Moving Cellular Material

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Content Vocabulary LESSON 3 Directions: Write the correct term in the boxes to the right of each definition. Then use the letters in the numbered boxes to spell a seventh term. active transport diffusion endocytosis exocytosis facilitated diffusion osmosis passive transport 1. occurs with the help of transport proteins 2. movement through a cell s membrane without using the cell s energy 3. movement through a cell s membrane that requires energy 4. when a vesicle releases its contents outside of a cell 5. movement of substances from higher to lower concentration 6. diffusion of water molecules 7. is the process during which a cell takes in a substance by surrounding it with the cell Cell Structure and Function 47

Lesson Outline LESSON 3 A. Passive Transport 1. A cell membrane is, which means that it allows only certain substances to enter or leave a cell. 2. Passive transport is the movement of substances through a cell membrane without using the cell s. B. Diffusion 1. Diffusion is the movement of substances from an area of concentration to an area of concentration. 2. Usually diffusion continues through a membrane until the of a substance is the same on both sides of the C. Osmosis The Diffusion of Water 1. Osmosis is the diffusion of molecules only through a 2. If the concentration of water in the air surrounding a plant is less than the concentration of water inside the plant s vacuoles, water will diffuse into the until the concentrations of water are equal. 3. Facilitated diffusion allows molecules to pass through a cell membrane using proteins. a. Carrier proteins carry through the cell b. proteins allow ions to pass through the cell D. Active Transport 1. Active transport uses the cell s to move substances through a cell 2. Active transport moves substances from areas of concentration to areas of concentration. 48 Cell Structure and Function

Lesson Outline continued 3. A cell uses to take in a substance by surrounding it with the cell 4. A cell s vesicles release their contents outside the cell during. E. Cell Size and Transport 1. For a cell to survive, its surface area must be large compared to its. 2. As a cell, its volume increases faster than its surface area. Cell Structure and Function 49

Key Concepts Builder LESSON 3 Key Concept How do materials enter and leave cells? Directions: On each line, write the term from the word bank that correctly completes each sentence. Each term is used only once. 1. the movement of substances from an area of higher concentration to an area of lower concentration 2. transport proteins that carry large molecules, such as sugar molecules, through a cell membrane 3. the state a substance is in when the concentration of the substance is the same on both sides of a cell membrane 4. when a cell takes in a substance by surrounding it with the cell membrane 5. the diffusion of water molecules only 6. when molecules pass through a cell membrane using special proteins 7. transport proteins that form pores through a cell membrane 8. the movement of substances through a cell membrane by using the cell s energy 9. proteins that assist with the transport of molecules through a cell membrane 10. when a cell s vesicles release their contents outside the cell 11. what a cell membrane is because it allows only certain substances to enter or leave a cell 12. the movement of substances through a cell membrane without using the cell s energy A. semipermeable B. passive transport C. diffusion D. equilibrium E. osmosis F. facilitated diffusion G. transport proteins H. carrier proteins I. channel proteins J. active transport K. endocytosis L. exocytosis 56 Cell Structure and Function

Key Concepts Builder LESSON 3 Key Concept How do materials enter and leave cells? Directions: Answer each question on the lines provided. Use complete sentences. 1. What is active transport? 2. What is endocytosis? 3. What is exocytosis? 4. How does a cell use endocytosis to form a vesicle? 5. How does a cell use exocytosis to release the contents of a vesicle outside the cell? 6. What role does cellular energy play in active transport? Cell Structure and Function 57

Enrichment LESSON 3 Understanding Alzheimer s Disease Imagine slowly losing your most precious memories. You can barely remember how to do the simplest task, let alone recognize the face of a loved one. This devastating scenario is common for the nearly 5 million Americans afflicted with Alzheimer s disease. This progressive brain disease attacks nerve cells in the brain, usually in older people. It affects a person s memory, thinking patterns, and behavior. In the United States, Alzheimer s is the sixth leading cause of death. Currently, there is no cure. Cell Transport and Alzheimer s Disease Scientists have made great strides in understanding Alzheimer s disease. They now know that certain genes have a role in the disease. Recently, they also discovered that Alzheimer s might be linked to problems associated with cell transport. Nerve cells have axons that can extend several feet from the main body of the cell, which makes transport an important issue. As you have learned, proteins are one type of macromolecule in cells. Proteins have several functions, one of which is to help transport materials inside cells. Scientists are studying several proteins in nerve cells, including the amyloid precursor protein (APP). The exact role of APP is unclear, but it appears to be crucial in transporting materials and information from the nerve cell to the axons. In patients with Alzheimer s disease, this cell transport system breaks down. As a result, the cell sends out signals that eventually lead to its death. Working Toward a Cure Scientists are working to understand how this transport breakdown occurs. They have discovered an enzyme that splits APP into two parts, one of which is called beta amyloid. When this split occurs in a certain way, beta amyloid forms the plaques, or deposits of protein, found in and around the nerve cells of Alzheimer s patients. By regulating the production of beta amyloid, scientists hope to prevent the formation of plaques and halt the death of nerve cells in the brain. The challenge, however, lies in keeping all the other functions of APP intact. Applying Critical-Thinking Skills Directions: Answer each question or respond to each statement. 1. Infer what it means when a disease is called progressive. 2. Identify the challenges that scientists face in their search for a cure for Alzheimer s disease. 3. Evaluate the information in the article. What does it imply about the importance of cell transport? Cell Structure and Function 5

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