Components and Structure
Functions
o Defining the outer border of all cells and organelles
o Managing what enters and exits the cell
Selectively permeable
Allows some materials to freely enter or leave but other materials
cannot move freely
o Receiving external signals and initiating cellular responses
o Adhering to neighboring cells
Fluid Mosaic Model
o A mosaic of components that give the membrane a fluid character
o Plasma membrane has three principal components
Lipids, proteins, carbohydrates
o Cholesterol is a lipid comprised of four fused carbon rings
o Proportions may vary, but typically:
Protein: 50%
Lipids: 40%
Carbs: 10%
o Carbohydrates present only on membrane exterior surface and are attached to proteins,
forming glycoproteins, or attached to lipids, forming glycolipids
o Asymmetric; inner surface differs from the outer surface
Interior surface proteins anchor fibers of the cytoskeleton to the membrane
Exterior surface proteins bind to the extracellular matrix
Glycoproteins bind to substances the cell needs to import
Phospholipids
o Main fabric is composed of an amphiphilic (having both hydrophilic and hydrophobic
parts) lipid molecule called phospholipid
A phosphate group (polar)
A glycerol molecule
2 fatty acid chains
Each fatty acid can be either saturated or unsaturated
Carbons are saturated with hydrogen - all single C-C bonds
Unsaturated when at least one double C=C bond occurs
o Phospholipid Bilayer
Phospholipids arrange themselves in a bilayer
Polar heads face outward
Hydrophobic tails face inward
Proteins
o Second major component of membranes
o Function as transporters, receptors, enzymes, or in binding and adhesion
o Integral membrane proteins- integrated completely into the bilayer
One or more regions that are hydrophobic are others that are hydrophilic
Hydrophobic regions can be α helical or beta sheets
Locations and number of regions determine how they arrange within the bilayer
Beta-blocker pills block the effects of the hormone epinephrine, aka adrenaline
o Peripheral membrane proteins- occur only on the surfaces
Attached to either integral proteins or to phospholipids
, May serve as enzymes
Part of the cell's recognition sites, components of signaling pathways
o Rhodopsin is a light-sensitive receptor protein involved in visual phototransduction
Mutations causing blindness disease
o Membrane Proteins
Carbohydrates
o Oligosaccharide carbohydrates
o Located on exterior surface of the plasma membrane, bound to either proteins or to
lipids
Membrane Fluidity
o Plasma membrane needs to be flexible but not so fluid that it cannot maintain its
structure
o Fluidity is affected by:
Phospholipid type- phospholipids with saturated fatty acids can pack together
more closely than those with unsaturated FA
Temperature- cold temperatures compress molecules making membranes more
rigid
Cholesterol- located within the fatty acid layer, acts as a fluidity buffer; keeping
membranes fluid when cold and from not getÝng too fluid when hot
Passive Transport
Plasma membrane is selectively permeable
o Cytosol solutions to differ from extracellular fluids
o Transport across a membrane can be either
Passive transport- requiring no energy
Active transport- requiring energy (ATP)
Passive Transport
o Diffusion- when a substance from an area of high concentration moves down its
concentration gradient
In membranes this occurs through the lipid bilayer
Factors that affect diffusion rates
Concentration gradients- greater difference, faster diffusion
Mass of the molecules- smaller molecules diffuse more quickly
Temperature- molecules move faster when temperatures are higher
Solvent density- dehydration increases density of cytoplasm, reduces
diffusion rates
Solubility- more nonpolar (lipid-soluble) materials diffuse faster
Surface area- increased surface area speeds up diffusion rates
Distance travelled- the greater the distance, the slower the rates;
important factor affecting upper limit of cell size
Pressure- in some cells, blood pressure forces solutions through
membranes, speeding up diffusion rates
o Net movement ceases once equilibrium is achieved
o Only small, nonpolar molecules
o Facilitated passive transport moves substances down their concentration gradients
Channel proteins
Top, bottom, and inner core are composed of hydrophilic amino acids
Some are always open while others are "gated"
Functions
o Defining the outer border of all cells and organelles
o Managing what enters and exits the cell
Selectively permeable
Allows some materials to freely enter or leave but other materials
cannot move freely
o Receiving external signals and initiating cellular responses
o Adhering to neighboring cells
Fluid Mosaic Model
o A mosaic of components that give the membrane a fluid character
o Plasma membrane has three principal components
Lipids, proteins, carbohydrates
o Cholesterol is a lipid comprised of four fused carbon rings
o Proportions may vary, but typically:
Protein: 50%
Lipids: 40%
Carbs: 10%
o Carbohydrates present only on membrane exterior surface and are attached to proteins,
forming glycoproteins, or attached to lipids, forming glycolipids
o Asymmetric; inner surface differs from the outer surface
Interior surface proteins anchor fibers of the cytoskeleton to the membrane
Exterior surface proteins bind to the extracellular matrix
Glycoproteins bind to substances the cell needs to import
Phospholipids
o Main fabric is composed of an amphiphilic (having both hydrophilic and hydrophobic
parts) lipid molecule called phospholipid
A phosphate group (polar)
A glycerol molecule
2 fatty acid chains
Each fatty acid can be either saturated or unsaturated
Carbons are saturated with hydrogen - all single C-C bonds
Unsaturated when at least one double C=C bond occurs
o Phospholipid Bilayer
Phospholipids arrange themselves in a bilayer
Polar heads face outward
Hydrophobic tails face inward
Proteins
o Second major component of membranes
o Function as transporters, receptors, enzymes, or in binding and adhesion
o Integral membrane proteins- integrated completely into the bilayer
One or more regions that are hydrophobic are others that are hydrophilic
Hydrophobic regions can be α helical or beta sheets
Locations and number of regions determine how they arrange within the bilayer
Beta-blocker pills block the effects of the hormone epinephrine, aka adrenaline
o Peripheral membrane proteins- occur only on the surfaces
Attached to either integral proteins or to phospholipids
, May serve as enzymes
Part of the cell's recognition sites, components of signaling pathways
o Rhodopsin is a light-sensitive receptor protein involved in visual phototransduction
Mutations causing blindness disease
o Membrane Proteins
Carbohydrates
o Oligosaccharide carbohydrates
o Located on exterior surface of the plasma membrane, bound to either proteins or to
lipids
Membrane Fluidity
o Plasma membrane needs to be flexible but not so fluid that it cannot maintain its
structure
o Fluidity is affected by:
Phospholipid type- phospholipids with saturated fatty acids can pack together
more closely than those with unsaturated FA
Temperature- cold temperatures compress molecules making membranes more
rigid
Cholesterol- located within the fatty acid layer, acts as a fluidity buffer; keeping
membranes fluid when cold and from not getÝng too fluid when hot
Passive Transport
Plasma membrane is selectively permeable
o Cytosol solutions to differ from extracellular fluids
o Transport across a membrane can be either
Passive transport- requiring no energy
Active transport- requiring energy (ATP)
Passive Transport
o Diffusion- when a substance from an area of high concentration moves down its
concentration gradient
In membranes this occurs through the lipid bilayer
Factors that affect diffusion rates
Concentration gradients- greater difference, faster diffusion
Mass of the molecules- smaller molecules diffuse more quickly
Temperature- molecules move faster when temperatures are higher
Solvent density- dehydration increases density of cytoplasm, reduces
diffusion rates
Solubility- more nonpolar (lipid-soluble) materials diffuse faster
Surface area- increased surface area speeds up diffusion rates
Distance travelled- the greater the distance, the slower the rates;
important factor affecting upper limit of cell size
Pressure- in some cells, blood pressure forces solutions through
membranes, speeding up diffusion rates
o Net movement ceases once equilibrium is achieved
o Only small, nonpolar molecules
o Facilitated passive transport moves substances down their concentration gradients
Channel proteins
Top, bottom, and inner core are composed of hydrophilic amino acids
Some are always open while others are "gated"
