Topic 3.6: Enzymes. Assessment statements: 3.6.1: Define enzyme and active site 3.6.2: Explain enzyme-substrate specificity 3.6.3: Explain the effects.

Slides:

Advertisements

Similar presentations

3.6: ENZYMES Enzymes- a globular protein that functions as a biological catalyst of chemical reactions (digestion, respiration). They remain unchanged.

Advertisements

IB B IOLOGY Q UARTER 1 E XAM R EVIEW Topic 3.6 – Enzymes.

Warm-up What are the four macromolecules and their function?

Mr. Safford’s Biological Sciences.  All enzymes are globular proteins thus spherical in shape  Control biochemical reactions in cells  They have the.

Topic 2.5 Enzymes IB Biology S. Dosman.

 Dehydration synthesis reaction  joins monomers by releasing H 2 O Water is created and given off  requires energy & enzymes.

Enzymes: “Helper” Protein molecules

Topic 3.6: Enzymes. Why Should We Study Enzymes? All metabolic reactions such as photosynthesis, digestion and respiration are catalysed by enzymes, allow.

Topic 3.6 & 7.6: Enzymes. Enzymes are organic molecules which act as catalysts Enzymes are long chains of amino acids that have a very specific three-dimensional.

Chemical Reactions in Cells To keep your body alive, your cells undergo countless chemical reactions. – Many of these reactions are occurring 24/7. These.

Wake-up Which macromolecule functions in short term energy and structure? Explain the difference between Benedict’s and Biuret’s.

GLOBULAR PROTEIN. » Globular protein » Catalysts which speeds up biological reactions » Unchanged by the reaction » Specific to their substrate » Active.

1 Enzymes Enzyme and Digestion film clip Enzyme and Digestion film clip.

3. The chemistry of life 3.6 Enzymes. Enzymes: are globular proteins that work as catalysts – they speed up chemical reactions without being altered themselves.

Enzymes: “Helper” Protein molecules

Copyright © 2005 Pearson Education, Inc. publishing as Benjamin Cummings Essential Idea Enzymes control the metabolism of the cell.

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

Explain how enzymes function as catalysts.

3.6.5 Explain the use of lactase in the production of lactose-free milk.

1 Enzymes This is a video, click below to see clip. If it doesn’t work, copy and paste link to see video. bug.

Topic 3.6: Enzymes. Why Should We Study Enzymes? All metabolic reactions such as photosynthesis, digestion and respiration are catalysed by enzymes, allow.

ENZYMES A protein with catalytic properties due to its power of specific activation IB Topics 3.6 & 7.6 Material on this power point adapted from Paul.

3.6 & 7.6 Enzymes IB Biology. Enzyme Globular protein Made by cells of living organisms –To help with reactions taking place in cells Catalyst - speed.

The biological catalyst

Mrs. Kooiman La Serna High School. A. Forms of Energy  Mechanical, Light and Chemical Energy B. Energy can be absorbed or released by a chemical reaction.

Enzymes are a Special Type of Protein Enzymes are a type of catalyst, which is a substance that speeds up the rate of a chemical reaction. Enzymes are.

12/3/13 Based on the lab yesterday, who was the killer? What characteristics tied the suspects to the crime scene hair sample?

 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,

IB Biology HL 1 Mrs. Peters Fall 2014

Chemical Reactions & Enzymes

Enzymes Essential Questions: What is an enzyme? How do enzymes work? What are the properties of enzymes? How do they maintain homeostasis for the body?

Enzymes I will identify and investigate the role of enzymes by participating in a class discussion and completing a independent practice assignment.

Do Now. Do Now Answers N C L L C N C A P P Enzymes Proteins that catalyzes a chemical reaction.

3.6 Enzymes and Chemical Reactions

Enzymes: “Helper” Protein molecules s1 Flow of energy through life  Life is built on chemical reactions s2.

Regents Biology Enzymes: “Helper” Protein molecules.

Unit 2, lesson 4.  A type of protein  Function as catalysts- substances that speed up chemical reactions  Enzymes are not changed or used up by the.

Enzymes: “Helper” Protein molecules

Enzymes: “Helper” Protein molecules s1 Chemical reactions of life  Processes of life  building molecules  synthesis  breaking down molecules  digestion.

Enzymes Chemical Reactions. Characteristics of Enzymes (Catalysts) Are specific for their job! Work in chemical reactions. Only work for a short time.

Enzymes Catalyst – substance that speeds up the rate of a chemical reaction Enzymes – proteins that act as biological catalysts (speed up chemical reactions.

Chemical Reactions and Enzymes. Chemical Reactions A chemical reaction is an interaction between two chemicals. Chemical bonds are either broken or formed.

Enzymes: “Helper” Protein molecules Regents Biology Flow of energy through life  Life is built on chemical reactions.

BIOLOGY Protein Structure and Enzymes. What is an Enzyme? Known as a BIOLOGICAL CATALYST Catalyst is something that speeds up a chemical reaction Biological.

Enzymes Chemistry of Living Things. What are we learning? Benchmark: I will explain the role of enzymes as catalysts Objectives: SC.912.L – Explain.

Topic 2: Molecular Biology 2.5 Enzymes Nature of science: Experimental design—accurate, quantitative measurements in enzyme experiments require replicates.

DO NOW 1.Get out your macromolecules lab. 1.Explain the difference between Benedict’s and Biuret’s solution.

What happens to the food that we eat? Enzymes 1. It breaks down into… Carbohydrates Proteins Lipids.

Enzymes. What are enzymes? Special proteins that coordinate the cell’s activities Important: 1)All enzymes are proteins 2)All proteins are NOT enzymes.

Enzymes All enzymes are proteins. Not all proteins are enzymes. Enzymes are catalysts. A catalyst is a substance which increases the rate of chemical reaction.

Enzymes Topics 3.6, 7.6.

Enzymes: “Helper” Protein molecules

Enzymes: Specialized Protein molecules

Enzymes: “Helper” Protein molecules

Enzymes: “Helper” Protein molecules

Enzymes Living organisms are dependent on chemical reactions to survive. These chemical reactions happen TOO SLOWLY or require TOO MUCH ENERGY for us.

Topic 3: The chemistry of life

Enzymes: “Helper” Protein molecules

The most important protein?

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

Question of the Day What does an enzyme do?

Presentation transcript:

Topic 3.6: Enzymes

Assessment statements: 3.6.1: Define enzyme and active site 3.6.2: Explain enzyme-substrate specificity 3.6.3: Explain the effects of temperature, pH, and substrate concentration on enzyme activity 3.6.4: Define denaturation 3.6.5: Explain the use of lactase in the production of lactose-free milk.

Enzymes are organic molecules which act as catalysts Enzymes are long chains of amino acids that have a very specific three-dimensional shape – Globular shape Shape is complex but very specific – Somewhere in the three- dimensional shape of the enzyme is an area that is designed to match a specific molecule known as that enzymes substrate (active site)

Enzymes are organic molecules which act as catalysts Two Analogies – Glove fits over a hand Glove represents the active site and hand represents the substrate – Lock and Key Lock represents the enzyme’s active site and the key represents the substrate

Enzymes are organic molecules which act as catalysts As catalysts, enzymes influence the rate of reactions – Reactants in the presence of an enzyme will form products at a faster rate than without the enzyme Lowers the energy level needed to start the reaction (referred to Activation Energy) Catalysts (enzymes) can be reused over and over again

Factors affecting enzyme-catalyzed reactions The reaction rate are affected by temperature, pH, and substrate concentration

Factors affecting enzyme-catalyzed reactions Temperature: – Both the enzyme and substrate are in motion and the rate of that motion is dependent on the temperature of the fluids. Fluids with higher temperature will have faster-moving molecules. Reactions are dependent on molecular collisions and the faster the molecules are moving the more often they collide.

Factors affecting enzyme-catalyzed reactions Temperature: – Reactions which use enzymes do have an upper limit Limit is based on the temperature at which the enzyme begins to lose its three-dimensional shape When the enzyme loses its shape, including the shape of the active site, it is said to be denatured – Denaturation is sometimes permanent and sometimes only temporary until the molecule re-forms its normal shape.

Factors affecting enzyme-catalyzed reactions pH – The pH of a solution is dependent on the relative number of hydrogen ions (H+) compared to hydroxide ions (OH-) in the same solution Any solution that gives off hydroxide ions is a base and results in a solution with a pH higher than 7 Any solution that give off hydrogen ions is an acid and results in a solution with a pH lower than 7 Any solution that results in an equal number of hydrogen ions and hydroxide ions

Factors affecting enzyme-catalyzed reactions The negative and positive areas of a substrate must match the opposite charge when the substrate is in the active site of an enzyme in order for enzyme to have catalytic action – When the solution is too acidic, the relatively large number of hydrogen ions can bond with the negative charges of the enzyme or substrate and not allow proper charge matching between the two (same thing with base)

Factors affecting enzyme-catalyzed reactions Most enzymes in the human body are active at or near neutral. – Pepsin is an exception to this rule. Pepsin is an enzyme that is active in the stomach. The environment of the stomach is highly acidic and pepsin is most active in an acidic pH

Factors affecting enzyme-catalyzed reactions Substrate concentration – If there is a constant amount of enzyme, as the concentration of a substrate increases, the rate of reaction will increase as well. If there is more reactant molecules, there are more to collide There is a limit to this however. The limit is due to the fact that enzymes have maximum rate at which they can work – If every enzyme molecule is working as fast as possible, adding more substrate to the solution will not further increase the reaction rate

Use of lactase in the production of lactose-free milk Lactose is a disaccharide (glucose + Galactose) milk sugar – Around 90% of all humans show some kind of lactose intolerance. People who are lactose intolerant can drink milk if it is lactose free. Lactase is an enzyme extracted from yeast that can digest the milk sugar to glucose and galactose.