Presentation is loading. Please wait.

Presentation is loading. Please wait.

Living Metabolism Part 1

Published byHendra Atmadja Modified over 5 years ago

Similar presentations

Presentation on theme: "Living Metabolism Part 1"— Presentation transcript:

1 Living Metabolism Part 1
AP Biology Living Metabolism Part 1

2 Dehydration and Hydrolysis Reactions
Short polymer Unlinked monomer Dehydration removes a water molecule, forming a new bond Longer polymer Dehydration reaction in the synthesis of a polymer Hydrolysis adds a water molecule, breaking a bond Hydrolysis of a polymer

3 Catabolism (Hydrolysis Reaction)
Reactants Amount of energy released (G < 0) Free energy Energy Products Progress of the reaction Exergonic reaction: energy released

4 Anabolism (Dehydration Synthesis)
Products Amount of energy required (G > 0) Free energy Energy Reactants Progress of the reaction Endergonic reaction: energy required

5 Catabolism (Hydrolysis Reaction)
Reactants Amount of energy released (G < 0) Free energy Energy Products Progress of the reaction Exergonic reaction: energy released

6 Energy Coupling Two processes united by Energy

7 Kinetic Energy vs. Potential Energy

8 Potential Energy vs. Kinetic Energy

9 Potential Energy vs. Kinetic Energy

10 Thermodynamics

11 LE 8-3 CO2 Chemical energy Heat H2O First law of thermodynamics
Second law of thermodynamics

12 Gibbs “Free” Energy Δ G = ΔH – TΔ S G- Gibbs “free” energy
H – Enthalpy (Total usable energy in the system) T – Temperature in Kelvin (273 + C⁰) S- Entropy (Disorder created by something being broken down) Δ – Change in a variable over time

13 Unstable (Capable of work) vs. Stable (no work)
G < 0 G = 0 A closed hydroelectric system

14 Progress of the reaction
LE 8-6a Reactants Amount of energy released (G < 0) Free energy Energy Products Progress of the reaction Exergonic reaction: energy released

15 Progress of the reaction
LE 8-6b Products Amount of energy required (G > 0) Free energy Energy Reactants Progress of the reaction Endergonic reaction: energy required

16 Potential Energy vs. Kinetic Energy

17 Types of work performed by living cells
Motor protein Protein moved Mechanical work: ATP phosphorylates motor proteins Membrane protein ADP ATP + P i P P i Solute Solute transported Transport work: ATP phosphorylates transport proteins P NH2 + NH3 Glu + P i Glu Reactants: Glutamic acid and ammonia Product (glutamine) made Chemical work: ATP phosphorylates key reactants

18 ATP

19 Phosphorylation

Download ppt "Living Metabolism Part 1"

Similar presentations

Chapter 8: Metabolism and Enzymes

Chapter 8: Metabolism and Enzymes
Chapter 8: An Introduction to Metabolism

Chapter 8: An Introduction to Metabolism
An Introduction to Metabolism

An Introduction to Metabolism
Free Energy, ATP and Energy Coupling

Free Energy, ATP and Energy Coupling
Enzyme 1Enzyme 2Enzyme 3 D CB A Reaction 1Reaction 3Reaction 2 Starting molecule Product 1.

Enzyme 1Enzyme 2Enzyme 3 D CB A Reaction 1Reaction 3Reaction 2 Starting molecule Product 1.
Chapter 8~ An Introduction to Metabolism. Metabolism Metabolism Metabolism: The totality of an organism’s chemical processes; managing the material and.

Chapter 8~ An Introduction to Metabolism. Metabolism Metabolism Metabolism: The totality of an organism’s chemical processes; managing the material and.
An Introduction to Metabolism. Metabolism Metabolism = Catabolism + Anabolism Catabolic pathways – release energy & break down molecules Anabolic pathways.

An Introduction to Metabolism. Metabolism Metabolism = Catabolism + Anabolism Catabolic pathways – release energy & break down molecules Anabolic pathways.
Energetics Fueling Life. Energy takes various forms MECHANICAL L.

Energetics Fueling Life. Energy takes various forms MECHANICAL L.
The ability to do work or bring about a change. ENERGY.

The ability to do work or bring about a change. ENERGY.
Chapter 8: An Introduction to Metabolism

Chapter 8: An Introduction to Metabolism
Copyright © 2005 Pearson Education, Inc. publishing as Benjamin Cummings PowerPoint TextEdit Art Slides for Biology, Seventh Edition Neil Campbell and.

Copyright © 2005 Pearson Education, Inc. publishing as Benjamin Cummings PowerPoint TextEdit Art Slides for Biology, Seventh Edition Neil Campbell and.
Free Energy All living systems require constant input of free energy.

Free Energy All living systems require constant input of free energy.
BSC 2010 - Exam I Lectures and Text Pages I. Intro to Biology (2-29) II. Chemistry of Life – Chemistry review (30-46) – Water (47-57) – Carbon (58-67)

BSC Exam I Lectures and Text Pages I. Intro to Biology (2-29) II. Chemistry of Life – Chemistry review (30-46) – Water (47-57) – Carbon (58-67)
Energy Exchanges 1st Law of Thermodynamics 2nd Law of Thermodynamics

Energy Exchanges 1st Law of Thermodynamics 2nd Law of Thermodynamics
An Introduction to Metabolism. Metabolism is the totality of an organism’s chemical reactions ◦ Manage the materials and energy resources of a cell.

An Introduction to Metabolism. Metabolism is the totality of an organism’s chemical reactions ◦ Manage the materials and energy resources of a cell.
Thermodynamics / Free Energy & ATP

Thermodynamics / Free Energy & ATP
ATP and Metabolism. Metabolism Totality of an organism’s chemical reactions Pathway of defined steps beginning with a specific molecule resulting in a.

ATP and Metabolism. Metabolism Totality of an organism’s chemical reactions Pathway of defined steps beginning with a specific molecule resulting in a.
AP Biology All living systems require constant input of free energy. Metabolism and Energy.

AP Biology All living systems require constant input of free energy. Metabolism and Energy.
AP Biology 2007-2008 Metabolism & Enzymes AP Biology From food webs to the life of a cell energy.

AP Biology Metabolism & Enzymes AP Biology From food webs to the life of a cell energy.
Chapter 6 ATP and Energy Coupling.  G  0  G  0 Equilibrium = Death At equilibrium, forward and reverse reactions occur at the same rate; it is a state.

Chapter 6 ATP and Energy Coupling.  G  0  G  0 Equilibrium = Death At equilibrium, forward and reverse reactions occur at the same rate; it is a state.

Similar presentations

Ads by Google