Name _________________________ Class ______ Date _________ TEKS Grade 7 Lesson 7.6C TEKS 7.6C Recognize how large molecules are broken down into smaller molecules such as carbohydrates can be broken down into sugars. TEKS Lesson 7.6C: Digesting Your Food All living things need food to stay alive. Food provides your body with materials to grow and to repair tissues. It also provides energy for everything you do. Exercising, reading, and sleeping require energy. Even maintaining homeostasis takes energy. Your body breaks down the food you eat into nutrients it can use. Nutrients are the substances in food that provide the raw materials and energy the body needs to carry out all its essential processes. People need six types of nutrients: carbohydrates, fats, proteins, vitamins, minerals, and water. Of these nutrients, carbohydrates, proteins, and fats must be broken down into small molecules before the body can use them. The digestive system does not break down water, minerals, and vitamins. Your digestive system breaks down the food you eat into nutrients it can use. The Role of Enzymes Enzymes are biological catalysts. A catalyst speeds up, or even simply makes possible, certain chemical reactions. A biological catalyst—that is, an enzyme—speeds up or makes possible chemical reactions in the body. Some of these reactions break down large nutrient molecules into smaller ones. The diagram below shows how enzymes work. The mouth, stomach, pancreas, and small intestine all make enzymes that help digest food. 1 An enzyme molecule becomes available. 2 A starch molecule fits the chemical shape of the enzyme. 3 The starch molecule binds to the enzyme. 4 The starch molecule is broken down into two sugar molecules. 5 The enzyme and the molecules separate. 1 Name _________________________ Class ______ Date _________ TEKS Grade 7 Lesson 7.6C How are carbohydrates broken down? Carbohydrates are compounds that contain atoms of carbon, hydrogen, and oxygen. These atoms are bonded to one another to form molecules of starches and sugars. Types of Carbohydrates The simple sugars that provide your body with energy are called monosaccharides. Mono means “one.” Saccharide means “sugar.” So, the term monosaccharide means “a carbohydrate made up of a single simple molecule of sugar.” The carbohydrates you eat are mostly made up of complex sugars. Disaccharides, like table sugar, consist of two molecules of a simple sugar linked together. Polysaccharides, such as potatoes, consist of many linked sugar molecules. Your body cannot use these complex sugars directly to produce energy. Instead, these molecules must be broken down by the digestive system into monosaccharides. The most common simple sugar is glucose. Enzymes Break Down Carbohydrates The breakdown of large carbohydrate molecules begins in the mouth. There, an enzyme in saliva breaks down starch into smaller molecules. However, these molecules are not simple sugars that your body uses for energy. Instead, they are disaccharides and even larger molecules. In the stomach, no changes occur to carbohydrates. But a new set of enzymes acts on them in the small intestine. Some of these enzymes are produced by the pancreas. Others are produced by cells in the walls of the small intestine. Together, these enzymes work to break down the still-complex carbohydrate molecules into disaccharides and eventually into simple sugars. 1. Recognize Which organ is not involved in the breakdown of complex carbohydrates into simple sugars? A mouth B small intestine C pancreas D stomach How are proteins broken down? Proteins are very large molecules that contain carbon, hydrogen, nitrogen, and oxygen atoms. The molecules of the proteins you eat are large and complex. However, the molecules in proteins that you can use are small and simple. Foods rich in proteins include meat, fish, dairy products, eggs, beans, and peas. 2 Name _________________________ Class ______ Date _________ TEKS Grade 7 Lesson 7.6C Amino Acids The simplest unit in a protein is an amino acid. Proteins are made up of long chains of 20 different amino acids that are bonded to one another. Two or more linked amino acids form a unit called a peptide. Proteins are large polypeptides. That is, they are made up of a great many peptides and, therefore, a great many amino acids. The links between amino acids in a peptide are called peptide bonds. It is these bonds that must be broken to separate individual amino acids from proteins. Your body uses these individual amino acids to build and repair body parts and for other life functions. Enzymes Break Down Proteins and Peptides The breakdown of large polypeptides begins in the stomach, where enzymes break down molecules of large polypeptides into smaller polypeptides. From there, the molecules move into the small intestine, where a new set of enzymes acts on them. Some of these enzymes are produced by the pancreas. Other enzymes are produced by cells in the walls of the small intestine. Together, these enzymes break the peptide bonds and transform these peptides into individual amino acids. 2. Recognize In which two organs are large protein molecules broken down into smaller molecules, resulting in amino acids the body can use? _____________________________________________________________________ _____________________________________________________________________ How are lipids broken down? Lipids are very large molecules that, in addition to carbon and hydrogen atoms, contain oxygen atoms. These atoms are bonded to one another to form molecules of fats and oils. Fats are solid lipids. Oils are liquid lipids. Your body stores energy in fats. Your body also uses fats to insulate it against extremes in outside temperature and to build membranes, such as those that encase and protect nerves. Foods rich in lipids include nuts, butter, fatty meats, oily fish, bacon, and cheese. Enzymes Break Down Lipids Many lipids are made of smaller molecules called fatty acids and glycerol. The bonds between these molecules must be broken so that your body can use lipids for life functions. The breakdown of lipids occurs in the small intestine. There, enzymes made in the pancreas and small intestine break down large lipid molecules into individual molecules of fatty acids and glycerol. The process is aided by the addition of bile. Bile, which is produced by the liver, enters the small intestine through a tube. Bile breaks up large globs of lipids into tiny droplets. The larger surface area of the droplets allows the enzymes to break down the lipids more easily. 3 Name _________________________ Class ______ Date _________ TEKS Grade 7 Lesson 7.6C 3. Identify What two simple molecules make up many of the complex lipids that you eat? __________________________________________________________________ __________________________________________________________________ Lesson Check 1. Identify What is the general name for the substances that break down large food molecules into smaller nutrient molecules? __________________________________________________________________ 2. Recognize In digestion, large complex molecules are broken down into smaller simpler molecules for use by the body. Below, indicate the resulting smaller molecules that are ultimately broken down from each large molecule. Carbohydrates: a. ____________________________________________________ Proteins: b. ________________________________________________________ Lipids: c. _________________________________________________________ d. ________________________________________________________ 4 Name _________________________ Class ______ Date _________ TEKS Grade 7 Lesson 7.6C 3. Sequence Complete the sequence diagram to show the changes that occur as a large complex carbohydrate molecule is broken down into a smaller simple carbohydrate molecule. Large polysaccharide molecule enzyme s b. a. enzyme 5 Name _________________________ Class ______ Date _________ TEKS Grade 7 Lesson 7.6C 4. Recognize What must happen to break down a protein into amino acids? __________________________________________________________________ __________________________________________________________________ 5. Identify Proteins, carbohydrates, and lipids are broken down in different organs of the digestive system. For each nutrient, put a check mark to indicate the organs in which their digestion is begun, continued, or completed. Nutrient Mouth Carbohydrates √ Stomach Proteins LIpids 6 Small Intestine