Enzymes & Chemical Reactions.

Slides:

Advertisements

Similar presentations

Advertisements

Proteins that make reactions happen. Metabolism: the complete set of chemical reactions occurring in cells  Anabolism: using energy to build macromolecules.

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.

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

ENZYMES Enzymes are biological substances (proteins) that occur as catalyst and help complex reactions occur everywhere in life.

{ Enzyme Inhibition Why enzymes don’t work.  An enzyme is just a folded protein Remember!!!

 Definition of metabolism  Definition of a substrate  Characteristics of metabolic pathways  Why we need metabolic pathways.

Section 2.5: Enzymes Biology.

Menu 1 CH. 6 Factors Affecting ENZYME Activity. Menu 2 Catabolic and Anabolic Reactions  The energy-producing reactions within cells generally involve.

Chemical Reactions & Enzymes. I. Chemistry A. We already know that all living things are made up of chemical compounds. What are they again? Which give.

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

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

Chapter 8 An Introduction to Metabolism. Metabolism  Def’n: the totality of an organism’s chemical processes  Concerned with managing the material and.

AP Biology Chapter 8 Introduction to Metabolism. Metabolism The chemistry of life is organized into metabolic pathways. The chemistry of life is organized.

Enzymes. A. Are Proteins (usually) that speed up metabolic reactions by lowering the activation energy. A. Some chemical reactions will occur spontaneously,

7.6 Enzymes (AHL) Pp Pp

Enzymes. Let's Review: ΔG and rxn spontaneity Let's Review: Protein Structure.

 Enzymes are made up of proteins.  Enzymes act as a catalyst in living organisms.  A catalyst is a substance that speeds up chemical reactions.  SO,

Biochemical reactions

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.

Chemical Reactions All processes of life depend on the ordered flow of energy All processes of life depend on the ordered flow of energy Metabolism – totality.

1 Amino Acids, Proteins, and Enzymes Enzymes Enzyme Action Factors Affecting Enzyme Action Enzyme Inhibition.

Chemical Reactions and Enzymes Chapter 2-4. Chemical Reactions Chemistry is what life does!!! EVERYTHING that happens in an organism occurs because of.

Enzymes AP Biology. General Information Globular proteins Unique 3 dimensional shape Active site: pocket or groove where substrate binds.

ENZYMES & ENERGY ACADEMIC BIOLOGY. __________________________________________________________________________________________________________________________________________________.

Enzymes Chemical Reactions  Reactants  Products  Bonds are broken and reformed = new substances.

© 2014 Pearson Education, Inc. Chapter Opener 6. © 2014 Pearson Education, Inc. Chapter Opener 6.

M ETABOLISM AND E NZYMES Chapter 8. W HAT IS M ETABOLISM ? The totality of an organism’s chemical reactions Essentially it is energy in an organism or.

Eleni Hadjipanteli Substrate Enzyme. What are Enzymes? Organic molecules; Proteins *Globular *suffix –ase Catalysts that help speed up reactions Power.

Chemical Reactions All processes of life depend on the ordered flow of energy Metabolism – totality of an organism’s chemical processes Metabolic reactions.

Factors Affecting ENZYME Activity

Energy and Life Ch. 5.

ENZYMES made of Proteins

Chemical Reactions and Enzymes

Chapter 2, Section 4 Chemical Reactions & Enzymes (p )

Energy and Metabolism Chapter 6.

Enzymes & Metabolism Chapter 8.

Lesson 2.4: Chemical Reactions & Enzymes

ENZYMES A catalyst Is a chemical agent that speeds up a reaction without being consumed by the reaction An enzyme is an organic catalyst Enzymes are proteins.

Energy & Enzymes.

Chemical Reactions All processes of life depend on the ordered flow of energy Metabolism – totality of an organism’s chemical processes Metabolic reactions.

ENZYMES made of Proteins

An Introduction to Metabolism

Metabolism and enzymes

ENZYMES and Metabolism

ENZYMES made of Proteins

Chemical Reactions and Enzymes

ENZYMES made of Proteins

Why do we study chemical reactions in biology?

Enzymes Mr. Spoor Biology 1.

Chemical Reactions Chemical reactions = the breaking and creating of bonds between different substances (this requires energy) Activation energy = The.

CH. 6 Factors Affecting ENZYME Activity

Biomolecules Enzymes.

Enzymes & Chemical Reactions.

An Introduction to Metabolism

Amino Acids, Proteins, and Enzymes

Chapter 6: Metabolism Energy and enzymes.

An Introduction to Metabolism

Enzymes and Metabolism

Energy & Enzymes.

Presentation transcript:

Enzymes & Chemical Reactions

Background: Energy in Biochemical Rxns Endothermic reactions: energy is absorbed Product Energy Time Energy stored Reactant

Energy in Biochemical Rxns Exothermic reactions: energy is released What’s this? Product Energy Time Energy released Reactant

Activation Energy Energy required to make or break chemical bonds. Even exothermic reactions have activation energy. Energy Time Activation energy

Enzymes Are protein catalysts. lower the amount of activation energy, which increases the number of reaction happening in a given time. Are not consumed in reactions. Cannot make reactions happen that wouldn’t happen normally. Most enzymes can only work on 1 reaction

How? Watch how the enzyme works: Allosteric Site

The Catalytic Cycle! The substrate (reactant) enters the active site The enzyme snuggles up to the substrate (called Induced Fit) The enzyme-substrate complex bends (some use energy) and breaks the substrate The product is released and the enzyme prepares for the next substrate

Enzyme function Enzyme may put two molecules together (Anabolic cycle):

Types of Enzymes Kinase: Adds or removes phosphate groups, often from ATP Hydrase (or hydrolase): Adds or removes water. Isomerase: Changes the shape of molecules. Oxidoreductase: Performs redox reactions. Lyase: Breaks C-C bonds. Ligase: Makes C-C bonds.

Enzymes don’t always act alone! Metabolic Pathway: A series of enzymes that work together to form an end product. The product of the 1st enzyme acts as the substrate for the 2nd enzyme… Example: Photosynthesis: More than 10 enzymes work together in series to create sugar!

Factors Affecting Enzymes pH and Temperature Enzymes function best within a small range Denaturation (unfolding of protein) occurs outside optimal range – protein no longer functions Inhibitors Certain molecules that can slow or stop enzyme function

Enzyme Inhibitors 2 Types: Competitive: Inhibitor molecule has a similar shape to the substrate, so they compete for the active site: Slows enzyme Non-competitive: Inhibitor fits into allosteric site & changes the shape of the active site: Stops enzyme May not be permanent

All together now… Feedback Inhibition: A whole metabolic pathway can be inhibited by a single molecule! Usually the end product acts as a noncompetitive inhibitor to the first enzyme in the pathway Saves energy by limiting the amount of product

Good Practice Questions Page 54 # 2, 5, 6, 7, 8, 11

USES

Industrial enzymes From the examples on the previous slide, pick one and research to find: What enzymes are used? For what? How has their use benefited society?