Membrane Chapter 7. Cell membrane Cell Membrane Plasma membrane Selective permeability Surrounds all...
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Transcript of Membrane Chapter 7. Cell membrane Cell Membrane Plasma membrane Selective permeability Surrounds all...
MembraneChapter 7
Cell membrane
Cell Membrane Plasma membrane Selective permeability Surrounds all living cells 2 molecules thick.
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Plasma Membrane Interacts with environment Exchanges information Manages movement in & out of
cell
Fluid mosaic model Revised in 1972 by Singer &
Nicolson Globular proteins imbedded in the
membrane Not surrounding the lipid layer Proteins “float” in the membrane
like boats in a pond.
Plasma membrane Lipid membrane (phospholipids) Protein passageways Allow water-soluble substances to
pass
Membrane Structure 1. Phospholipid layer 2. Cholesterol 3. Transmembrane proteins 4. Interior protein network 5. Cell surface markers
Membrane structure
Triglycerides Water insoluble Non-polar
Phospholipid Glycerol (3 carbon alcohol) 2 fatty acids Phosphate attached to 3rd carbon
Phospholipid bilayer Orients polar head toward water
molecules Non-polar tail away from water. Non-polar barrier to water soluble
molecules
Phospholipid bilayer Hydrophobic interactions hold
membrane together Phospholipids & unanchored
proteins move freely within the membrane
Cholesterol Located between lipids Increases or decreases fluidity Depends on temperature.
Cholesterol
Structures of membrane proteins 1. Peripheral proteins Attached to the surface membrane 2. Integral proteins Extend through the membrane Transmembrane proteins Partway
Structures of membrane proteins Non-polar section of protein Contact with the non-polar interior
(hydrophobic) Polar section of the protein Extends out of membrane
Transmembrane proteins 1. Single-pass anchors 2. Multiple-pass channels and
carriers 3. Pores
Aquaporins
Functions of membrane proteins 1. Transport Allow specific substances to enter or
leave 2. Enzymes Carry out reactions on interior
surface 3. Cell surface receptors Sensitive to chemical messages
Functions of membrane proteins
4. Cell surface identity markers Cell recognition between cells Glycoproteins 5. Cell adhesion proteins Proteins stick to each other Temporary or more permanently 6. Attachments to the cytoskeleton
Membrane Proteins
Membrane structure
Membrane formation Proteins & lipids made in ER Processed in Gogi apparatus Vesicles Fuse with membrane Correct orientation
Movement across the membrane 1. Passive transport 2. Bulk transport 3. Active transport
Passive transport Diffusion High concentration to areas of
lower concentration Concentrations are the same in all
regions
Passive transport Two conditions determine the
direction of the flow of ions 1. Relative concentration of the ion
on each side of the membrane 2. The voltage across the
membrane
Diffusion
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Osmosis Net movement of water across a
membrane Moves towards an area of lower
water concentration Or higher solute concentration Passive transport of water
Osmosis Osmoregulation: Control of water balance
Osmosis Hyperosmostic Solution with higher concentration of solute Has less water Hypoosmostic Solution with the lower concentration of solute Has more water Isosmostic Solutions have equal concentration of solutes
Solutions Solute Substance being dissolved Solvent Substance doing the dissolving
Solutions Hypertonic: Solution with higher concentration of
solute Hypotonic: Solution with lower concentration of
solute Isotonic Solutions with equal solute
concentrations
Facilitated diffusion Carriers transport Ions, aa or sugars across the
membrane Specific for type of solute Moves from high concentration to
low The carrier facilitates the process
Examples RBC diffusion of the bicarbonate
ion RBC diffusion of glucose
Facilitated diffusion 1. It is specific 2. It is passive 3. It saturate Carriers are saturated Transport rate cannot increase Despite the concentration gradient
Bulk transport Endocytosis Membrane envelops food particles 1. Phagocytosis 2. Pinocytosis 3. Receptor-mediated endocytosis
Bulk transport Phagocytosis: The cell engulfs particles Pinocytosis: The cell engulfs liquid Receptor-mediated: Transported molecules bind specific
receptors in the plasma membrane
Phagocytosis
Pinocytosis
Receptor-mediated
Exocytosis The reverse of endocytosis Discharge of materials from the
cell Secretion of many hormones,
neurotransmitters, digestive enzymes and other substances
Active transport Movement of substances against or
up the concentration gradient Low concentration to high Requires energy. Requires the use of ATP. Cell takes up substances into
cytoplasm that are already hypertonic to the extracellular fluid.
Sodium-potassium pump Protein transports Na and K ions
across the membrane. Every cycle transports 3 Na ions
out Exchange for 2 K ions into the cell Against concentration gradients.
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Coupled transport Molecule moves up its
concentration gradient Uses the drive from another
substance moving down its concentration gradient.
Na ions and glucose
Fig. 7-19
Proton pump
–
–
–
–
–
–
+
+
+
+
+
+
ATP
H+
H+
H+
H+
H+
H+
H+
H+
Diffusionof H+
Sucrose-H+
cotransporter
Sucrose
Sucrose