The role of ATP in metabolism · U inner energy H enthalpy = heat content S entropy = measure of...
Transcript of The role of ATP in metabolism · U inner energy H enthalpy = heat content S entropy = measure of...
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The role of ATP in metabolismThe role of ATP in metabolism
MUDr. Martin Vejražka, PhD.MUDr. Martin Vejražka, PhD.
This slideshow is available onThis slideshow is available on--lineline
www.lf1.cuni.cz, link „ewww.lf1.cuni.cz, link „e--learning“learning“el.lf1.cuni.czel.lf1.cuni.cz
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Adenosin triphosphate (ATP)Adenosin triphosphate (ATP)
NN
NH2
-O O N
NN
O
OHHO
OP
O
O
O-
P
O
O
-O
P
-O
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ATP, ADP, AMP a cAMPATP, ADP, AMP a cAMP
�� Macroergic compoundMacroergic compound
�� Role in signalingRole in signaling
–– cAMPcAMP–– cAMPcAMP
–– AMPAMP
�� Binds transitive metalsBinds transitive metals
�� RNARNA
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What is macroergic bond???What is macroergic bond???
… back to thermodynamics… back to thermodynamics
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ThermodynamicsThermodynamics
�� Two axiomsTwo axioms�� Abstract quantities (entropy, enthalpy…)Abstract quantities (entropy, enthalpy…)�� Idealised processes and stuffs (reversible Idealised processes and stuffs (reversible
action, universal gas…)action, universal gas…)action, universal gas…)action, universal gas…)�� Is not interested in inner structure of Is not interested in inner structure of
materiamateria�� Does not deal with time, rate of processesDoes not deal with time, rate of processes
�� „Simple“ and „easy to understand“ „Simple“ and „easy to understand“ systemsystem
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Thermodynamic functionsThermodynamic functions
U inner energyU inner energy
H enthalpy = heat contentH enthalpy = heat content
S entropy = measure of randomnessS entropy = measure of randomnessS entropy = measure of randomnessS entropy = measure of randomness
F free energyF free energy
G free enthalpyG free enthalpy
Cannot be measured absolutely, Cannot be measured absolutely, changeschanges are quantifiedare quantified
Standard quantities (GStandard quantities (G00, S, S00…) defined for …) defined for
certain „standard state“certain „standard state“
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EnthalpyEnthalpy
�� Constant volume:Constant volume:∆∆U = QU = Q
∆∆ inner energy = reaction heatinner energy = reaction heat
�� Constant pressureConstant pressure∆∆H = QH = Q
–– a part of energy corresponds to a part of energy corresponds to mechanical workmechanical work
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EnthalpyEnthalpy
�� ∆∆H … heat exchanged between the system H … heat exchanged between the system and its surroundingand its surrounding
�� H … heat content H … heat content –– how much heat can be how much heat can be maximally produced by the systemmaximally produced by the system
�� If volume is not changed: equal to change If volume is not changed: equal to change in inner energyin inner energy
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Free enthalpyFree enthalpy
�� A portion of enthalpy can be used to A portion of enthalpy can be used to increase arrangement of the systemincrease arrangement of the system
∆∆G = G = ∆∆H H –– T·T·∆∆SS
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Free enthalpyFree enthalpy
inclination inclination
to reactto react==
decrease decrease
in energy in energy
of systemof system
++increase in increase in
randomness of randomness of
systemsystem
∆∆G < 0 … reaction runs spontaneouslyG < 0 … reaction runs spontaneously∆∆G = 0 … equilibriumG = 0 … equilibrium∆∆G > 0 … need for energyG > 0 … need for energy
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Free enthalpyFree enthalpy
∆∆G = G = ∆∆GG00‘ + ‘ +
RT·ln[products]/[reactants]RT·ln[products]/[reactants]
∆∆GG00 … all concentrations 1 mol/l… all concentrations 1 mol/l∆∆GG00 … all concentrations 1 mol/l… all concentrations 1 mol/l
∆∆GG00‘ … + aquaeous sol., pH = 7,0‘ … + aquaeous sol., pH = 7,0
∆∆GG00 = = -- RT·ln K‘RT·ln K‘
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Course of reactionCourse of reaction
∆∆G = G = ∆∆GG00‘ + RT·ln[products]/[reactants]‘ + RT·ln[products]/[reactants]
Real concentration of Real concentration of Can run?Can run?
∆∆G < 0G < 0
Properties of reactionProperties of reaction
KK
Real concentration of Real concentration of
compoundscompounds
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Course of reactionCourse of reaction
∆∆G = G = ∆∆GG00‘ + RT·ln[products]/[reactants]‘ + RT·ln[products]/[reactants]
Coupling Coupling
of of
reactionsreactions
Taking products awayTaking products away
Increasing reactant concentrationIncreasing reactant concentration
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… back to ATP …… back to ATP …
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ATPATP
�� Hydrolysis of ATP is strongly Hydrolysis of ATP is strongly exergonicexergonic
ATP ATP → ADP + P→ ADP + Pii ∆∆GG00‘ = ‘ = --30,5 kJ/mol 30,5 kJ/mol
Thermodynamics: reaction may run spontaneouslyThermodynamics: reaction may run spontaneously
Kinetics: reaction does NOT run spontaneouslyKinetics: reaction does NOT run spontaneously
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Hydrolysis of ATPHydrolysis of ATP
without enzymewithout enzyme
∆∆G0‘ = G0‘ = --30,5 kJ/mol30,5 kJ/molwith enzymewith enzyme
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Coupling of reactionsCoupling of reactions
heatheat
Modified from Murray et al.: Harper‘s BiochemistryModified from Murray et al.: Harper‘s Biochemistry
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Coupling of reactionsCoupling of reactions
heatheatATPATP
heatheat
ADPADP ADPADP
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Irreversible reactionsIrreversible reactions
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Irreversible reactionsIrreversible reactions
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How to make ATPHow to make ATP
oxidation of fuelsoxidation of fuelsmitochondriamitochondria
respiratory chainrespiratory chain
proton gradient is formedproton gradient is formed
reducing equivalentsreducing equivalents
NADH, FADHNADH, FADH22
proton gradient is formedproton gradient is formed
phosphorylation of ADPphosphorylation of ADP
= formation of ATP= formation of ATP
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Other macroeric compoundsOther macroeric compounds
PhosphoenolpyruvatePhosphoenolpyruvate
CarbamoylphosphateCarbamoylphosphate
BisphosphoglycerateBisphosphoglycerate
CreatinphosphateCreatinphosphate
Other:Other:
thioesters (including acetylcoenzyme A)thioesters (including acetylcoenzyme A)
esters of aminoacidsesters of aminoacidsCreatinphosphateCreatinphosphate
ATPATP
ADPADP
PyrophosphatePyrophosphate
Phosphorylated carbohydratesPhosphorylated carbohydrates
esters of aminoacidsesters of aminoacids
SS--adenosylmethioninadenosylmethionin
phosphoribosyl pyrophosphatephosphoribosyl pyrophosphate
……
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Other properties of ATPOther properties of ATP
�� A complex with MgA complex with Mg2+2+ worksworks
–– Mg is cofactor of all enzymeMg is cofactor of all enzyme--catalysed catalysed –– Mg is cofactor of all enzymeMg is cofactor of all enzyme--catalysed catalysed reactions of ATPreactions of ATP
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Some reactions of ATPSome reactions of ATP
�� Adenylate kinaseAdenylate kinaseATP + AMP ATP + AMP ↔ 2 ADP↔ 2 ADP
�� Nucleoside kinasesNucleoside kinasesATP + GDP ↔ ADP + GTPATP + GDP ↔ ADP + GTP