1 Cell Homeostasis & Transport Ch. 4
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1
Cell Homeostasis &
TransportCh. 4
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Cell Membrane – the border between the
cell’s innards and the outside world….
Phospholipid
Carbohydrate
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Prior Knowledge…
• Homeostasis is the maintenance of a constant internal environment.
• Potential energy is stored energy, whereas kinetic energy is the energy of motion.
• Lipids are part of the phospholipid, whereas proteins play integral roles in cellular communication (markers, receptors, channels).
• Cell membrane is selectively permeable, meaning it has the ability to regulate which materials enter or exit the cell (e.g. toxins or necessary molecules) in order to maintain homeostasis.
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Passive TransportPassive Transport• The process that enables material to move
across a cell membrane in the direction of the concentration gradient without requiring energy.
• Four types of passive transport:
– Diffusion
– Osmosis
– Facilitated Diffusion
– Ion Channels
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Concentration GradientConcentration Gradient
• All four types of passive transport
mechanisms operate with the
concentration gradient.
• Concentration gradient = a change
in the concentration of a substance
across a space.
Concentration gradient
video clip →
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DiffusionDiffusion• The process by which molecules of a
substance move from areas of high concentration of that substance to areas of lower concentration– Occurs until equilibrium is reached.
Equilibrium is a state in which no net change occurs (concentration of the substances on both sides of the membrane are equal).
Click here for video
Click here for video
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Diffusion, continued…
• Selectively permeable membranes allow certain molecules to pass via diffusion
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OsmosisOsmosis• Diffusion of water molecules through a
selectively permeable membrane from an area
of high concentration to an area of lower
concentration
– Will always move towards a higher concentration of solute since there is less water concentration there
Osmosis
video clip
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Osmosis, continued…
• Osmotic pressure – a measure of the solute concentration of a solution
– Solute – a substance dissolved in a solution
(usually a solid), such as glucose or salt
– Solvent – in a solution, the substance in
which the solute is dissolved (liquid), such as
water
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Osmotic Pressure, continued…• We use the following
terms to describe the osmotic pressures of solutions:
• Isotonic – a solution whose concentration equals that inside a cell
• Hypertonic – a solution whose solute concentration is higher than that inside a cell
• Hypotonic – A solution whose solute concentration is lower than that inside a cell
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Problems with Osmosis:
• Single-celled freshwater organisms (e.g.
Paramecium) live in a hypotonic environment
– Must use contractile vacuole to pump out
excess water
• Some multicellular organisms pump solutes out to “dilute” the solute inside the cytosol
• Plant’s cell walls prevent from expanding –turgor pressure
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PlasmolysisPlasmolysis
• Occurs when cells lose water in hypertonic solutions.
– Happens to plants when they are excessively
fertilized or are in water with excess minerals.
– Observed through wilting.
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CytolysisCytolysis
• Cells cannot always compensate for excess water intake and just burst –cytolysis (cyto = cell, lyse = burst)
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Facilitated DiffusionFacilitated Diffusion
• The transport of molecules across a membrane along with the concentration by a carrier protein.
• Similar to diffusion, except uses a carrier protein (goes with the c.g. & no energy)
a. Carrier protein
binds to
molecule
b. Carrier protein
changes shape
c. Molecule
released on
other side
Carrier protein & substrate must be specific
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Ion ChannelsIon Channels• Membrane proteins that provide a
passageway across the cell membrane through which ions (charged atoms or molecules) can diffuse.
• Ions are polar (charged) and can’t pass by nonpolar lipids
• Na+, K+, Ca2+, and Cl- require specific ion channels
• Stimuli open/close gated channels:– Cell membrane stretching
– Electric signals
– Chemicals in the cytosol or external environment
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RememberRemember……..
Phospholipids
make up the cell
membrane
Hydrophilic head
Hydrophobic tail
Marker proteins (with CHO
tag) identify the cell’s type
Channel proteins allow
larger/charged molecules to
pass through the membrane
Receptor proteins receive
information from outside the
cell and transmit it inside
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Active TransportActive Transport
• Often cells must move materials “against”or “up” the concentration gradient (from low to high concentration). This requires energy and is known as active transport.
– Cells might need to stockpile glucose for fuel
or ions in order to create a charge difference
across a membrane.
• Active transport = energy-requiring process that enables material to move across the cell membrane against a c.g.
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ATP = cellular energyATP = cellular energy
• ATP = Adenosine
Triphosphate
– Ribose, adenine, triphosphate
group
• Energy is stored in the high-
energy bonds between the
phosphate groups
• Energy is released/used
when 3rd phosphate is
cleaved off and is “donated”
to another molecule
• Energy from ATP drives
many cellular reactions
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Cell Membrane PumpsCell Membrane Pumps
• Type of active transport in which carrier proteins move molecules across the cell membrane against their c.g.
• Similar to carrier proteins in facilitated diffusion – specific to certain substrates
• Different because they require energy to operate against the c.g.
• Enables cells to concentrate molecules (e.g. glucose or ions)
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SodiumSodium--Potassium PumpPotassium Pump
• Type of cell membrane pump (active)
• Na+-K+ pump establishes a membrane potential = difference in charge across a membrane which allows nerve impulses to travel along nerve cells (action potentials)
• Pumps Na+ ions out and K+ in
• Requires ATP (cellular energy)
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NaNa++--KK++ Pump, continuedPump, continued……a. 3 Na+ ions bind to carrier
proteinb. ATP donates one phosphate
group to the carrier protein giving it energy
c. Phosphate binding causes carrier protein to change shape and release the 3 Na+ ions outside the cell
d. This allows 2 K+ ions to bind to the carrier protein
e. Phosphate group releases from carrier protein causing it to change shape again
f. The 2 K+ ions are released into cell’s interior
All of this generates a net negative
charge inside the cell and a positive charge outside the cell!!!
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EndocytosisEndocytosis• Used to take large
materials into a cell by means of infoldings of the cell membrane– Phagocytosis –
engulfing solids
– Pinocytosis – engulfing liquids
• Cell membrane folds in & forms a small pouch
• Pouch pinches off from the cell membrane
• Vesicle enters the cell
• Remember the Amoeba!
Phagocytes are cells in animals that
purposely ingest bacteria & viruses and
then fuse with a lysosome to use its
digestive enzymes.
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ExocytosisExocytosis• Large molecules are
removed from the cell by the fusion of a vesicle with the cell membrane and then the material being expelled from the cell
• May be used to release the proteins synthesized by ribosomes (Golgi apparatus creates the vesicle)
• Nervous system releases neurotransmitters to initiate nerve impulses
• Endocrine system releases hormones
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