Chapter 5 powerpoint
Transcript of Chapter 5 powerpoint
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Homeostasis and Cell Homeostasis and Cell TransportTransportChapter 5
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Passive TransportPassive TransportPassive Transport – substances
cross the cell membrane with NO energy input from the cell
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DiffusionDiffusionDiffusion – movement of molecules
from an area of higher concentration to an area of lower concentration◦Concentration Gradient – difference
in the concentration of molecules across a distance
◦Molecules tend to move from where they are more concentrated to where they are less concentrated (“down” their concentration gradient)
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DiffusionDiffusionDiffusion is driven entirely by the
molecules’ kinetic energy◦Molecules are in constant motion
Diffusion will eventually cause the molecules to be in equilibrium – the concentration of molecules will be the same throughout the space the molecules occupy◦At equilibrium, molecules continue to move
How Diffusion Works
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DiffusionDiffusion
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Diffusion Across Diffusion Across MembranesMembranesDiffusion Across Membranes
◦Simple diffusion – diffusion across a cell membrane
◦Depends on: Size of molecule Type of molecule Chemical nature of the membrane
Diffusion Across Membranes
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OsmosisOsmosisWater molecules diffuse across a cell
membrane from an area of higher concentration to an area of lower concentration
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Direction of OsmosisDirection of OsmosisHypotonic solution –
concentration of solute outside the cell is lower than the concentration inside the cell◦Water diffuses into the cell
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Direction of OsmosisDirection of OsmosisHypertonic solution –
concentration of solute outside the cell is higher than the concentration inside the cell◦Water diffuses out of the cell
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Direction of OsmosisDirection of OsmosisIsotonic solution – concentration
of solutes is equal outside and inside of the cell◦Water diffuses into and out of the
cell at equal rates
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OsmosisOsmosis
How Osmosis Works
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How Cells Deal With How Cells Deal With OsmosisOsmosisContractile
vacuoles – organelles that remove water
Solute pumps – pump solutes out of the cell
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How Cells Deal With How Cells Deal With OsmosisOsmosisCell wall in plants resists the pressure
exerted by water inside of a cell◦ Turgor pressure – pressure that water molecules
exert against a cell wall◦ Plasmolysis – cells shrink away from cell walls
and turgor pressure is lost
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How Cells Deal With How Cells Deal With OsmosisOsmosisSome cells cannot compensate for
changes in solute concentration◦ Ex: red blood cells can swell and burst
(cytolysis)
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Facilitated DiffusionFacilitated DiffusionFor molecules that cannot diffuse
across cell membranes, even when there is a concentration gradient
Movement of molecules is assisted by carrier proteins
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Facilitated DiffusionFacilitated Diffusion
How Facilitated Diffusion Works
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Important Properties of Important Properties of Facilitated DiffusionFacilitated DiffusionCan help substances move either
into or out of the cell, depending on the concentration gradient
Carrier proteins involved in facilitated diffusion are each specific for one type of molecule
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Diffusion Through Ion Diffusion Through Ion ChannelsChannels
◦Ion channels – transport ions such as sodium (Na+), potassium (K+), calcium (Ca2+), and chloride (Cl-)
◦Some ion channels are always open◦Some have “gates” that open and
close in response to: Stretching of the cell membrane Electrical signals Chemicals in the cell or external
environment
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ACTIVE TRANSPORT ACTIVE TRANSPORT Section 2
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Active TransportActive TransportMovement of materials from
lower concentration to higher concentration (“up” their concentration gradient)
Requires energy from the cell
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Cell Membrane PumpsCell Membrane PumpsSodium-Potassium Pump
◦transports Na+ and K+ ions up their concentration gradients
How the sodium-potassium pump works
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Steps of the Sodium-Steps of the Sodium-Potassium PumpPotassium Pump
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Steps of the Sodium-Steps of the Sodium-Potassium PumpPotassium Pump1. Three Na+
ions from the inside of the cell bind to the carrier protein
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Steps of the Sodium-Steps of the Sodium-Potassium PumpPotassium Pump2. A phosphate
group is removed from ATP and bound to the carrier protein
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Steps of the Sodium-Steps of the Sodium-Potassium PumpPotassium Pump3. The carrier
protein changes shape, allowing three Na+ ions to be released to the outside of the cell
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Steps of the Sodium-Steps of the Sodium-Potassium PumpPotassium Pump4. Two K+
ions from the outside of the cell bind to the carrier protein
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Steps of the Sodium-Steps of the Sodium-Potassium PumpPotassium Pump5. The
phosphate group is released and the carrier protein goes back to its original shape
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Steps of the Sodium-Steps of the Sodium-Potassium PumpPotassium Pump6. The two K+
ions are released to the inside of the cell and the cycle is ready to repeat
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Importance of the Sodium-Importance of the Sodium-Potassium PumpPotassium PumpThe ion exchange creates an
electrical gradient across the cell membrane◦Outside becomes positively charged◦Inside becomes negatively charged
This difference in charge is important for the conduction of electrical impulses along nerve cells
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Movement in VesiclesMovement in VesiclesUsed for:
◦Substances that are too large to pass through the cell membrane
◦Transporting large amounts of small molecules into or out of cells at the same time
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EndocytosisEndocytosis
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EndocytosisEndocytosisProcess in which cells ingest
external fluid, macromolecules, and large particles, including other cells
Two types of endocytosis:◦Pinocytosis – transport of solutes or
fluids◦Phagocytosis – transport of large
particles or whole cells
Endocytosis
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ExocytosisExocytosis
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ExocytosisExocytosisProcess by which a substance is
released from the cell through a vesicle that transports the substance to the cell surface and then fuses with the membrane to let the substance out of the cell
Exocytosis