1-22 Membranes and Microscopy

Question 1

5 Functions of biological membranes

Answer 1

1. permeability layer
2. compartmentalization of functions
3. identification
4. signaling
5. energy storage

Question 2

describe the permeability barrier function of biological membranes

Answer 2

controls what gets in and what gets out

Question 3

describe the compartmentalization function biological of membra nes

Answer 3

allows functional compartmentalization

Question 4

describe the identification function of biological membranes

Answer 4

proteins/lips/carbs that occur on surface of cell to identify different cells. (ex. A and b antigens of AB blood type)

Question 5

describe the signaling function of membranes

Answer 5

receptors tell the inside of the cell what the conditions are on the outside

Question 6

describe the energy storage function of biological membranes

Answer 6

any time you create a gradient across a membrane, can be used as a source of energy. Gradients are used to drive molecule transport, drive oxydative phosphorylation in mitochondria.

Question 7

Common chemical features of membrane lipids

Answer 7

The membrane lipids are amphipathic molecules. Besides cholesterol, they have a three-carbon backbone with at least one fatty acid tail attached.

Question 8

phospholipids

examples?

hydrophilic parts?
hydrophobic parts?

Answer 8

membrane lipid with phosphate.

includes phosphoglycerides (hydrophobic fatty acid chains, hydrophilic phosphorylated alcohol)

and sphingomyelin (hydrophobic fatty acid chains, hydrophilic phosphoryl choline)

Question 9

glycolipids

example of?

describe.

hydrophobic parts? hydrophilic parts?

Answer 9

example of sphingolipid

sphingosine backbone with sugar (unlike phospholipids, not phosphate) attatched via ester bond.

hydrophobic parts - fatty acid chains, sphingosine hydrocarbon chain

sugar - hydrophilic

Question 10

cholesterol

structure?

hydrophobic parts? hydrophilic?

Answer 10

build on a four ring steroid structure with a hydrophobic head group.

Ring structure and hydrocarbon are hydrophobic

Question 11

the membrane proteins. do what?

Answer 11

• allow selective permeability
• carry out most of the specialized and specific cell functions of the membranes
• diffuse laterally (unless constrained) but don’t flip flop

Question 12

most membranes have more ____ than _____

Answer 12

protein, lipid

Question 13

peripheral membrane proteins

Answer 13

bound to membrane surface or to an integral protein.

released without disrupting bilayer

amphipathic molecules - hydrophobic regions interact with inner lipid part of membrane. hydrophobic regions interact with the head groups and aqueous environment.

Question 14

integral membrane proteins

Answer 14

penetrate the lipid bilayer

require detergents to be released (must disrupt bilayer)

have a defined topography (orientation) that will not change since it was inserted into the membrane

Question 15

how do lipids effect the physical characteristics of membranes?

interactions? 
kinks?
cholesterol content?
temperature?
transport?

Answer 15

hydrophobic interactions by tails dictate the shape.

kinks in fatty acid chains decrease interactions/packing and increase fluidity

cholesterol incorporation causes a net decrease in membrane fluidity

higher temperatures causes lipids to pack loosely

membrane allows for passive trasnport of small, nonpolar substances. Larger substances cannot pass through the tight packing of fatty acid tails and polar substances cannot pass through the hydrophobic tail region

Question 16

How do proteins effect the physcial characteristics of membranes?

Answer 16

Allow the membrane to be selectively permeable by carrying out facilitated diffusion. In general, proteins give specialized membranes their specialized characteristics

Question 17

what are the sources of variation between biological membranes?

Answer 17

all membranes made of same basic molecules

relative composition and kinds of proteins present allow for differences

membranes with different degrees of unsat, various amounts of cholesterol, different types of membrane proteins will have different physical and biochemical properties.

Question 18

The two halves of the bilayer must be

Answer 18

assymetrical

Question 19

lipid rafts

purpose?

Answer 19

1) Higher content of sphingo lipisd - glycolipids, sphingomyelin
2) Longer fatty acid chains

3) Lots of cholesterol
4) Packed tightly, move as raft

purpose - gathering areas for subsets of protein

Question 20

common chemical features of membrane lipids

Answer 20

amphipathic molecules.

Besides cholesterol, they have a three-carbon backbone with at least one fatty acid tail attached.

Question 21

phosphoglyceride

Answer 21

fatty acid chain (hydrophobic)
phosphorylated choline (hydrophilic)

Question 22

sphingomyelin

Answer 22

fatty acid chain & hydrocarbon chain of sphingosine (phobic)

phosphoryl choline (philic)

Question 23

glycolipid

Answer 23

fatty acid cahin and hydrocarbon chain of sphingosine

one or more sugars (philic)

Question 24

cholesterol

Answer 24

hydrophobic part (entire molecule but OH group)

philic part - the OH group.

Question 25

draw general structure of phosphoglycerides, sphingomyelin, and glycolipid

Answer 25

page 274

Question 26

formation of lipid bilayers in aqueous solution is a

Answer 26

spontaneous process

driven by hydrophobic effect, van der waals forces, and electrostatic/h-bond interactions between polar head groups and water

Question 27

lipid bilayers are ______

describe the compositions

Answer 27

outer half - phosphatidylcholine, sphingomyelin, glycolipids

inner half - phosphatidylserine and ethanolamine

cholesterol distributed evenly between 2 halves

Question 28

lipid bilayers are permable to

Answer 28

small uncharged polar molecules

hydrophobic molecules

Question 29

lipid bilayers are not permeable to

Answer 29

large uncharged polar molecules

ions

Question 30

scramblases

Answer 30

move random phospholipids from one half of bilayer to another, redistributing phospholipids evenly between the two halves of the lipid bilayer

Question 31

flippases

Answer 31

located on golgi and PM, move specific phospholipids from one side to another to create asymmetry

Question 32

in aqueous solution at pH 7, a lipid bilayer will be most permeable to which of the following molecules:

Na+ ion, Cl- ions, water, glucose, valine

Answer 32

water

Question 33

what determines if Na+ ions can cross a biological membrane?

Answer 33

the presence of INTERGRAL membrane proteins about to act as Na+ transporters.

Question 34

Summarize the factors affecting membrane fluidity (temp, concentration of unsaturated lipids, length of fatty acid chains, cholesterol content)

Answer 34

Increasing fluidity:
Higher temp
more unsaturated lipids
Shorter fatty acid chains
lower cholesterol content

Question 35

Which types of proteins are bound to surface of membrane and can be release without disrupting lipid bilayer

Answer 35

Peripheral membrane proteins

Question 36

Which types of proteins penetrate lipid bilayer and require detergents to release them from membrane bilayer. They transverse the entire lipid bilayer

Answer 36

Integral membrane proteins

Question 37

Where are membrane lipids synthesized?

Answer 37

ER

Question 38

How to newly synthesized lipids insert themselves into bilayer?

Answer 38

Newly synthesized phospholipids insert themselves exclusively into the cytosolic half of the bilayer

Question 39

What is a difference between the function of scramblase and flippase?

Answer 39

Scramblase flips lipids in the membrane to prevent asymmetry while flippase creates asymmetry that is needed for certain functions

Question 40

Which of the following forces is LEAST important in driving formation of a lipid bilayer in aqueous solution?

A. The hydrophobic effect (removal of the hydrophobic lipid tails from water)

B. van der Waals interactions between the hydrophobic tails of the lipids

C. Electrostatic interactions between phosphate groups in the polar head groups of neighboring lipid molecules

D.Hydrogen bonding interactions between the polar head groups of the lipids and surrounding water molecules

Answer 40

Electrostatic interactions (repulsion) between the phosphates can actually oppose bilayer formation; all of the other forces help drive formation.

Question 41

In aqueous solution at pH 7, a lipid bilayer will be MOST permeable to which of the following molecules:

A. Na+ ions

B. Cl- ions

C. water

D. glucose

E. valine as a free amino acid

Answer 41

Water