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Transcript of Homeostasis and Cell Transport Chapter 5 Table of Contents Section 1 Passive Transport Section 2...
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Homeostasis and Cell TransportChapter 5
Table of Contents
Section 1 Passive Transport
Section 2 Active Transport
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Section 1 Passive TransportChapter 5
Objectives
• Explain how an equilibrium is established as a result of diffusion.
• Distinguish between diffusion and osmosis.
• Explain how substances cross the cell membrane through facilitated diffusion.
• Explain how ion channels assist the diffusion of ions across the cell membrane.
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Passive Transport
• NO ENERGY REQUIRED to move substances across membrane -- water, lipids, and other lipid soluble substances.
Chapter 5 Section 1 Passive Transport
• Types:– Diffusion– Osmosis– Facilitated Diffusion– Filtration
•Involves the movement of molecules across the cell membrane •without an input of energy by the cell.
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Section 1 Passive TransportChapter 5
Diffusion
• Diffusion is the movement of molecules from an area of higher concentration to an area of lower concentration, driven by the molecules’ kinetic energy until a state of dynamic equilibrium* is reached.
• Occurs because of Brownian Motion, i.e., the random movement of particles.
*Dynamic equilibrium – continued movement of molecules with no net change in concentration
– Concentration gradient, i.e., the difference in concentration across space.
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Chapter 5
Click below to watch the Visual Concept.
Visual Concept
Concentration Gradient
Section 1 Passive Transport
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Chapter 5
Diffusion
Section 1 Passive Transport
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Section 1 Passive TransportChapter 5
Osmosis
• Osmosis is the diffusion of water across a membrane.
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Chapter 5
Click below to watch the Visual Concept.
Visual Concept
Osmosis
Section 1 Passive Transport
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Section 1 Passive TransportChapter 5
Osmosis, continued
• Direction of Osmosis– The net direction of osmosis is determined by the
relative solute concentrations on the two sides of the membrane.
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Section 1 Passive TransportChapter 5
Osmosis, continued
• Direction of Osmosis– When the solute concentration outside the cell is
higher than that in the cytosol, the solution outside is hypertonic (more solute, less water) to the cytosol, and water will diffuse out of the cell.
– Plasmolysis = cell’s shrinking due to water loss
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Section 1 Passive TransportChapter 5
Osmosis, continued
• Direction of Osmosis– When the solute concentration outside the cell is
lower than that in the cytosol, the solution outside is hypotonic (less solute, more water) to the cytosol, and water will diffuse into the cell.
– Cytolysis = cell’s bursting due to water gain
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Section 1 Passive TransportChapter 5
Osmosis, continued
• Direction of Osmosis– When the solute concentrations outside and inside
the cell are equal, the solution outside is isotonic (same solute, same water), and there will be no net movement of water.
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Chapter 5
Hypertonic, Hypotonic, Isotonic Solutions
Section 1 Passive Transport
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Chapter 5
Click below to watch the Visual Concept.
Visual Concept
Comparing Hypertonic, Isotonic, and Hypotonic Conditions
Section 1 Passive Transport
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Section 1 Passive TransportChapter 5
Osmosis, continued
• How Cells Deal With Osmosis– To remain alive, cells must compensate for the
water that enters the cell in hypotonic environments and leaves the cell in hypertonic environments.
– Cells in multicellular organisms respond to hypotonic environments by pumping solutes out of the cytosol (RBCs cannot compensate for changes in solute concentration)
– Contractile vacuoles are organelles that regulate water levels in paramecia.
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Section 1 Passive TransportChapter 5
Facilitated Diffusion
• Diffusion of molecules across a membrane when they are not soluble in lipids or are too large (e.g. glucose) to pass through pores in membrane
• In facilitated diffusion, a molecule binds to a carrier protein on one side of the cell membrane.
• The carrier protein (specific for one type of molecule) then changes its shape and transports the molecule down its concentration gradient to the other side of the membrane.
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Chapter 5
Facilitated Diffusion
Section 1 Passive Transport
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Section 1 Passive TransportChapter 5
Diffusion Through Ion Channels
• Ion channels are proteins, or groups of proteins, that provide small passageways across the cell membrane through which specific ions can diffuse.
• Ions important in cell function include sodium, potassium, calcium, and chloride
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Chapter 5
Ion Channels
Section 1 Passive Transport
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Section 2 Active TransportChapter 5
Objectives
• Distinguish between passive transport and active transport.
• Explain how the sodium-potassium pump operates.
• Compare endocytosis and exocytosis.
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Section 2 Active TransportChapter 5
• Active transport moves molecules across the cell membrane from an area of lower concentration to an area of higher concentration.
• Unlike passive transport, active transport requires cells to expend energy.
• Some types of active transport are performed by carrier proteins called cell membrane pumps.
Cell Membrane Pumps
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Section 2 Active TransportChapter 5
Cell Membrane Pumps, continued
• Sodium-Potassium Pump– The sodium-potassium pump moves three Na+
ions into the cell’s external environment for every two K+ ions it moves into the cytosol.
• Animal cells must have a higher concentration of Na+ ions outside the cell and a higher concentration of K+ ions inside the cell
– ATP supplies the energy that drives the pump.
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Chapter 5
Sodium-Potassium Pump
Section 2 Active Transport
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Sodium-Potassium Pump
• The exchange of three Na+ ions for two K+ ions creates an electrical gradient across the cell membrane– Outside becomes positively charged relative to the
inside, which becomes negative• Difference in electrical charge is important for
the conduction of electrical impulses along nerve cells
Chapter 5Section 2 Active Transport
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Section 2 Active TransportChapter 5
Movement in Vesicles
• Endocytosis– In endocytosis, cells ingest external fluid,
macromolecules, and large particles, including cells by folding around them and forming a pouch.
– The pouch then pinches off and becomes a membrane-bound organelle called a vesicle.
*Some vesicles fuse with lysosomes, and their contents are digested by lysosomal enzymes
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Section 2 Active TransportChapter 5
Movement in Vesicles, continued
• Endocytosis– Endocytosis includes pinocytosis, in which the
vesicle contains solutes or fluids, and phagocytosis, in which the vesicle contains large particles or whole cells.
• Bacteria and viruses are ingested in this way– Receptor-mediated endocytosis – molecules are
brought into the cell via coated pits (proteins)
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Chapter 5
Click below to watch the Visual Concept.
Visual Concept
Endocytosis
Section 2 Active Transport
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Section 2 Active TransportChapter 5
Movement in Vesicles, continued
• Exocytosis– In exocytosis, vesicles made by the cell fuse with
the cell membrane, releasing their contents into the external environment.
• Used to release large molecules, such as proteins, waste products, or toxins that would damage the cell if they were released within the cytosol
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Chapter 5
Click below to watch the Visual Concept.
Visual Concept
Exocytosis
Section 2 Active Transport
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Chapter 5
Endocytosis and Exocytosis
Section 2 Active Transport