Cell membranes · The fluid-mosaic model of the cell-surface membrane. Movement across membranes...
Transcript of Cell membranes · The fluid-mosaic model of the cell-surface membrane. Movement across membranes...
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Cell membranes
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Plasma Membrane Structure and Function
The plasma membrane separates the internal environment of the cell from its surroundings.
The plasma membrane is a phospholipid bilayer with embedded proteins.
The plasma membrane has a fluidconsistency and a mosaic pattern of embedded proteins.
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The cell-surface membrane controls the movement of substances into and out of the cell.
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Cell membranes are made up of….
Phospholipids
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Phospholipids allow….
• Lipid- soluble substances to enter and leave the cell
• Prevent water-soluble substances entering and leaving the cell
• Make the membrane flexible and self-sealing.
Make a note of this information
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Proteins are also found in the bilayer….
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The fluid-mosaic model of the cell-surface
membrane
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Movement across membranes
Molecules can pass across membranes by:
• Simple diffusion
• Facilitated diffusion
• Active transport
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The Permeability of the Plasma Membrane
The plasma membrane is partially permeable.
Macromolecules cannot pass through because of their size, and tiny charged molecules do not pass through the nonpolar interior of the membrane.
Small, uncharged molecules such as oxygen and carbon dioxide pass through the membrane, down their concentration gradient.
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How molecules cross the plasma membrane
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Diffusion
Diffusion is the passive movement of molecules from a higher to a lower concentration until equilibrium is reached.
Gases move through plasma membranes by diffusion.
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Process of diffusion
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Gas exchange in the lungs occurs by diffusion
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Facilitated diffusion
During facilitated diffusion, substances pass through a carrier protein following their concentration gradients.
Facilitated diffusion does not require energy.
For example, the carrier protein for glucose has two conformations and switches back and forth between the two, carrying glucose across the membrane.
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Facilitated diffusion of glucose
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Channel protein
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Movement of materials across a membrane may be passive or active.
Passive transport does not use chemical energy; diffusion and facilitated diffusion are both passive.
Active transport requires chemical energy and usually a carrier protein.
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Active transport
During active transport, ions or molecules are moved across the membrane against the concentration gradient – from an area of lower to higher concentration.
Energy in the form of ATP is required for the carrier protein to combine with the transported molecule and move it across the membrane.
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Active transport
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Transport by Carrier Proteins
Some biologically useful molecules pass through the plasma membrane through channel proteins and carrier proteins that span the membrane.
Carrier proteins are specific and combine with only a certain type of molecule.
Facilitated diffusion and active transportboth require carrier proteins.
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Carrier protein
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Carrier proteins involved in active transport are called pumps.
The sodium-potassium pump is active in all animal cells, and moves sodium ions to the outside of the cell and potassium ions to the inside.
The sodium-potassium pump carrier protein exists in two conformations; one that moves sodium to the inside, and the other that moves potassium out of the cell.
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The sodium-potassium pump
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FACILITATED DIFFUSIONMovement from high to lower concentrationUse of carrier/channel proteinProteins specificChanges shape of protein and passes through channel/membraneNo energy/ATP needed
ACTIVE TRANSPORTMovement against concentration gradientUse of carrier/intrinsic/pump proteinsProtein specific (to ion)Energy/ATP requiredEnergy used to change shape of proteins/attach ion to proteinIons moved through membrane as proteins change shape/position
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Active transport Diffusion
May move substances
against concentration
gradient;
Requires ATP/energy;
Requires membrane
proteins/carriers
Substances moved
down concentration
gradient;
Does not require
ATP/energy;
Does not (necessarily)
require membrane
proteins/carriers
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Homework – find out about the role of extrinsic proteins in a cell membrane. Be ready to explain this to a small group next lesson.
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Cell recognition protein
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In animal cells, the carbohydrate chains of cell recognition proteins are collectively called the glycocalyx.
The glycocalyx can function in cell-to-cell recognition, adhesion between cells, and reception of signal molecules.
The diversity of carbohydrate chains is enormous, providing each individual with a unique cellular “fingerprint”.
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Receptor protein
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Enzymatic protein
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Summary
The structure of the plasma membrane allows it to be
differentially permeable.
The fluid phospholipid bilayer, its mosaic of proteins,
and its glycocalyx make possible many unique
functions of the plasma membrane.
Passive and active methods of transport regulate
materials entering and exiting cells.