Learning Resource Type

Learning Activity

You Are What You Eat

Subject Area

Science

Grade(s)

9, 10, 11, 12

Overview

Students are introduced to the four major classes of biological macromolecules (carbohydrates, lipids, proteins, and nucleic acids). The video “You Are What You Eat” discusses the biological macromolecules and their role in the body and the food that we eat. The website also includes a chart comparing and contrasting the structural characteristics of the four macromolecules and an explanation of dehydration synthesis and hydrolysis. 

This activity was created as a result of the ALEX Gap Resource Development Summit.

    Science (2015) Grade(s): 09-12 - Biology

    SC15.BIO.1

    Use models to compare and contrast how the structural characteristics of carbohydrates, nucleic acids, proteins, and lipids define their function in organisms.

    Unpacked Content

    UP:SC15.BIO.1

    Vocabulary

    • Atom
    • Nucleus
    • Proton
    • Neutron
    • Electron
    • Element
    • Compound
    • Isotope
    • Covalent bond
    • Molecule
    • Ion
    • Ionic bond
    • Van der Waals force
    • Macromolecule
    • Polymer
    • Carbohydrate
    • Monosaccharide
    • Disaccharide
    • Polysaccharide
    • Lipid
    • Saturated fats
    • Unsaturated fats
    • Triglyceride
    • Phospholipid
    • Hydrophobic
    • Steroids
    • Protein
    • Amino acid
    • Peptide bonds
    • Nucleic acid
    • Nucleotide
    • DNA
    • RNA
    • ATP

    Knowledge

    Students know:
    • An atom is composed of smaller particles, such as protons, neutrons and electrons.
    • Atoms of the same or different elements can form chemical bonds. The type of bond formed, such as covalent, ionic, or hydrogen, depends on the atomic structure of the element. Carbohydrates, Lipids, proteins and nucleic acids are the four macromolecules that compose life.
    • Carbohydrates are composed of a monomer of one carbon, 2 hydrogen and one oxygen atoms (CH2O). The role of carbohydrates in biological processes such as photosynthesis and cellular respiration.
    • The role of lipids in biological processes such as cell membrane function and energy storage.
    • The basic structure of a lipid includes fatty acid tails composed of a chain of carbon atoms bonded to hydrogen and other carbon atoms by single or double bonds.
    • Proteins are made of amino acids, which are small compounds that are made of carbon, nitrogen, oxygen hydrogen and sometimes sulfur. The structure of an amino acid consists of a carbon atom in the center which is bonded with a hydrogen, an amino group, a carboxyl group and a variable group—its that variable group that makes each amino acid different.
    • The roles of proteins in biological processes such as enzyme function or structural functionality.
    • Nucleic acids are made of smaller repeating subuntits composed of carbon, nitrogen, oxygen, phosphorus, and hydrogen atoms, called nucleotides.
    • There are six major nucleotides—all of which have three units—a phosphate, a nitrogenous base, and a ribose sugar. The role of nucleic acids in biological processes such as transmission of hereditary information.

    Skills

    Students are able to:
    • Describe the particles that compose an atom.
    • Relate atomic particles to types of chemical bonding such as covalent, ionic and hydrogen.
    • Describe Van der Waals forces.
    • Identify patterns in the elements that compose each macromolecule.
    • Identify the arrangement of monomer units in carbohydrates, proteins, nucleic acids, and lipids.
    • Differentiate macromolecules based on common characteristics.
    • Construct models of the four major macromolecules.
    • Analyze models of the four major biomolecules to identify the monomer unit that repeats across the macromolecule polymer and relate molecular structure to biological function.

    Understanding

    Students understand that:
    • Cells are made of atoms.
    • The four macromolecules that compose life are carbohydrates, lipids, nucleic acids, and proteins.
    • Macromolecules contain distinct patterns of monomer subunits that repeat across the macromolecule polymer and that structure affects the biological function of the macromolecule.

    Scientific and Engineering Practices

    Developing and Using Models

    Crosscutting Concepts

    Structure and Function

    Phase

    Before/Engage
    Learning Objectives

    Learning Objectives

    Students will describe the term macromolecule. 

    Students will use a model to compare and contrast the macromolecules when creating the illustration in the foldable.

    Students will be able to distinguish between the four classes of macromolecules:

    • Proteins (polymers of amino acids)
    • Carbohydrates (polymers of sugars)
    • Lipids (polymers of lipid monomers)
    • Nucleic acids (DNA and RNA; polymers of nucleotides)

    Activity Details

    1. Students will read the article describing the four types of macromolecules.
    2. Students will view the video “You Are What You Eat”.
    3. Using the information provided in the chart on the website, students will create a four-square foldable with a description of each of the four classes of macromolecules: carbohydrates, nucleic acids, proteins, and lipids. On each corner, students will name the macromolecule, draw a diagram, give an example, and name one use. (Instructions for foldable)
    4. Students will share their chart with a partner.
    Assessment Strategies

    Assessment Strategies

    Students will complete the "Check Your Understanding" at the end of the activity and share the results with the teacher. Results can be shared digitally. 

    Students will engage in a think, pair, share to assess the understanding of the information on the Macromolecule Foldable.

    Variation Tips

    Have students create their own models of the four macromolecules.

    Background and Preparation

    Background / Preparation

    The teacher could download the video to a computer or a flash drive.

    The teacher should print instructions for making the foldable for the macromolecule by using the following link to the document (https://docs.google.com/document/d/1-Plnfm2XV0Wm0UEZ-FEd73QrHxZUEYCN02T75JTKxY4/edit?usp=sharing).

     

    Digital Tools / Resources

    ALSDE LOGO