released from electrons used to drive H+ from inside cell to outside cell § Produces H+ concentration gradient – chemiosmotic
gradient § Electrons end up on “final electron carrier” – waste
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Cytoplasm Bacterium Mitochondrion
Intermembrane space Mitochondrial matrix
Cell wall
Periplasmic space
Plasma membrane
Outer membrane
Inner membrane
Periplasmic space of prokaryote or intermembrane space of eukaryote
Prokaryotic plasma membrane or eukaryotic inner mitochondrial membrane
Cytoplasm of prokaryote or mitochondrial matrix of eukaryote
Figure 5.16 Electron transport and the chemiosmotic generation of ATP.
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Oxidative Phosphorylation
§ ETC generates chemiosmotic gradient § H+ gradient favors diffusion into cell
§ H+ cannot diffuse across membrane freely – Why?
§ H+ re-enters cell via facilitated diffusion § Through transporter called ATP synthase
§ ATP synthase captures energy in gradient § Similar to water driving dam turbine § Produces ATP à Oxidative phosphorylation
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Figure 5.15 Chemiosmosis.
High H+ concentration
Low H+ concentration
Membrane
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Figure 5.11 An Overview of Respiration and Fermentation.
1
3
2
The Krebs cycle produces some ATP by substrate-level phosphorylation, reduces the electron carriers NAD+ and FAD, and gives off CO2. Carriers from both glycolysis and the Krebs cycle donate electrons to the electron transport chain.
In the electron transport chain, the energy of the electrons is used to produce a great deal of ATP by oxidative phosphorylation.
Glycolysis produces ATP and reduces NAD+ to NADH while oxidizing glucose to pyruvic acid. In respiration, the pyruvic acid is converted to the first reactant in the Krebs cycle, acetyl CoA.
In fermentation, the pyruvic acid and the electrons carried by NADH from glycolysis are incorporated into fermentation end-products.
brewer’s yeast
NADH
NADH
NADH
FADH2
NADH & FADH2
Glycolysis Glucose
Pyruvic acid
Pyruvic acid (or derivative)
Formation of fermentation end-products
ATP
ATP
ATP CO2
O2
Electrons
Acetyl CoA
Electron transport chain and chemiosmosis
respiration fermentation
H2O
Kreb’s cycle
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A Summary of Respiration
§ Aerobic respiration: the final electron acceptor in the electron transport chain is molecular oxygen (O2) § Organism is an aerobe § Oxygen is converted to water à waste
§ Anaerobic respiration: the final electron acceptor in the electron transport chain is NOT O2 § Usually inorganic ion § Organism is an anaerobe § Yields less energy than aerobic respiration because only
part of the Krebs cycle operates under anaerobic conditions
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Electron Acceptor Products NO3
– NO2
–, N2 + H2O
SO4– H2S + H2O
CO32 – CH4 + H2O
Anaerobic Respiration
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§ ATP produced from complete oxidation of one glucose using aerobic respiration
Pathway By Substrate-Level
Phosphorylation
By Oxidative Phosphorylation
From NADH From FADH
Glycolysis 2 6 0
Intermediate step 0 6 0
Krebs cycle 2 18 4
Total 4 30 4
Carbohydrate Catabolism
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Cellular Respiration
§ Other energy sources can be used § Eg, can oxidize lipids,
proteins § Polymers broken down
by enzymes § Smaller subunits enter
catabolism at various points of glycolysis, Krebs cycle
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Fermentation
§ Any spoilage of food by microorganisms (general use)
§ Any process that produces alcoholic beverages or acidic dairy products (general use)
§ Any large-scale microbial process occurring with or without air (common definition used in industry)
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Fermentation
§ Scientific definition: § Releases energy from oxidation of organic molecules
(food) § Does not require oxygen § Does not use the Krebs cycle or ETC § Uses an organic molecule as the final electron acceptor
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Fermentation
§ ATP generated only via glycolysis § Pyruvic acid converted into organic molecule end-
product à waste § Main purpose is to regenerate NAD+ (from NADH) for
glycolysis § NAD+, can participate in glycolysis again
§ Produces only small amount of energy - energy still left in end-product
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Figure 5.18a Fermentation.
Type of fermentation depends on end-product
produced
Eg, alcohol fermentation
produces ethanol
Glycolysis – produces ATP
NADH produced during glycolysis
NADH reduces pyruvic acid;
regenerates NAD+
Eg, lactic acid fermentation produces
lactic acid
NAD+ oxidizes glucose during
glycolysis
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Table 5.4 Some Industrial Uses for Different Types of Fermentations*
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Chemotherapy
§ Cyanides à highly toxic § Inhibit Cytochrome c Oxidase, enzyme in ETC
§ Disrupts ETC § Cell cannot use oxygen § Cell cannot produce ATP § Cell dies
§ Strict fermenters not affected by cyanide
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Catabolism and You
§ Muscle cells have huge ATP demand § Only enough for about 3 seconds of activity
§ 3 ways muscles create ATP § Phosphagen system § Glycogen-lactic acid system § Aerobic respiration
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Phosphagen System
§ Creatine phosphate § Phosphate containing molecule
§ Creatine kinase can transfer P from Creatine phosphate to ADP à ATP § Substrate level phosphorylation
§ Fast and easy § Not efficient
§ About 10 seconds worth § Useful for sprinters or low repetition/high weight
exercise
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Glycogen-Lactic Acid System
§ Glycogen § Glucose polymer à stored in muscle cells
§ When necessary, cell hydrolyses glycogen § Produces ATP via lactic acid fermentation
§ Slower than phosphagen system, but produces more ATP § Produces enough ATP for about 90 sec
§ Lactic acid build-up causes muscles to burn § Have to switch off eventually
§ Useful for swimmers, medium distance sprints
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Aerobic respiration
§ Muscles can use oxygen to burn glucose from: § Remaining glycogen in muscles § Glucose present in bloodstream § Fatty acid reserves § Proteins (only in extreme conditions, like starvation)
§ Much slower than phosphagen and Glycogen systems § But can supply ATP for hours as long as there is glucose
and oxygen § Marathon, endurance activities
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Photosynthesis
§ Photo: conversion of light energy into chemical energy (ATP) § Light-dependent (light) reactions
§ Synthesis: § Carbon fixation: fixing carbon into organic molecules § Light-independent (dark) reaction: Calvin-Benson cycle
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Light-dependent (Light) Reactions
§ Light energy is absorbed by chlorophyll § In thylakoids of chloroplasts in eukaryotes § In thylakoids of prokaryotes
§ Light energizes or “excites” electrons in chlorophyll § Excited electrons are passed on to ETC
§ ATP is generated § Occurs in two ways:
§ Cyclic (anoxygenic) § Noncyclic (oxygenic)
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Figure 5.25a Photophosphorylation.
Light Excited electrons
Electron transport chain
Electron carrier
In Photosystem I (a) Cyclic photophosphorylation
Energy for production of ATP
Cyclic Photophosphorylation
No oxygen is produced - Anoxygenic
1 - Light excites electrons
2 - Electrons passed on to ETC
3 – ATP generated by chemiosmosis
4 – Electrons return to chlorophyll
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Figure 5.25b Photophosphorylation.
Excited electrons
Excited electrons
(b) Noncyclic photophosphorylation
Electron transport chain Energy for
production of ATP
Light
Light
In Photosystem II
In Photosystem I
H+ + H+
1 2
Noncyclic Photophosphorylation Oxygen is produced -
Oxygenic
1 - Light excites electrons
2 – Electrons passed on to
ETC 3 – ATP generated by chemiosmosis
4 – Electrons placed on NADP+ à forms
NADPH
5 – Electrons in chlorophyll replaced by electrons from water à O2 produced as waste
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Light-independent (Dark) Reactions
§ Aka Calvin-Benson Cycle § Uses ATP, NADPH produced by noncyclic
photophosphorylation to “fix” CO2
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Figure 5.26 A simplified version of the Calvin-Benson cycle.
Ribulose diphosphate 3-phosphoglyceric acid
Input
1,3-diphosphoglyceric acid
Calvin-Benson cycle
Glyceraldehyde 3-phosphate
Glyceraldehyde 3-phosphate
Output
Glyceraldehyde 3-phosphate
Glyceraldehyde 3-phosphate
1 – CO2 from atmosphere
2 – Process requires lots of energy (3 ATP, 2 NADPH to fix 1 C)
3 – Organic carbon produced
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Metabolic Diversity Among Organisms
§ Organisms classified according to metabolism § Based upon “nutritional pattern”
§ Specifically, look at basic requirements to sustain life § Source of energy § Source of carbon
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Metabolic Diversity Among Organisms
§ Two classifications based on energy sources § Phototrophs – use light as primary source of energy § Chemotrophs – use inorganic and organic molecules
(chemicals) for energy § Two classifications based on carbon sources
§ Autotrophs – use carbon dioxide (inorganic) - Aka “lithotrophs” (litho = rock)
§ Heterotrophs – use organic carbon source - Aka organotroph
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Metabolic Diversity Among Organisms
Nutritional Type Energy Source Carbon Source
Photoautotroph Light CO2
Photoheterotroph Light Organic
Chemoautotroph Chemical CO2
Chemoheterotroph Chemical Organic
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Chemoheterotrophs
§ Heterotrophs classified according to their source of organic molecule § Saprophytes – live on dead organic matter § Parasites – get nutrients from living hosts
§ Metabolic diversity of great interest § Can cause problems, provide potential solutions - Rhodococcus erythropolis can cause disease in
humans, animals - BUT, can remove sulfur from petroleum