biology 3a – membranes. cells exchange matter and energy in: out: processes:
TRANSCRIPT
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Biology 3A – membranes
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Cells exchange matter and energy
In: Out:Processes:
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Cells exchange matter and energy
In:
Oxygen
Nutrients eg glucose
(carbon dioxide and light energy in plants)
Water
Ions
Out:
Carbon dioxide
Wastes eg urea
(oxygen in plants)
Water
Ions
Heat energy
Processes:
Respiration
Synthesis
Growth
Division
Photosynthesis (in plants)
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Exchange of material
Occurs at the cell membrane
Involves the intake of essential materials eg nutrients and oxygen and the removal of unwanted materials eg wastes
The processes involved include diffusion, osmosis and active transport
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Cell membranes
Sketch a typical cell membrane according to the Fluid Mosaic model
Describe the roles of:• Phospholipids
• Proteins
• Carbohydrates
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CellsSketch a typical cell membrane according to the Fluid Mosaic model .
Describe the roles of:Phospholipids = A – waterproof, flexible layer, that lets in small particles
Proteins = B – provides channels for larger particles (facilitated diffusions), acts as pumps (active transport), acts as receptor sites
Carbohydrates = C - acts as receptor sites
A
B
C
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Structure of the cell membrane
Fluid mosaic model
Describe the roles of:• PhospholipidsWaterproof barrier, acts as a bubble, main
constituent
• Proteins Act as carriers, receptor sites, antigens,
channels
• CarbohydratesAct as receptor sites, antigens
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Evidence for membrane structure
• Biochemical analysis
• Electron microscopy
• Fluorescent and radioactive markersFluorescent markers added to cell membrane
Cells merged so markers on 1 side
Markers have moved around the entire membrane
Markers found on othermembranes within cell
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Exchange of material
Small particles eg water, ions can pass through the gaps between the phospholipids
Larger molecules pass through channels in the proteins or are carried by special proteins
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TerminologySolution
Solute
Solvent
Permeable
Differentially permeable
Hypotonic
Hypertonic
Isotonic
Mixture of solvent and solute
Thing added to solvent
Liquid to which solute is added
Allows substances to move through
Allows some substances to move through, but not others
Less concentrated (dilute)
More concentrated
Concentrations are equal
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Movement through membranes
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Diffusion
Draw a diagram to show how materials are exchanged by diffusion
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Movement of particles - diffusion
Occurs without energy
Particles will move from higher concentrations to lower concentrations
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Diffusion through membranesMembranes are differentially permeablePermeable substances (eg small particles) Impermeable substances (eg large particles)Movement is Energy
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Diffusion through membranesMembranes are differentially permeablePermeable substances (eg small particles) Impermeable substances (eg large particles)Movement is Energy
Move through
Can’t move throughFrom areas of high concentration to
areas of low concentration
Is not needed
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Facilitated diffusion
Allows larger or less permeable substances to cross
Involves channel proteins
Energy is not needed
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Osmosis
Draw a diagram to show how materials are exchanged by osmosis
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OsmosisMovement of waterThis occurs from areas of high water concentration (low
concentration of solute) to areas of low water concentration (high concentration of solute)
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Concentration gradient
This refers to the difference in concentration across membranes
The steeper the gradient,
the greater the movement
Osmotic pressure refers to the pull of water due to concentration gradients
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Active transport
Draw a diagram to show how materials are exchanged by active transport
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Active transport
Movement against a concentration gradient.Energy is needed
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Ion pumps
Involves special proteins that act as pumps
Allows cells to maintain ion concentrations that are very different from the external environment
Energy is used
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EndocytosisMovement due to folding of membrane and bringing in
the trapped substancesEnergy is needed Phagocytosis – solid substances trappedPinocytosis – liquids are trapped
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Exocytosis
Movement due to vacuoles moving to membrane and attaching to release contents
Energy needed
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Exchange of material
Show the movements of water and ions that would occur in both these cases
Distilled water Sea water
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Exchange of material
Show the movements of water and ions that would occur in both these cases
Distilled water Sea water
Water moves in
Water moves out Ions move inIons move out
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Determining the components of the cell membrane
Beetroot lab
acid base
water Distilled water
detergent
Salt water
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Beetroot experiment
• What hypothesis is being tested?
• What is the control?
• What is the independent variable?
• What is the dependent variable
• What variables are controlled?
• How will this tell you about the components of the cell membrane?
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Size and surface area
As size increases what happens to surface area to volume ratio?
Why is this important?
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Size and surface area
As size increases what happens to surface area to volume ratio? SA:Vol decreases
Why is this important? Exchange occurs at surfaces – the larger the SA:Vol, the more exchange will occur
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Shape and surface areaWhat happens if cells change shape?
2x 2x2
1x1x8
4x2x1
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Shape and surface areaWhat happens if cells change shape? – alters surface area
2x 2x2
1x1x8
4x2x1
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How cells increase their surface area
• Size • Shape• Folding • Cell extensions
pseudopods
microvilli