Lab Activity 30. Digestive Enzymes. Portland Community College BI 233

Similar documents
LAB 3: Biomolecules and Digestion

Digestive System. Part 3

Digestive System Processes *

Lab #12: Digestive Physiology

Chemical Digestion and Absorption: A Closer Look

Chapter 9: Digestion Review Assignment

Molecule - two or more atoms held together by covalent bonds. Ex. = water, H O

2-2 Properties of Water

9. At about 0 C., most enzymes are (1.) inactive (2.) active (3.) destroyed (4.) replicated

Can you explain that monomers are smaller units from which larger molecules are made?

LAB 5 - Enzymes BACKGROUND INFORMATION

Ques*ons. Ques*ons 4/11/12. Which macromolecule has the highest energy content?

#9 - Digestion. Objectives: Prelab Activity. I Digestive System

Competitive Inhibitor

Protein Content (grams) 25 g 5 g 30 g 0 g 28 g 2 g. 20 g 10 g 30 g 0 g 27 g 3 g. 20 g 10 g 20 g 10 g 26 g 4 g. 10 g 20 g 10 g 20 g 10 g 20 g

I. ROLE OF CARBON IN ORGANISMS: Organic compounds = compounds that contain carbon Ex: Carbohydrates, lipids, proteins

c.uma sankar.kanchipuram.

Dehydration Synthesis and Hydrolysis Reactions. ne_content/animations/reaction_types.ht ml

Name: Period: Date: Testing for Biological Macromolecules Lab

Biochemistry. Definition-

Biochemistry. Chapter 6

Chemical and Physical Processes of Digestion

Unit 1: Biochemistry

Digestion and Human Health

Ch18. Metabolism. Chemical processes that maintain life. From the Greek metabole change." version 1.0

BIOMOLECULES. Ms. Bosse Fall 2015

The Digestive System. 1- Carbohydrates 2- Proteins 3- Lipids 4- Water 5- Vitamins 6- Minerals 7- Fibers

Bio& 242 Unit 1 / Lecture 4

The gallbladder. Bile secretion:

Organic Chemistry Worksheet

Chapter 3: Biochemistry Adapted from PPT by S. Edwards. By PresenterMedia.com

Abdulrahman Alhanbali. Lojayn Salah. Mohammad Khatatbeh. 1 P a g e

BIOLOGICAL MOLECULES REVIEW-UNIT 1 1. The factor being tested in an experiment is the A. data. B. variable. C. conclusion. D. observation. 2.

I. Polymers & Macromolecules Figure 1: Polymers. Polymer: Macromolecule: Figure 2: Polymerization via Dehydration Synthesis

What is an atom? An atom is the smallest component of all living and nonliving materials.

a. What is the stimulus? Consuming a large pumpkin spice muffin and caramel macchiato.

Biochemistry Name: Practice Questions

BIOLOGICALLY IMPORTANT MOLECULES

The. Crash Course. Basically, almost all living things are made up of these 4 Elements: - Carbon (C) - Nitrogen (N) - Hydrogen (H) - Oxygen (O)

Section 2.1: Enzymes and Digestion

Work in groups of 3 to 4 students (enough materials for 5 groups total)

Organic Compounds. Biology-CP Mrs. Bradbury

What is an atom? An atom is the smallest component of all living and nonliving materials.

Ch 2 Molecules of life

Digestive System. Part A Multiple Choice. 1. Which of the following is NOT a digestive enzyme? A. Pepsin. B. Ptyalin. C. Gastrin. D. Trypsin.

Class XI Chapter 16 Digestion and Absorption Biology

Biochemistry Macromolecules and Enzymes. Unit 02

Review of Energetics Intro

OCR (A) Biology A-level

½ cup of CHEX MIX contains 13 g of carbs = 4% daily value. How much more can you have the rest of the day??? _4_ = X X= 325 g

Lesson 2. Biological Molecules. Introduction to Life Processes - SCI 102 1

2.3: Carbon-Based Molecules Notes


Figure 2. Figure 1. Name: Bio AP Lab Organic Molecules

Carbon. p Has four valence electrons p Can bond with many elements p Can bond to other carbon atoms

Digestive Lecture Test Questions Set 4

6 The chemistry of living organisms

B i o c h e m i s t r y N o t e s

2. In terms of appearance, what is the main difference between a monomer, dimer and a polymer?

Proteins. Biomolecules. Nucleic Acids. The Building Blocks of Life

Proteins. Biomolecules. Nucleic Acids. The Building Blocks of Life

Introduction to Macromolecules. If you were to look at the nutrition label of whole milk, what main items stick out?

The Chemical Building Blocks of Life. Chapter 3

Biological Molecules

LAB 4 Macromolecules

Review for Test #1: Biochemistry

Carbon. Has four valence electrons Can bond with many elements. Can bond to other carbon atoms. Hydrogen, Oxygen, Phosphorus, Sulfur, and Nitrogen

Biological Molecules. Carbohydrates, Proteins, Lipids, and Nucleic Acids

9.A compare the structures and functions of different types of biomolecules, including carbohydrates, lipids, proteins, and nucleic acids

All living things are mostly composed of 4 elements: H, O, N, C honk Compounds are broken down into 2 general categories: Inorganic Compounds:

Elements & Macromolecules in Organisms

Chapter Three (Biochemistry)

All organisms must obtain and process essential nutrients (food) *** Exception: Venus Fly Traps undergo photosynthesis but needs source of nitrogen

c. Reaction will drive Reaction in a reaction. d. Which statement (A or B) has more energy in products than reactants?

Energy, Chemical Reactions and Enzymes

Enzymes Topic 3.6 & 7.6 SPEED UP CHEMICAL REACTIONS!!!!!!!

The digestive system, also called the gastrointestinal system, consists of the

- Most nutrients are absorbed before reaching the ileum. - Colon is responsible for final removal of electrolytes and water.

Chapter 6. Metabolism & Enzymes. AP Biology

Elements & Macromolecules in Organisms

Biology Unit 2 Elements & Macromolecules in Organisms Date/Hour

Macromolecules. The four groups of biomolecules or macromolecules found in living things which are essential to life are: 1. PROTEINS 1.

Chapter 2: Biochemistry

Biological Molecules

Biology 12. Biochemistry. Water - a polar molecule Water (H 2 O) is held together by covalent bonds.

Chapter 1. Chemistry of Life - Advanced TABLE 1.2: title

What are the most common elements in living organisms? What is the difference between monomers, dimers and polymers?

Name a property of. water why is it necessary for life?

Unit 3: Chemistry of Life Mr. Nagel Meade High School

McMush Lab Testing for the Presence of Biomolecules

Nutrition, Digestion, & Absorption

Organic Compounds. (Carbon Compounds) Carbohydrates Lipids Proteins Nucleic Acids

Bridging task for 2016 entry. AS/A Level Biology. Why do I need to complete a bridging task?

Biology 20 Laboratory Life s Macromolecules OBJECTIVE INTRODUCTION

Biology: Life on Earth Chapter 3 Molecules of life

Biomolecules. Unit 3

Examples. Chapter 8. Metabolism & Enzymes. Flow of energy through life. Examples. Chemical reactions of life. Chemical reactions & energy

For example, monosaccharides such as glucose are polar and soluble in water, whereas lipids are nonpolar and insoluble in water.

Assignment #1: Biological Molecules & the Chemistry of Life

January 31, Chemistry of Life. Carbohydrates. Lipids. Proteins. Biologically Important Macromolecules. Nucleic Acids

Transcription:

Lab Activity 30 Digestive Enzymes Portland Community College BI 233

Cellular Reactions All molecular bonds have energy barriers that prevent spontaneous breakdown Enzymes lowering these activation energy barriers; the enzyme reduces the energy that must be absorbed by the reactants This allows the reaction to progress (to equilibrium) rapidly even at a the relatively low temperature of your body. 2

Energy of Activation (EA) For a reaction to occur, an energy barrier must be overcome. Enzymes make the energy barrier smaller (Imagine a train passing through a tunnel.) Enzymes do not make a non-spontaneous reaction spontaneous. starting substance energy released by the reaction EA without enzyme EA with enzyme products 3

Enzymes are proteins biological catalysts that lower the activation energy of a reaction. are highly specific; they only act only on a small number of substrates (often just one.) increase the rate of a chemical reaction. are re-used; they are not consumed in the reaction. E + S ES complex E + Product(s) *If there is no working enzyme, the reaction may still occur very slowly, eventually 4

Enzymes Environmental conditions affect enzymes: Temperature ph Salt concentration When you denature an enzyme, you change its shape 5

Enzyme Helpers Some enzymes require non-protein cofactors Some are inorganic metal ions of zinc, iron, and other trace elements Some are organic molecules called coenzymes Includes vitamins or altered vitamin components 6

Enzyme Inhibitors Inhibitors block enzyme action A competitive inhibitor takes the place of a substrate in the active site A noncompetitive inhibitor alters an enzyme s function by changing its shape NORMAL BINDING OF SUBSTRATE Competitive inhibitor Substrate Enzyme Active site Noncompetitive inhibitor ENZYME INHIBITION 7

Condensation (aka Dehydration Synthesis) Two molecules combine Water is a byproduct 1 2 3 1 2 3 4 8

Hydrolysis Type of cleavage reaction (opposite of condensation) Most digestive enzymes catalyze hydrolysis reactions. 1 2 3 4 Addition of H 2 O breaks polymers into smaller subunits (monomers, dimers ect..) 1 2 3 9

Four types of Macromolecules Class Carbohydrates Proteins Lipids Nucleic acids Monomer(s) monosaccharides amino acids fatty acids and glycerol nucleotides Polymer(s) polysaccharides polypeptides triglycerides, phospholipids, steroids* polynucleotides 10

Carbohydrate Digestion Goal #1: Break complex carbs (starch) down to oligosaccharides, trisaccharides, disaccharides 1. Salivary Amylase: (minor): breaks complex carbs (starch, glycogen) to oligosaccharides, trisaccharides, and disaccharides. Inactivated by gastric acid. 2. Pancreatic amylase: (major) 3. Amylase is also in breast milk. 11

Carbohydrate Digestion Goal #2: further breakdown into monosaccharides Use brush border enzymes on microvilli of small intestine 1. Lactase: breaks lactose into glucose + galactose 2. Maltase: breaks maltose into 2 glucoses, (also works on oligosaccharides) 3. Sucrase: breaks sucrose into glucose + fructose 12

Introduction to Four Diagnostic Tests Lugol s IKI test Color change indicates presence of starch Benedict s Solution test Color change (with heat) indicates presence of glucose or maltose BAPNA test Color change indicates enzyme activity Litmus Cream (or Litmus Paper) test Color change indicates ph change 13

Lugol s IKI IKI: potassium iodide Turns black in the presence of starch IKI alone Positive result (yes, starch!) Negative result (no starch) 14

Benedict s Solution Benedict's solution allows us to detect glucose (Glc) and maltose (Glc-Glc) It is a blue solution that will turn red-orange (yield brick red solid precipitate) when heated in the presence of glucose or maltose. Note that sucrose (Glc-Frc) will not trigger a color change! 15

Benedict s Solution Before heating (All start blue.) After heating ( Orange is positive. ) 16

Protein Digestion Goal #1: Break peptide bonds of proteins to yield smaller polypeptides HCL in stomach first denatures the proteins to enhance chemical digestion by exposing peptide bonds. Enzymes break peptide bonds between amino acids of proteins to make smaller polypeptides In stomach: pepsin (from pepsinogen from the stomach s chief cells) In intestine: pancreatic enzymes (trypsin, elastase, chymotrypsin & carboxypeptidase) 17

Protein Digestion Goal #2: break small polypeptides into single amino acids. Enzymes: On brush border: peptidases Inside cytoplasm of intestinal cells: several dipeptidases, tripeptidase break absorbed dipeptides and tripeptides into amino acids 18

Protein Digestion 1. Brush-border membrane peptidases 2. Brush-border membrane amino acid transporters 3. Brush-border membrane diand tripeptides transporters 4. Intracellular peptidases 5. Basolateral-membrane amino acid carriers 6. Basolateral membrane di- and tripeptides carriers 19

Protein Digestion BAPNA is a color-changing dye that is attached to an amino acid via a peptide bond. Review: peptide bonds link amino acids in the proteins (polypeptides) that you eat. When BAPNA s peptide bond is broken (using an enzyme such as trypsin,) the dye is released and it turns from clear to yellow. (Don t drink the BAPNA!!!) 20

Fat Digestion Goal #1: Emulsify big fat globules O O O into tiny fat droplet spheres oooooooooooooo Bile salts emulsify Lipase (a water soluble enzyme that can t penetrate fat droplet) will efficiently react with surface fat Smaller spheres of fat have higher surface/volume ratio, so the lapse can work faster on many small droplets than on one large globule. 21

triglyderides 22

Fat Digestion Goal #2: Break triglycerides into monoglycerides and fatty acids yields monoglycerides and fatty acids chief cells in fundus : gastric lipase about 20% of fat digestion intestines: pancreatic lipase about 80% of fat digestion breast milk: milk-derived lipase yields fatty acids and glycerol (not fatty acids and monoglycerides) 23

Litmus Cream Litmus is a ph indicator purple in storage bottle, it may turn to dark lavender or light pink It comes mixed with cream (a source of triglycerides!) Triglyceride digestion by lipase releases fatty acids. These fatty acids drop the ph, and the litmus solution turns light PINK 24

Lipase ph Test Results +H HO- 25

The End 26

2024 © healthdocbox.com Privacy Policy | Terms of Service | Feedback