Energy and Metabolism Adapted from: faculty.sgc.edu/asafer/BIOL1107/chapt06_lecture.ppt.

Slides:

Advertisements

Similar presentations

Pathways that Harvest and Store Chemical Energy

Advertisements

Introduction to Metabolism Chapter 6. Metabolism - sum of organism’s chemical processes. Enzymes start processes. Catabolic pathways release energy (breaks.

Metabolism: Energy and Enzymes Chapter 6. 2 Flow of Energy Energy: the capacity to do work -kinetic energy: the energy of motion -potential energy: stored.

Copyright © The McGraw-Hill Companies, Inc. Permission required for reproduction or display. CHAPTER 6.

1 Energy and Metabolism Chapter 8. 2 Outline Flow of Energy in Living Things Laws of Thermodynamics Free Energy Activation Energy Enzymes – Forms – Activity.

Thermodynamics and Metabolism. 2 Metabolism Metabolism: all chemical reactions occurring in an organism Anabolism: chemical reactions that expend energy.

Copyright © 2005 Brooks/Cole — Thomson Learning Biology, Seventh Edition Solomon Berg Martin Chapter 6 Energy and Metabolism.

Metabolism and Energy.

Thermodynamics and Metabolism. 2 Metabolism Metabolism: all chemical reactions occurring in an organism Anabolism: chemical reactions that expend energy.

Introduction to Metabolism Chapter 6. Metabolism u The totality of an organism’s chemical processes. u Concerned with managing the material and energy.

Energy and Metabolism Chapter 6.

Flow of Energy Thermodynamics –Branch of chemistry concerned with energy changes Cells are governed by the laws of physics and chemistry Energy flows into.

 Living organisms require energy to perform functions. They:  Kidney cells: › to transports materials  Digestive tract: › break macromolecules  Heart:

Energy and Metabolism. 2 Flow of Energy Energy: the capacity to do work -kinetic energy: the energy of motion -potential energy: stored energy.

Adapted from: faculty.sgc.edu/asafer/BIOL1107/chapt06_lecture.ppt.

Energy and Metabolism Chapter 6. 2 Flow of Energy Energy: the capacity to do work -kinetic energy: the energy of motion -potential energy: stored energy.

Cell Energetics Concept Review. Energy: Big Idea in Science Energy flows in one direction, energy never cycles back to its source.

Energy and Metabolism Chapter 8. Energy Metabolism All the chemical reactions carried out by the cell.

Energy and Metabolism Chapter 8.

Chapter 8 Metabolism: Energy and Enzymes Energy is the capacity to do work; cells must continually use energy to do biological work. Kinetic Energy is.

Essentials of the Living World Second Edition George B. Johnson Jonathan B. Losos Chapter 6 Energy and Life Copyright © The McGraw-Hill Companies, Inc.

Enzymes and Energy. Thermodynamics and Biology Metabolism: The totality of an organism’s chemical processes; managing the material and energy resources.

Chapter 6 Energy and Metabolism. Energy: The capacity to do work – any change in the state of motion or matter Measured as heat energy Unit is the kilocalorie.

Chemical Reactions and Enzymes Chapter 8: An Introduction to Metabolism.

Chapter 6 Section 2 and 4 Energy and Enzymes. I. The Flow of Energy in Living Systems A.Thermodynamics: energy change; thermo = heat dynamics = movement.

Chapter 8 An Introduction To Metabolism. Metabolism The totality of an organism’s chemical processes. Concerned with managing the material and energy.

Chapter 8 An Introduction to Metabolism. Metabolism Metabolism is the sum of all chemical reactions in your body. If a reactions breaks things down, it.

Energy and Metabolism Chapter 6. 2 Flow of Energy Energy: the capacity to do work -kinetic energy: the energy of motion -potential energy: stored energy.

Mader: Biology 8 th Ed. Metabolism: Energy and Enzymes Chapter 6.

Metabolism Lecture 5, part 1 Fall Metabolism All the biochemical process within an organism that maintain life and contribute to growth Emergent.

Energy & ATP Vocab: ATP Objectives: 1.Describe the structure of ATP and how it stores energy. 2.Give examples of work that cells perform. 3.Summarize the.

1 Energy and Metabolism Chapter 8. 2 Outline Flow of Energy in Living Things Laws of Thermodynamics Free Energy Activation Energy Enzymes – Forms – Activity.

Chapter 8 An Introduction to Metabolism. Overview: The Energy of Life The living cell is a miniature chemical factory where thousands of reactions occur.

LEQ: What is the role of ATP in cellular activities?

Metabolism, Energy and Enzymes Living things require energy Almost all energy in living things comes originally from the sun Living things store energy.

1 Energy metabolism, enzyme and Cofactors. 2 Forms of Energy These forms of energy are important to life: – chemical – radiant (examples: heat, light)

Energy and Metabolism Chapter 8. Energy Metabolism All the chemical reactions carried out by the cell.

Chapter 8 – Cellular Energy Section 1 – How Organisms Obtain Energy.

6.1 Cells and the Flow of Energy Energy is the ability to do work or bring about change. Forms of Energy –Kinetic energy is the energy of motion. –Potential.

The totality of an organism’s chemical reactions is called metabolism. Catabolic pathways release energy by breaking down complex molecules to simpler.

Energy and metabolism Section 1.3. Energy and metabolism  Energy is the ability to do work. Living organisms must continually capture, store and use.

Energy and Metabolism Chapter 6. Flow of Energy Thermodynamics ◦ Branch of chemistry concerned with energy changes Cells are governed by the laws of physics.

Metabolism Chapter 06. Metabolism 2Outline Forms of Energy  Laws of Thermodynamics Metabolic Reactions  ATP Metabolic Pathways  Energy of Activation.

 Types of Chemical transformations within the cells  Organisms Transform Energy  Laws of Thermodynamics  Endergonic and Exergonic Reactions  Metabolism.

INTRODUCTION TO METABOLISM. Chapter 8 Metabolism, Energy, and Life.

Metabolism Notes. Metabolism  Metabolism is such a big word to explain a simple idea. We all need energy to survive. Whether we are plants, animals,

Biology 105 Chapter 7: Energy and Metabolism Pgs Chapter 7: Energy and Metabolism Pgs

CHAPTER 6 Energy and Metabolism 1. 2 Flow of Energy Thermodynamics –Branch of chemistry concerned with energy changes Cells are governed by the laws of.

Energy and Metabolism (Enzymes) Chapter 6 1. ENERGY LOST With each conversion, there is a one-way flow of a bit of energy back to the environment. Nutrients.

Chapter 6 Energy Flow in the Life of a Cell Chapter 6 Energy Flow in the Life of a Cell.

Energy metabolism, enzyme and Cofactors

Unit 2: Metabolic Processes

Metabolic Processes – V1b

Metabolism and Energy SBI4U1.

Energy and Life Ch. 5.

Thermodynamics and Metabolism

Energy and Metabolism Chapter 6.

The Flow of Energy Within Organisms

The Flow of Energy Within Organisms

The Flow of Energy Within Organisms

Chapter 8 Warm-Up Define the term “metabolism”.

Chapter 8 Warm-Up Define the term “metabolism”.

Chapter 8 Warm-Up Define metabolism. List 3 forms of energy.

CHAPTER 6 LECTURE SLIDES

An Introduction to Metabolism

Chapter 6 Metabolism.

Presentation transcript:

Energy and Metabolism Adapted from: faculty.sgc.edu/asafer/BIOL1107/chapt06_lecture.ppt

Metabolism The sum of all the chemical reactions occurring in an organism at one time Concerned with the management of material and energy resources within the cell Anabolic pathways Catabolic Pathways 2

3 Bioenergetics Study of how organisms manage their energy resources Energy: the capacity to do work, to move matter -kinetic energy: the energy of motion -potential energy: stored energy Energy can take many forms: mechanicalelectric current heatlight

4 Flow of Energy Potential energy stored in chemical bonds can be transferred from one molecule to another by way of electrons. ** the rearrangement of atoms in molecules may results in the potential energy of the molecule being converted into kinetic energy. oxidation: loss of electrons reduction: gain of electrons redox reactions are coupled to each other.

5 Laws of Thermodynamics The terms of open or closed systems refer to whether or not energy can be transferred between the system and its surroundings (can energy be imported or exported) First Law of Thermodynamics – energy cannot be created or destroyed -energy can only be converted from one form to another For example: sunlight energy chemical energy photosynthesis

6 Laws of Thermodynamics A change in free energy can occur with metabolism: endergonic reaction: a reaction requiring an input (gain) of energy (products contain more energy) exergonic reaction : a reaction that releases (lose) free energy (reactants contain more energy) Metabolic reactions are often coupled where an exergonic reaction fuels an endergonic reaction.

7

8 Laws of Thermodynamics Most reactions require some energy to get started. Can you think of two examples? activation energy: extra energy needed to get a reaction started -destabilizes existing chemical bonds -required even for exergonic reactions catalysts: substances that lower the activation energy of a reaction

9

Objectives Explain the role of ATP in the cell Describe ATP’s composition and how it performs cellular work Explain the importance of chemical disequilibrium Understand the energy profile of a reaction including: activation energy, free energy change & transition state. Explain how metabolic pathways are regulated. 10

11 Energy is required to form bonds. Atoms or molecules Energy + Energy Larger molecule The energy that was used to form the bonds is now stored in this molecule.

12 Energy is released when bonds are broken. Energy The energy is now released. It may be in a form such as heat or light or it may be transferred to another molecule. Menu

13 Energy Currency of Cells ATP = adenosine triphosphate -the energy “currency” of cells ATP structure: -ribose, a 5-carbon sugar -adenine -three phosphates

14 ATP (Adenosine Triphosphate)

15 ATP (Simplified Drawing) A Base (adenine) Sugar (ribose) 3 phosphate groups

16 A ATP ATP Stores Energy The phosphate bonds are high- energy bonds. A Energy ADP + P i + Energy Breaking the bonds releases the energy.

17 Energy Currency of Cells Phosphates are highly negative, therefore: -the phosphates repel each other -much energy is required to keep the phosphates bound to each other -much energy is released when the bond between two phosphates is broken ATP has a high  G

18 Energy Currency of Cells When the bond between phosphates is broken: ATP ADP + P i energy is released (  G=-7.3Kcal/mol in the lab, -13 Kcal/mol in the cell) ADP = adenosine diphosphate P i = inorganic phosphate Is this reaction catabolic or anabolic? This reaction is reversible.

19 Coupled Reactions  ATP is Recycled  The energy used to produce ATP comes from glucose or other high- energy compounds.  ATP is continuously produced and consumed as illustrated below.

Phosphorylation 20  ATP is synthesized from ADP + P i. The process of synthesizing ATP is called phosphorylation.  Two kinds of phosphorylation  Substrate-Level Phosphorylation –Chemiosmotic Phosphorylation

Electron Carriers Compounds that pick up electrons from high energy compounds and transfer then to low-energy compounds. –LEO & GER –Electrons carry reducing power –Eg. NAD + and FAD (oxidized forms), NADH and FADH 2 (reduced forms) Coupled reaction 21

22 Enzymes Multienzyme complexes offer certain advantages: 1. The product of one reaction can be directly delivered to the next enzyme. 2. The possibility of unwanted side reactions is eliminated. 3. All of the reactions can be controlled as a unit.

23 Metabolism Biochemical pathways are a series of reactions in which the product of one reaction becomes the substrate for the next reaction. Biochemical pathways are often regulated by feedback inhibition in which the end product of the pathway is an allosteric inhibitor of an earlier enzyme in the pathway.

24