Metabolism encompasses degradative and biosynthetic pathways Catabolism: reactions that break down...
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Transcript of Metabolism encompasses degradative and biosynthetic pathways Catabolism: reactions that break down...
![Page 1: Metabolism encompasses degradative and biosynthetic pathways Catabolism: reactions that break down nutrients and collect released energy and reducing power.](https://reader035.fdocuments.in/reader035/viewer/2022062421/56649e425503460f94b3401b/html5/thumbnails/1.jpg)
Metabolism encompasses degradative and biosynthetic pathways
• Catabolism: reactions that break down nutrients and collect released energy and reducing power– Catabolic pathways are convergent
• Anabolism: reactions that synthesize needed compounds, using stored energy and reducing power– Anabolic pathways are divergent
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Energy currencies provide a common intermediate in energy transductions
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The adenylates (ATP, ADP, AMP) are the primary energy currency
Why?
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The ΔG of ATP hydrolysis is large and negative
• Reduced charge repulsion in products• Better resonance stabilization of products
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Products of phosphoanhydride hydrolysis have better resonance stabilization
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The ΔG of ATP hydrolysis is large and negative
• Reduced charge repulsion in products• Better resonance stabilization of products• More favored solvation of productsÞ ΔG'° is -30.5 kJ/mol
• Cells keep [ATP] relatively high
ΔG < -30.5 kJ/mol
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For practice: Calculate the ΔG of ATP hydrolysis in E. coli
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ATP binding and hydrolysis drives muscle contraction
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Phosphoryl transfer from ATP drives many reactions (via coupling)
ΔG’s are additive
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ΔG'° values of phosphate hydrolysis reflect ‘phosphoryl transfer potential’ (ptp)
High ptp
Low ptp
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Other ‘high-energy phosphate’ compounds have great stabilization of hydrolysis products
Reduced charge repulsion and tautomerization:
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Other ‘high-energy phosphate’ compounds have great stabilization of hydrolysis products
Reduced charge repulsion and resonance stabilization:
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‘Low-energy phosphate’ compounds have less stabilization of hydrolysis products
ΔG'° of hydrolysis:-13.8 kJ/mol
ΔG'° of hydrolysis:-9.2 kJ/mol
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Phosphagens are ‘high-energy phosphate’ compounds used to quickly regenerate ATP
ex: ADP + phosphocreatine ↔ ATP + creatine
ΔG'° = -12.5 kJ/mol
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ATP may transfer additional functional groups (pyrophosphoryl or adenylyl)
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Adenylyl transfer is used to drive particularly disfavored reactions
ATP hydrolysis to AMP & PPi: ΔG'° = -45.6 kJ/mol
PPi hydrolysis to 2Pi: ΔG'° = -19.2 kJ/mol
Ex: activating amino acids for protein synthesis
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Transphosphorylations between nucleotides control relative concentrations
Nucleoside diphosphate kinase:
Adenylate kinase:
ATP + NDP ↔ ADP + NTP ΔG'° 0 kJ/mol
2ADP ↔ ATP + AMP ΔG'° 0 kJ/mol
(dNDP) (dNTP)
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Thioesters also serve as energy currencies, due to large, negative ΔG'° of hydrolysis
Similar ΔG'° of hydrolysis as ATP
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Coenzyme A functions as an acyl-carrier cofactor and thioester energy currency
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Redox energy currencies transfer reducing power (ex: NAD and NADP)
• 2 electron, 1 proton carriers
• cosubstrates: diffuse between different enzymes
• NAD: primarily used in catabolism
• NADP: primarily used in anabolism
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NAD+ accepts a hydride ion to become NADH
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FAD and FMN are other redox currencies
• Prosthetic groups: tightly bound to enzyme
• Can transfer 1 or 2 electrons (plus 1 or 2 protons)
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