chapter 11: membrane transport know the terminology: active transport, symport, antiport, exchanger,...
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Chapter 11: Membrane transport
Know the terminology:Active transport, symport, antiport, exchanger, carrier, passive diffusion, facilitated diffusion, ATPase, ion channel, ion pump, permease, selectivity filter, gating, membrane potential, electrogenic, electroneutral, ABC transporter
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Principles of membrane transport
(1) Membranes are barriers to movement of water-soluble molecules.
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Principles of membrane transport
(2) Two classes of transport (Fig 11-4) -channels -carriers (=transporters, carriers, exchangers)
(3) Type of transport distinguished based upon how energy is used (Fig 11-8)
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Principles of membrane transport
(4) Kinetics (flux in relation to concentration)
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Passive and facilitated diffusionNet movements of molecules from one site from high concentration to low concentration is diffusion
Passive diffusion is unassisted
Its facilitated diffusion if a protein allows diffusion across a membrane barrier
Channels (with selective permeability) allow diffusion of ions down their concentration gradient
If molecules are charged, membrane potential is also an important force
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Active transport
Cells can use various forms of energy to drive transport against concentration or charge gradients
What kind of energy is used?–transport of some molecules fueled by the energy of ATP–membrane potential can drive the transport of charged molecules–Light
Transport that uses energy directly is considered primary active transport
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Active transport (secondary)
-others are transported against concentration gradients using the energy of an even greater gradient of a second molecule
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Terms and distinctionsUniporter: movement of one molecule
Coupled carriers: movement of one molecule in conjunction with a second -Symport: both molecules in the same direction -Antiport: molecules move in opposite directions (exchangers)
Electrogenic: movement results in the transfer of a chargeElectroneutral: no change in net charge as a result of transport
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ATPases
Many proteins use the energy of ATP hydrolysis to fuel transport.
(1) P-type ATPase e.g. Na+-K+ATPase
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ATPases
Many proteins use the energy of ATP hydrolysis to fuel transport.
(1) P-type ATPase Ca2+-ATPase is important in muscle activation
K+-H+-ATPase is important in acid secretion in stomach
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ATPases
Many proteins use the energy of ATP hydrolysis to fuel transport.
(2) V-type ATPaseMultimeric transporters often work in the reverse direction (ATP synthesis)
F1Fo ATPase is the mitochondrial ATP synthase
H+-ATPase of lysosomes acidify the organelle
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ATPases
(3) ABC TransportersMany proteins have an “ATP-Binding Cassette” and move large molecules across membranes
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ATPases
(3) ABC Transporters
-Multi-drug resistant protein can pump drugs out of cells. Some cancers become resistant to cancer therapy by increasing expression of MDR, either by gene duplication or increased transcription
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Ion channels
Ion channels are pores that permit the movement of specific ions.
When open, the channels allow ions to move down concentration gradients
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Ion channels
Can “transport” 100,000,000 ions/ sec
A “selectivity filter” restricts movement to specific ions
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Ion channelsMovement is controlled by regulating “openness” –the proportion of time spent in the open configuration
Ion channels can be regulated by specific conditions to be open or closed
If opened for a prolonged period, the channels can become desensitized
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Ion channels
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Types of ion channels
(1) Ligand-gated channels:
Usually opened by intracellular or extracellular ligands e.g. IP3-sensitive Ca2+ channel opens in the presence of IP3
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Ion channels
(2) Voltage-gated channels:
Altering voltage beyond a threshold will cause the channel to open.
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Ion channels
(3) Mechanically-gated channels:
e.g. “stretch-activated channels” open when cell shape is altered. Since channel is attached to the cytoskeleton, stretching causes a physical change in the protein
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Ion channels and membrane potential
Ion channels, ion pumps and an impermeable membrane allow a membrane potential (see Panel 2 for a discussion of the Nerst equation)
Animals have 2 unique types of tissues that depend rapid changes in membrane potential
Nerves and muscles are “excitable tissues”
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How do you describe these processes?