metabolism the biochemical reactions that occur within a living organism and the energy exchanges...
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Metabolism
the biochemical reactions that occur within a living organism and the energy exchanges and transformations that accompany them
Catabolism -
Anabolism -
Trophic Strategies -
Autotrophs - synthesize cellular constituents from simple molecules
Heterotrophs - obtain free energy from the oxidation of organic compounds are are ultimately dependent on autotrophs
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Nutritional Requirements
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Nutritional Requirements
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Nutritional Requirements
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Building or breaking down a wide range of molecules through conversion to common intermediates
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5 Common Characteristics of Metabolic Pathways
1. Metabolic Pathways are Irreversible
2. Every Pathway has a First Committed Step
3. Catabolic and Anabolic Pathways Differ
4. All Metabolic Pathways are Regulated
5. Pathways Occur in Specific Locations
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Thermodynamics and Enzymes - Again
First Two Laws of Thermodynamics1. Energy can not be created or destroyed but it may
change forms The energy in the universe remains constant
2. In all natural processes, the entropy of the universe increases
"First: "You can't win.”
Second: "You can't break even.”
Third: "You can't quit the game.”
AP Snow
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Thermodynamics and Enzymes - Again
Gibbs Free Energy (G) Amount of energy capable of doing work
*remember - G indicates that the reaction can occur without the input of energy. It DOES NOT indicate that the reaction will occur at a measureable rate.
G is a state function.
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Thermodynamics and Enzymes - Again
Gibbs Free Energy (G) Can be calculated from equilibrium concentrations
dependent on both substrate and product concentrations(gas entropy example)
G = G0’ + RTln [C]c[D]d
[A]a[B]b
G = G0’ + RTlnKeq
At equilbrium G = 0 G0’ = -RTlnKeq
Keq = e G0-/RT
G0’ - standard state
R - gas constant
T - temperature
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Thermodynamics and Enzymes - Again
Enzymes
1. Alter the rate of a reaction
2. Lower the transition state for the forward and reverse reactions
3. Only function in a reaction that would occur without itSpontaneous reactions (negative G)
4. Are unchanged
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Thermodynamics and Metabolism
Near equilibrium reactions - G is close to zero
Far from equilibrium reactions - very large negative G
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Thermodynamics and Metabolism
Flux of reactions or rate of flow
Near equilibrium -
Far from equilibrium -
Implications of far from equilibrium1. Metabolic pathways are irreversible2. Every metabolic pathway has a first committed step3. Catabolic and anabolic pathways differ.
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Control of Flux
J = Vf-Vr
(flux is equal to the rate of the forward rxn minus the rate of the reverse)
For the pathway as a whole the flux is determined by the rate limiting step
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Mechanisms to Control of Flux
1. Allosteric control
2. Covalent modifications
3. Substrate Cycles
4. Genetic Control
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5. Metabolic Pathways Occur in Specific Cellular Locations
In multicellular organisms, tissue specific reactions also occur
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Enzymes Catalyze Metabolic Reactions
4 major types of reactions1. Oxidations and reductions - oxidoreductases2. Group transfer reactions - transferases and hydrolases3. Eliminations, isomerizations and rearrangements - isomerases and mutases4. Making or breaking Carbon bonds - hydrolases, lyases and ligases
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Models of C—H bond breaking.
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Models of C—H bond breaking.
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Group Transfer Reactions
Transfer of an electrophilic group from one nucleophile
to another. Y: + A - X Y - A + X:
Acyl Group Transferschymotrypsin
Phosphoryl Group Transfershexokinase
Glycosyl Group Transferslysozyme
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High Energy Compounds - Free Energy Currency
1. ATP and phosphoryl group transfer
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Different ways the cells utilize the high energy bonds in ATP
Coupling endergonic and exergonic reactions• Phosphate group transfers
Inorganic pyrophosphatase (ATP yields AMP + PPi)
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NTPs are freely interconverted
ATP + NDP ADP + NTP
Nucleoside diphosphate kinase
Different ways the cells utilize the high energy bonds in ATP
ATP binding and hydrolysis alters conformationGlycogen phosphorylase -
(active)
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Other phosphorylated compounds and regeneration of ATP
Substrate level phosphorylation
Oxidative phosphorylation
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Oxidation - Reduction ReactionsInvolve the loss or gain of electrons
most biochemical involve C-H bond cleavage with loss of two bonding electrons by carbonusually transferred to electron acceptor (carrier)
NAD+, FADH+
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Oxidation - Reduction ReactionsInvolve the loss or gain of electrons
reduction potential - how strongly a compound attractselectrons (larger value, stronger attraction)
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Eliminations, Isomerizations and Rearrangements1. Eliminations - formation of a double bond between
two saturated single-bonded centers
Ex. Enolase, fumerase
2. Isomerizations - change in location of double bondintramolecular shift of hydrogen atom
Ex. Phosphoglucose isomerase
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Eliminations, Isomerizations and Rearrangements
3. Rearrangements break and reform C-C bonds in a way that
rearranges the carbon skeleton few
Ex. Methylmalonyl CoA mutase (oxidation of odd chain fatty acids)
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Reactions that make and breakCarbon Bonds
Many different mechanismsfor you organic fans these include aldol condesations,
(aldolase in glycolysis), Claisen condensations (citrate synthase in TCA cycle), and decarboxylations
We will look at specific mechanisms as we study the pathways
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AVG = 161 203St dev = 25 38High = 196, low = 60 276, 134
90% and above (min 450 total course pts) = A 86 - 89 (min 430 pts) = A- 78 - 85 (min 390 pts) = B+ 74 - 77 (min 370 pts) = B 68-73 (min 340 pts) = B- 62 - 67 (min 310 pts) = C+
GradA = > 850 ptsA- = >775 ptsB+ = > 725 ptsB = > 650 ptsB- = > 550 ptsC+ = > 500 pts