Presentation is loading. Please wait.

Presentation is loading. Please wait.

6 Life’s Mainspring: An Intoduction to Energy. I.What Is Energy? (Section 6.2) A.Definition of energy—capacity to do work (movement against an opposing.

Published byWarren Bennett Modified over 8 years ago

Similar presentations

Presentation on theme: "6 Life’s Mainspring: An Intoduction to Energy. I.What Is Energy? (Section 6.2) A.Definition of energy—capacity to do work (movement against an opposing."— Presentation transcript:

1 6 Life’s Mainspring: An Intoduction to Energy

2 I.What Is Energy? (Section 6.2) A.Definition of energy—capacity to do work (movement against an opposing force). Energy is a tricky subject because it can be measured but not seen. B.Two main forms: 1.Potential energy—stored (chemical) energy like a rock on a hill or a lump of coal. 2.Kinetic energy—energy in motion like a rolling rock or heat from a burning lump of coal.

3 Stores energy in your liver and muscles Gives you energy when broken down in respiration

4 II.The Energy Currency Molecule: ATP (Section 6.4) ATP is the energy carrier of the cell ATP is made up of adenosine and 3 phosphates. The outer two phosphates can be broken off to release energy. The outer two phosphates can be added to store energy.

5 Energy Reactions Exergonic reactions release energy: –When ATP loses a phosphate, energy is released. Endergonic reactions store energy When ATP is formed from ADP or AMP, energy is stored in the chemical bonds

6

7 IV.The Energy Currency Molecule: ATP (Section 6.4) B.How ATP is used to perform cellular work, like transport: 1. Want to move calcium ions up their concentration gradient into a muscle cell. (active transport – remember?) ATP splits into ADP and phosphate, a downhill reaction that releases energy. The energy is used to transfer phosphate onto a protein, causing shape change that drives calcium across the membrane.

8

9 III.Enzymes A.Characteristics (Section 6.5) 1.Exergonic reactions like splitting sugar may not happen very quickly, so in living organisms the reactions are hastened by enzymes. 2.Many different enzymes may be needed to accomplish one task, like manufacturing breast milk. Series of steps and the enzymes that hasten them are called metabolic pathways: Figure 6.6 animation 3.Substrate—substance being worked on by each specific enzyme. (Interactive Activity 3)

10

11 1.Enzymes speed up reactions by lowering the amount of energy needed to get chemical reactions going (activation energy): Figure 6.7

12 2.Enzymes are catalysts (retain their original chemical composition while bringing about a change in a specific substrate). A + B + Enzyme Enzyme-substrate C + Enzyme complex 3.Almost all enzymes are proteins. SubstrateProduct

13 Importance of shape in enzyme function (active site = place that binds substrate, and often coenzymes play a role in this process): Figure 6.8, animation

14

15 C.Regulating Enzyme Activity (Section 6.7) What factors influence the amount of product? 1.Amount of substrate available 2.Molecules similar to substrate can bind and block binding of real substrate. An example is the nerve gas Sarin, recently used in a germ warfare attack in a Japanese subway. It binds to the enzyme cholinesterase that breaks down the neurotransmitter acetyl- choline so that it can be recycled and reused for more nerve cell communication. (Interactive Activity 5 & 6)

16 3.Allosteric regulation, when a compound prevents the substrate from binding the active site by binding another region on the enzyme.

17 The End

Download ppt "6 Life’s Mainspring: An Intoduction to Energy. I.What Is Energy? (Section 6.2) A.Definition of energy—capacity to do work (movement against an opposing."

Similar presentations

Pathways that Harvest and Store Chemical Energy

Pathways that Harvest and Store Chemical Energy
An Introduction to Metabolism

An Introduction to Metabolism
The chemistry of life is organized into metabolic pathway

The chemistry of life is organized into metabolic pathway
ENERGY.

ENERGY.
ENERGY.

ENERGY.
METABOLISM.

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

Introduction to Metabolism Chapter 6. Metabolism - sum of organism’s chemical processes. Enzymes start processes. Catabolic pathways release energy (breaks.
Chapter 6 Metabolism: Energy and Enzymes. Metabolism The totality of an organism's chemical reactions, consisting of catabolic and anabolic pathways Catabolic.

Chapter 6 Metabolism: Energy and Enzymes. Metabolism The totality of an organism's chemical reactions, consisting of catabolic and anabolic pathways Catabolic.
BIO 10 Lecture 6 THE VITAL FORCE: AN INTRODUCTION TO ENERGY.

BIO 10 Lecture 6 THE VITAL FORCE: AN INTRODUCTION TO ENERGY.
 The Basis of metabolism The Basis of metabolism  Forms of Energy Forms of Energy  Laws of Energy Transformation Laws of Energy Transformation  Structure,

 The Basis of metabolism The Basis of metabolism  Forms of Energy Forms of Energy  Laws of Energy Transformation Laws of Energy Transformation  Structure,
Chapter 6 Biology. Energy 1.Capacity to do work. 2.Kinetic energy is energy of motion. 3.Potential energy is stored energy.

Chapter 6 Biology. Energy 1.Capacity to do work. 2.Kinetic energy is energy of motion. 3.Potential energy is stored energy.
Chapter 8: Metabolism Metabolism Metabolism – all of the chemical reactions in an organism - A metabolic pathway begins with a specific molecule and.

Chapter 8: Metabolism Metabolism Metabolism – all of the chemical reactions in an organism - A metabolic pathway begins with a specific molecule and.
How Cells Work Chapter 4. Beer, Enzymes and Your Liver Alcohol is toxic Cells in liver break down alcohol to nontoxic compounds Breakdown is accelerated.

How Cells Work Chapter 4. Beer, Enzymes and Your Liver Alcohol is toxic Cells in liver break down alcohol to nontoxic compounds Breakdown is accelerated.
A Guide to the Natural World David Krogh © 2011 Pearson Education, Inc. Chapter 6 Lecture Outline Life’s Mainspring: An Introduction to Energy Biology.

A Guide to the Natural World David Krogh © 2011 Pearson Education, Inc. Chapter 6 Lecture Outline Life’s Mainspring: An Introduction to Energy Biology.
Cell Energetics Concept Review. Energy: Big Idea in Science Energy flows in one direction, energy never cycles back to its source.

Cell Energetics Concept Review. Energy: Big Idea in Science Energy flows in one direction, energy never cycles back to its source.
Chapter 5 Lecture Outline See PowerPoint Image Slides

Chapter 5 Lecture Outline See PowerPoint Image Slides
Copyright © The McGraw-Hill Companies, Inc. Permission required for reproduction or display. Chapter 5 Lecture Slides.

Copyright © The McGraw-Hill Companies, Inc. Permission required for reproduction or display. Chapter 5 Lecture Slides.
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.

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.
Copyright © 2005 Pearson Education, Inc. publishing as Benjamin Cummings Chapter 8 An Introduction to Metabolism.

Copyright © 2005 Pearson Education, Inc. publishing as Benjamin Cummings Chapter 8 An Introduction to Metabolism.
Essentials of the Living World Second Edition George B. Johnson Jonathan B. Losos Chapter 6 Energy and Life Copyright © The McGraw-Hill Companies, Inc.

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

Similar presentations

Ads by Google