Wallington County Grammar School

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

Carbohydrates. Organic compounds which comprise of only C, H and O. C x (H 2 O) y

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

Carbohydrates. Monosaccharides

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

Macro molecule = is all the reactions that take place in cells, the sum of all chemical reactions that occur within a living organism Anabolism:

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

Biological Chemistry. Is biochemistry fun? - Find it out!

CARBOHYDRATES. Produce energy for living things Atoms? Monomer Examples? Carbon, hydrogen, and oxygen in 1:2:1 ratio.

The Structure and Function of Macromolecules

The Chemical Building Blocks of Life. Chapter 3

Biological Molecules

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

Biological Molecules

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

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

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

BIOCHEMISTRY. How Are Macromolecules Formed? Dehydration Synthesis or condensation reaction Polymers formed by combining monomers and removing water.

Biology: Life on Earth Chapter 3 Molecules of life

Carbohydrates. 1. Using the terms provided below, complete the concept map showing the characteristics of organic compounds.

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

Chapter 2. Chemical Composition of the Body

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

Chemistry of Carbon. All living things rely on one particular type of molecule: carbon

What are the molecules of life?

Biological Molecules

Carbon. Isomers. The Chemical Building Blocks of Life

Biology 12 - Biochemistry Practice Exam

Essential Biology 3.2 Carbohydrates, Lipids, Proteins. 1. Define organic molecule.

Chapter 3- Organic Molecules

Macromolecules. copyright cmassengale

Organic Compounds. Compounds that contain CARBON are called organic. Macromolecules are large organic molecules.

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

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

BIOCHEMISTRY NOTES PT. 3 FOUR MAIN TYPES OF ORGANIC MOLECULES THAT MAKE UP LIVING THINGS

Chapter Three (Biochemistry)

Good Afternoon! 11/30/18

IB Biology BIOCHEMISTRY. Biological Macromolecules SBI3U7. Topic 3. Thursday, October 4, 2012

Activity: Biologically Important Molecules

Water: 1. The bond between water molecules is a(n) a. ionic bond b. covalent bond c. polar covalent bond d. hydrogen bond

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

Carbon Compounds (2.3) (Part 1 - Carbohydrates)

Chapter 5: The Structure and Function of Large Biological Molecules

INTRODUCTION TO ORGANIC COMPOUNDS. Copyright 2009 Pearson Education, Inc.

Organic Molecules. Contain C

AS Level Paper 1 and 2. A2 Level Paper 1 and 3 - Topics 1-4

Learning Target: Describe characteristics and functions of carbohydrates, lipids, and proteins. Compare and contrast the classes of organic

Competitive Inhibitor

Biology 5A Fall 2010 Macromolecules Chapter 5

2.1.1 Biological Molecules

Chapter 3 The Molecules of Life

Organic Molecules. 8/27/2004 Mr. Davenport 1

Honors Biology Chapter 3: Macromolecules PPT Notes

The Carbon Atom (cont.)

A. Structure and Function 1. Carbon a. Forms four (4) covalent bonds linked together in chains or rings Forms skeleton of basic biochemicals b.

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

Organic Chemistry. Organic chemistry is the chemistry of carbon compounds. Biochemistry is the study of carbon compounds that crawl.

Macromolecules. 3. There are several levels of protein structure, the most complex of which is A) primary B) secondary C) tertiary D) quaternary

Organic Compounds. Biology-CP Mrs. Bradbury

The Building blocks of life. Macromolecules

Chapter 3 Guided Reading Notes Carbon and the Molecular Diversity of Life

the nature and importance of biomacromolecules in the chemistry of the cell: synthesis of biomacromolecules through the condensation reaction lipids

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

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

BIOLOGY 111. CHAPTER 2: The Chemistry of Life Biological Molecules

Bio 12 Chapter 2 Test Review

5.2 Lipids 5.21 Triglycerides 5.22 Phospholipids 5.23 Wax 5.24 Steroids. 5.3 Proteins 5.4 Nucleic Acids

Name: Period: Date: Testing for Biological Macromolecules Lab

Unit #2: Biochemistry

Biology Chapter 5. Biological macromolecules

Lesson Overview. Carbon Compounds. Lesson Overview. 2.3 Carbon Compounds

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

AQA Biology A-level Topic 1: Biological Molecules

Biology Kevin Dees. Biology Chapter 5. Biological macromolecules

Biochemistry. 2. Besides carbon, name 3 other elements that make up most organic compounds.

Why Carbon? What does a carbon atom look like?

A. Lipids: Water-Insoluble Molecules

Chapter 5 Structure and Function Of Large Biomolecules

What is a Biomolecule?

Chapter 5: The Structure and Function of Large Biological Molecules

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

Guided Inquiry Skills Lab. Additional Lab 1 Making Models of Macromolecules. Problem. Introduction. Skills Focus. Materials.

Chapter 3. Table of Contents. Section 1 Carbon Compounds. Section 2 Molecules of Life. Biochemistry

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

BIOCHEMISTRY UNIT 2 Part 4 ACTIVITY #4 (Chapter 5) CARBOHYDRATES

Carbon Compounds. Lesson Overview. Lesson Overview. 2.3 Carbon Compounds

Organic Compounds. Compounds that contain CARBON are called organic. Macromolecules are large organic molecules.

The Structure and Function of Large Biological Molecules

Macromolecules. Honors Biology

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

Bio 12 Important Organic Compounds: Biological Molecules NOTES Name:

Biological molecules

AP BIOLOGY: READING ASSIGNMENT FOR CHAPTER 5

The Structure and Function of Macromolecules (Chapter Five)

Objectives. Carbon Bonding. Carbon Bonding, continued. Carbon Bonding

So what happens to your lunch?

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

Carbohydrates, Lipids, Proteins, and Nucleic Acids

Honors Biology Chapter 3: The Molecules of Cells Name Amatuzzi Carbohydrates pp Homework

Transcription:

Wallington County Grammar School Y11 to Lower Sixth Bridging Work Subject: Subject Leader to direct questions to (email enquiries@wcgs.org.uk): Estimated hours of work needed to complete this work successfully: This work is entirely relevant to the Course Specification. It will help prepare you for your A Level in this subject because: This work will be given an effort grade from 1-4 (4 being highest) that will be sent home and used to inform our intervention. In order to get a 4 you must ensure you: Biology Mrs Burgess 4 In September the topics you will start to learn about are Cells and Biological Molecules. By completing the bridging work, you will have already defined the key words used in the Biological Molecules section of the course and started looking at the key concepts that you will be taught in lessons for the first half term. Complete the work with as much detail as possible and ensure that you have completed the extension work. Your Bridging Work 1

BIOLOGY DEPARTMENT BRIDGING UNIT 2017-2018 This project contains compulsory work that must be completed before term starts in September. You will prepare for the new challenges of Sixth Form study by researching some key content and gaining an understanding of important Biological principles. You will complete 6 tasks, and attempt an extension task, that will provide information to help with the first topic on the A Level Biology course called Biological molecules. Specification for reference: http://www.aqa.org.uk/subjects/science/as-and-a-level/biology-7401-7402 3.1 BIOLOGICAL MOLECULES Unit description All life on Earth shares a common chemistry. This provides indirect evidence for evolution. Despite their great variety, the cells of all living organisms contain only a few groups of carbon based compounds that interact in similar ways. Carbohydrates are commonly used by cells as respiratory substrates. They also form structural components in plasma membranes and cell walls. 2

Lipids have many uses, including the bilayer of plasma membranes, certain hormones and as respiratory substrates. Proteins form many cell structures. They are also important as enzymes, chemical messengers and components of the blood. Nucleic acids carry the genetic code for the production of proteins. The genetic code is common to viruses and to all living organisms, providing evidence for evolution. The most common component of cells is water; hence our search for life elsewhere in the universe involves a search for liquid water. By the end of the bridging work you will be expected to be able to: Explain what a monomer and polymer are Identify some biological polymers, and the monomer from which they are made Describe the stages of the Benedict s test Describe the stages of the Iodine test Describe the stages of the emulsion test Identify common monosaccharides Describe the monosaccharides from which lactose, maltose and sucrose are made Explain what is meant by a glyosidic bond and how they form through condensation 3

1. Define the following key terms related to Biological molecules Activation energy Amino acids Base pairing Carbohydrate Chromatography Colorimetry Condensation Denaturation Dipeptide Disaccharide DNA Enzyme Fatty acid Fibrous protein Hydrolysis Globular protein Glycerol Hydrogen bonding Inhibition Inorganic ion Isomer Lipid Macromolecule 4

Monomer Nucleic acid Phospholipid polymer Polypeptide Polysaccharide Primary structure Protein Quaternary structure RNA Secondary structure Tertiary structure Triglyceride Water 5

2. Describe the following tests for Biological molecules: Benedict s test Method: Positive result: Biuret test Method: Positive result: Lipid emulsion test Method: Positive result: 6

3. Draw the structure of the following: a) α Glucose b) β glucose c) Describe the differences between the structure of α and β glucose.. d) Are these structures triose, pentose or hexose sugars?. e) Draw the general structure for an amino acid: 7

4. State the name or names of the monomers related to the polymer: Polymer DNA Monomer (s) Maltose Starch Glycogen Sucrose Lactose Protein 8

5. Complete the following information about carbohydrates by filling in the gaps: Carbon atoms are able to bond with other carbon atoms. These form a backbone along which other atoms can be attached. This permits the formation of a great number of types and sizes of molecule, all based on carbon. The variety of life that exists on earth is a consequence of all living organisms being based on carbon. Carbon-containing molecules are known as organic molecules. In living organisms, there are relatively few other atoms that attach to carbon. Life is therefore based on a small number of chemical elements. In the Biology course you will study the following Biological molecules; Carbohydrates, proteins, lipids, water and nucleic acids. Carbohydrates are made up of sugar units and have the general formula. are the simplest carbohydrates, with only one sugar unit. Examples are, fructose and galactose. Two monosaccharides join together to form a in a reaction. Two hydroxyl (OH) groups react a molecule is lost, and the remaining oxygen atom joins the two sugar units together. This is called a. The bond can be broken in a reaction, which is a reverse of the condensation reaction. The position of the OH groups that react determines the, and therefore properties of the disaccharide. A series of condensation reactions between monosaccharides can create a molecule its features will depend on the sugar monomers from which it is formed. Starch is formed from two polymers: and. The former has 1,4 glycosidic links and forms helices, whilst the latter has many 1,6 glycosidic links, which cause the chain to branch. Starch is a good energy storage molecule because it is, insoluble and does not take part in reactions in the cell. 9

Glycogen is also formed from chains of. It is found in animal livers, where it acts as an intermediate energy store. It contains 1,4 and 1,6 glycosidic links, so it is more than starch. molecules lie straight and form with their neighbours. Bundles of these cross-linked molecules form strong visible in the plant cell wall. 10

6. Construct a mind map for Monomers and polymers. Use as many of the key terms from task 1 as you can/are relevant. This has been started for you below: Polymer Glucose Monomers and polymers Monomer Starch Amino acid 11

7. EXTENSION ACTIVITIES 1. Complete the table: Monosaccharide Glyceraldehyde Ribose Deoxyribose Fructose Glucose Number of carbon atoms per molecule Where is it found in living organisms 2. Glucose and fructose have the same general formula; can you explain why they are distinct monosaccharides? 3. Name the elements present in carbohydrates. 4. Write down the molecular formula of a triose. 5. Suggest how many carbon atoms are present in a pentose. 12

13

7.EXTENSION 14

7. EXTENSION 15

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