118785130 lecture on membrane transport by dr mudassar ali roomi
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Membrane Transport
By
Dr. Mudassar Ali Roomi (M.B; B.S., M. Phil.)
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Extracellular & Intracellular fluid
composition is different!!
ECF Vs ICF
Na+ > Na+
K+ < K+
Cl- > Cl-PO4
--- < PO4---
Proteins < Proteins
Transport mechanisms are responsible for Differentialcomposition of ECF & ICF.
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ECF & ICF composition is
different!!
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Lipid barrier of cell membrane &
Cell membrane transport proteins:
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Different types of transport across
a selectively permeable membrane: Diffusion or passive transport:
1. Simple Diffusion
2. Facilitated Diffusion
3. Osmosis
Active transport Primary Active Transport
Secondary Active Transport1. Secondary Active Co-transport
2. Secondary Active Counter-transport
Endocytosis1. Pinocytosis
2. Phagocytosis
Exocytosis
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What is the Composition of cell
membrane??
Lipid bilayer.
Large no. of protein molecules in the lipid(including many penetrating proteins).
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Lipid bilayer as barrier against
water molecules & water-soluble substances:
Lipid barrier is not miscible with ECF or ICF.
Allows lipid soluble substances to penetrate
directly through the lipid substance.
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Penetrating proteins
as
transport proteins:
Channel proteins:
Have watery spaces thatpenetrate throughout themolecule.
Allow free movement ofwater, selected ions ormolecules.
Highly selective.
Carrier proteins:
Bind with molecules orions to be transported.
Undergo conformationalchange.
Leading to movement ofsubstances through the
interstices of protein toother side of membrane.
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Types of Passive transport:
1. Simple diffusion.
2. Facilitated diffusion.
3. Osmosis.
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DIFFUSION
Movement of substances
down the conc. gradient
either through opening in
cell membrane or in
combination with carrier
protein, caused by simple
kinetic motion of
molecules without the useof energy is called
diffusion.
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Simple Vs
Facilitated
Diffusion:
SIMPLE DIFFUSION
Movement of highlypermeable moleculefrom region of highconcentration to lowerconc. Without the help
of carrier protein andwithout use of energy.
Example: transport ofO2 and CO2 across
the membrane.
FACILITATED DIFFUSION
Movement of substancesacross the cell membrane incombination with carrierprotein towards concentrationgradient without utilization of
energy. Example: glucose transport
through the GLUTtransporters.
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Some important definitions
OSMOLE:
No. of particles in one mole of un-dissociated solute is
called one osmole.
1 osmole = 6.02 x 1023
particles. OSMOLALITY:
No. of osmole of solute per kg of water is called
osmolality
OSMOLARITY:
Osmole per liter of solution.
In usual practice.
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Osmotic Pressure:
Definition: The exactamount of pressurerequired to stop osmosisis called Osmotic
Pressure. Osmotic pressure is
directly proportional to thenumber of osmoticallyactive particles. **
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Factors affecting rate of diffusion across a
selectively permeable membrane:
1. Effect of conc. difference across membrane
2. Velocity of kinetic motion.
3. Effect of temperature
4. No. & size of openings (channels) in the membrane.
5. Lipid solubility of the substance.6. Water solubility of the substance.
7. Size of molecules.
8. Selective permeability of protein channels.
9. Opening or closing of many protein channels by gates.10.Effect of pressure difference across membrane
11.Effect of membrane electrical potential (Nernstpotential)
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Effect of conc. difference on net
diffusion through a membrane:
The rate at which the substance diffuses inward is directlyproportional to the concentration difference of molecules across themembrane
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Effect of membrane electrical potential on
diffusion of ions-
the Nernst Potential Electrical potential if applied across the
membraneElectrical charges ofions cause them to move through themembrane, even in the absence ofconcentration difference.
Conc. difference of ions develops in
the direction opposite to electricalpotential difference.
Ions keep moving until the 2 effectsbalance each other.
Definition: At normal body
temperature, the electrical differencethat will balance a given conc.difference of univalent ions is called asNernst potential or equilibriumpotential.
EMF (mV) = +/- 61 log C1C2
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Effect of pressure difference across
the membrane:
Pressure inside the bloodcapillary is about 20 mmHggreater than outside.
So, at arterial end of the
capillary fluid is filtered out.
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Diffusion through the cell membrane:
Simple diffusion& Facilitated diffusion
Simple diffusion
Kinetic movement of
ions / molecules
through a membraneopening /
intermolecular spaces
without any
interaction with carrierproteins in the
membrane.
Facilitated diffusion
Requires interaction of a
carrier protein.
Carrier protein binds
chemically with & shuttlesions / molecules through the
membrane.
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2 pathways for simple diffusion:
Through interstices of
lipid bilayer if diffusing
substance is lipid
soluble.
Through watery
channels that
penetrate all the way
through largetransport proteins.
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Diffusion of lipid-soluble substances
through the lipid bilayer
The main factor effecting the rate ofdiffusion through lipid bilayer is lipidsolubility of the substance.
Examplesof highly lipid solublesubstances:
1. Oxygen,
2. nitrogen,
3. carbondioxide,
4. alcohol.
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Diffusion of water & other lipid-insoluble
molecules through protein channels:
Rapid penetration
through protein
channels:
e.g., Water & other lipid-insoluble
(water-soluble & small
molecules).
Slow penetration:
Water-soluble larger
molecules.
e.g., urea molecule
(size is 20 % > water;
penetration is 1000 x < water).
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Diffusion through Protein Channels
& Gating of these channels:
Tubular pathways from ECF to ICF.
Simple diffusion from one side ofmembrane to other across protein
channels.
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two important characteristics of
protein channels:
1. Often show selective
permeability for one
or more specific ions
or molecules.2. Most channels are
gated (can be
opened or closed by
gates).
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Specificity of protein channels:
It is due to certain characteristics which are :
1. Channel diameter
2. Shape of the channel
3. Nature of electrical charges
4. Chemical bonds along their inner surfaces
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Characteristics of sodium-channel:
(specific for sodium ion passage) 0.3 to 0.5 nm diameter.
Strong Negative charge on inside.
Pull small dehydrated sodium ions inside, pullingsodium ions away from hydrating watermolecules.
Once in the channel, sodium ions diffuse ineither direction, according to laws of diffusion(down the concentration gradient)
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Selective permeability of protein
channels for potassium ions:Potassium channels:
Slightly smaller channels.
Not negatively charged.
Chemical bonds are different. Nostrong attractive forces pullsodium ions away from watermolecules that hydrate them.
Hydrated form of potassium ion is
smaller, which can pass easilythrough small potassium channel.
Sodium channels:
Slightly bigger channels.
Negatively charged on inside.
Chemical bonds are different. Strongattractive forces pull sodium ionsaway from water molecules thathydrate them.
Hydrated form of sodium ion is
bigger, as sodium ion attracts morewater molecules. They cannot passthrough small potassium channel,resulting into selective permeabilityfor a specific ion.
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Gating of protein channels
Significance:
Selective gating of sodium& potassium ionsControl of ion
permeability of thechannels.
Mechanism:
Some gates are extensionsof transport proteinmolecule open andclose by conformationalchange
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Voltage& Ligand gating
Voltage gated:
When strong negative chargeinside the cell membrane (atRMP):
Sodium gates remain closed.
When inside of membrane losesits negative charge:
Sudden opening of sodiumgatesmassive sodium influxonset of action potential.
When inside becomes positive: Potassium gates open
potassium effluxterminationof action potential.
Chemical / Ligand gated:
Example:
Effect of Acetylcholine onacetylcholine channelgate
opens (negatively chargedpore of 0.65 nm diameter)passage of unchargedmolecules / positive ionssmaller than 0.65 nm.
Important at:
Nerve to nerve junction &
Nerve to Muscle junction
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4 types of gated channels:
LIGAND GATED Some protein channel gates are opened by the binding of a
chemical substance with them.
e.g acetylcholine channels.
VOLTAGE GATED.
Some protein channel gates respond to electrical changes acrossthe cell membrane. e.g. sodium potassium channels.
PHOSPHORYLATED GATED CHANNELS
When ATP is broken down to ADP a phosphate group is released
which attaches to the protein channel causing its phosphorylationleading to opening and closing of these channels.
STRETCH OR PRESSURE GATED CHANNELS
Mechanical stretch of membrane results in channel opening.
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Facilitated Diffusion:
Carrier mediated diffusion.
Carrier facilitates diffusion of thesubstance to the other side.
Examples:Glucose & most Amino Acids.
In presence of insulin, glucose transport
increases 10-20-fold.Glucose carrying protein has molecular
weight of 45,000.
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Facilitated diffusionVs Simple diffusion:
Facilitated diffusion
Rate of diffusion reaches
a maximum (Vmax
), as
the concentration of
diffusing substance
increases & cannot rise
greater than V max
Simple diffusion
Rate of diffusion varies
directly with concentration
of diffusing substance (if
the channel is open).
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What limits the rate of
facilitated diffusion: Saturation of carrier
molecules.
The rate of transport cannot
be greater than the rate at
which carrier protein
molecule can undergo
change back & forth
between its 2 states.
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Primary Active Transport:
Sodium-potassium pump: The sodium potassium pump is a
complex of two separate globularproteins.
Smaller protein might anchor theprotein complex in the lipid membrane
The larger protein has three specific
features that are important for thefunctioning of the pump:
1. It has three receptor sites for bindingsodium ions on the portion of theprotein that protrudes to theinside ofthe cell.
2. It has two receptor sites for potassiumions on the outside.
3. The inside portion of this protein nearthe sodium binding sites has ATPaseactivity.
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