STRUCTURE AND FUNCTIONS OF MEMBRANE

Question 1

EXPLAIN THE IMPORTANCE OF MEMBRANES

Answer 1

COMPARTMENTALISATION = individual compartments with different functions can occur at the same time

BIOCHEMICAL PROCESSES = transport of electrons, oxidative phosphorylation, photosynthesis

INFORMATION PROCESSING - transmission of nerve impulses and effects of hormones

Question 2

NAME FATTY SATURATED ACIDS

Answer 2

-Saturated fatty acids can be tightly packed by hydrophobic interactions of their chains
-> palmitic and stearic acids

Question 3

NAME UNSATURATED FATTY ACIDS

Answer 3

have a coiled side chain, due to cis
double bonds, which keeps the membranes in a fluid state
-> as they are deformed due to cis bonds, they cannot effectively stick together

is Unsaturated fatty acids have kink(s) in their chains that limit how close their chains pack, hence they are more fluid

trans Unsaturated fatty acids are tightly packed because their rigid double bond and no kink in chains (reduced fluidity)

o linoleic acid, arachidonic acid - ω-6 fatty acids, essential
o linolenic acid - ω-3 fatty acids, essential

Question 4

WHAT ARE THE PREDOMINATING LIPIDS OF MEMBRANES?

Answer 4

phospholipids

Question 5

HOW ARE FATTY ACIDS CLASSIFIED?

Answer 5

a) Short Chain FA (up to 6 carbons)
b) Medium Chain FA (less than 12 carbons)
c) Long Chain FA (12 to 18 carbons)
d) Very Long Chain FA (more than 18 carbons)

Question 6

WHICH TYPE OF FATTY ACIDS PREDOMINATE IN HUMAN FAT?

Answer 6

Long chain FA predominate in human fat (TAG, triacylglycerols)

Question 7

LIST OF FATTY ACIDS

Answer 7

Question 8

WHAT DO NATURAL OCCURING FATTY ACIDS OF ANIMAL LIPIDS CONTAIN?

Answer 8

Naturally occurring FA of animal lipids contain even number of carbons and cis double bonds

Question 9

WHAT ARE THE COMPONENTS OF PHOSPHATIDIC ACID?

Answer 9

2x FFA + glycerol + H3PO4
-ester bonds
-precursor of all TAG and most phospholipids

Question 10

WHAT ARE THE COMPONENTS OF GLYCEROPHOSPHOLIPID?

Answer 10

phosphatidic acid + another component (containing Nitrogen)
-at a high concentration of phospholipids, they start forming double layers of 7nm
thickness
-middle carbon of glycerophospholipids and TAG are chiral

4 OTHER COMPONENTS:
-choline
-serine
-ethanolamine
-myo inositol

Question 11

NAME 4 GLYCEROPHOSPHOLIPIDS

Answer 11

phosphatidylethanolamine (cephalin) – formed by the attachment of ethanolamine

-phosphatidylserine – formed by the attachment of serine

-phosphatidylinositol – formed by the attachment of myo-inositol, on to inner leaflet
- phosphatidylinositol phosphate - phospholipid, other part of membrane – has signaling function

MAJOR MEMBRANE PHOSPHOLIPIDS^^^

other glycerophospholipids
-plasmalogen
-DIphosphatidylGLYCEROL = CARDIOLIPIN

Question 12

WHAT DO SPHINGOPHOSPHOLIPIDS CONTAIN?

Answer 12

1 FA, sphingosine, phosphate, aminoalcohol

Question 13

WHAT ARE SPHINGOMYELINS?

Answer 13

consist of:
- sphingosine = C18, 2x -OH, -NH2 (alcohol)
- ceramide = FA +sphingosine (amide bond)
- sphingomyelin = ceramide + H3PO4 + choline

->they form the myelin sheath of neurons

Question 14

EXPLAIN GLYCOLIPIDS

Answer 14

-derived from sphingosine
-instead of phosphoric acid they have a sugar, usually galactose
-saccharide component -> galactose, glucose, oligosaccharide, N-acetylneuraminic acid

CEREBROSIDES = ceramide + monosaccharide
-> found in white matter myelin

GANGLIOSIDES = ceramide + oligosaccharide
-> ganglions
(globoside + one or more acidic sugar moieties)

GLOBOSIDES = ceramide + more than one sugar: galactose, glucose, N-acetylgalactose amine

SULFATIDE = cerebroside containing sulfatated galactose

Question 15

WHAT ARE PHOSPHOLIPID FORMATIONS?

Answer 15

-> micelles – round structures made of phospholipids; surface is hydrophilic inner part is hydrophobic
-> bilayers – at high concentrations micelles independently turn into bilayers = membranes
-> liposomes – balls made of bilayer

Question 16

WHAT IS THE POLARITY OF PHOSPHOLIPIDS?

Answer 16

amphoteric
-> hydrophilic head (phosphate and base)
-> hydrophobic tail (FA chain)

Question 17

NAME THE 2 TYPES OF DIFFUSION IN THE MEMBRANE

Answer 17

-lateral
-transverse

Question 18

EXPLAIN TRANSVERSE DIFFUSION IN THE MEMBRANE

Answer 18

-very slow
-rotation about their own axis
-flip flop movement
-membrane lipids exchange between layers this way

Question 19

EXPLAIN LATERAL DIFFUSION IN THE MEMBRANE

Answer 19

-around 1 μm/s, considered fast
-sidewards movement
-membrane lipids move within the membrane monolayer this way

Question 20

CHOLESTEROL

Answer 20

-in membranes mainly in non-esterified form
-stabilizes the speed of phospholipids in membrane – at lower temperature’s it speeds them up and protects them from solidifying and at higher temperatures it slows them down protecting them from dissolving
-It is the major precursor for the synthesis of vitamin D, of the various steroid hormones, including cortisol, cortisone, and aldosterone in the adrenal glands, and of the sex hormones progesterone, estrogen, and testosterone
-an animal sterol found in the body tissues (and blood plasma) of vertebrates. It can be found in large concentrations within the liver, spinal cord, and brain
about 20% of membrane lipid mass
* Rigid (compact) but not planar (chair conformation)
* Packed within the spaces between adjacent phospholipid molecules (in „kinks“ of unsaturated FA) with its –OH
oriented to the polar heads of a neighboring phospholipids
* Found in both membrane leaflets

Question 21

EXPLAIN THE FUNCTION OF GASEOUS ANAESTHETICS AND GIVE 2 EXAMPLES

Answer 21

dissolve in membrane and protect against the movement of substances/ions, which disrupts the transmission of nerve impulses and causes the patient to fall unconscious

EG: diethyl ether, halothane (2-brom-2-chlor-1,1,1-trifluorethane)

Question 22

HOW HYDRPPHOBIC AND HYDROPHILIC SUBSTANCES ACT DIFFERENTLY IN WATER

Answer 22

Question 23

EXPLAIN THE MOVEMENT OF MOLECULES THROUGH THE MEMBRANE

Answer 23

FREE DIFFUSION: non polar and polar small substances

FACILITATED DIFFUSION: large polar substances and charged substances

Question 24

WHAT ARE MEMBRANE PROTEINS?

Answer 24

proteins which are integrated into the phospholipid bilayer cell membrane

Question 25

WHAT FORMS MICELLES?

Answer 25

cone shaped amphiphilic molecules

Question 26

WHAT FORMS BILAYERS?

Answer 26

cylinder amphiphilic shaped molecules
EG: PHOSPHOLIPIDS

Question 27

EXPLAIN PERIPHERY PROTEINS

Answer 27

• do not go across whole membrane
• placed on inner or outer sheet of cell membrane
  -enzymes or receptors
  -polar
  -weak interactions with lipid membrane

EG: spectrin of erythrocytes, cytochrome C and ATP-ase of mitochondria and acetylcholinesterase in electroplax membranes

Question 28

EXPLAIN INTEGRAL PROTEINS

Answer 28

penetrate across the phospholipid membrane once or several times
o function as ion channels, membrane receptors or ensure the transport of
different substances across the membrane
o transport membrane proteins allow easier diffusion of substances across the membrane
-strong interactions with bilayer
-non polar

EG: membrane bounded enzymes, drug and hormone receptors, antigen and rhodopsin.

Question 29

WHAT IS THE EQUATION FOR OSMOTIC PRESSURE?

Answer 29

π = ci * R * T

(ci - osmolarity – concentration of all osmotically active particles [Osmol/L]
o ci (osmol/L) = i * c (mol/L))

Question 30

WHAT IS THE OSMOLARITY OF BLOOD PLASMA?

Answer 30

300 mOsmol/L

Question 31

EXPLAIN THE DIFFERENT TYPES OF OSMOTIC SOLUTIONS

Answer 31

hypertonic – higher concentration of particles - plasmolysis (water leaves cell)

isotonic – balanced concentration – nothing is happening

hypotonic – lower concentration of particles - plasmoptysis (water goes into cell and
causes it to break)

Question 32

EXPLAIN MEMBRANE POTENTIAL

Answer 32

• membrane potential is formed by the different concentration of ions inside and outside the cell – inside mainly
  negative charge, outside positive
• inside - K+ and negatively charged proteins
• outside - Na+ a Cl-
• two forces apply here

o electrical – because all molecules are charged, they attract or repel each other - K+ and Na+ want to go in, Cl- and proteins want to go out

o concentration - K+ and proteins want to go out, Na+ and Cl- want to go in
o when these two forces are put together, they form an electrochemical gradient
- because K+ want to go in (due to the electrical force) but even out (due to the concentration gradient), these two forces
will compete and K+ will partly leak out of the cell causing a more positive charge outside than inside

Question 33

CARBOHYDRATES OF THE ABO BLOOD SYSTEM

Answer 33

Question 34

WHAT ARE THE DIFFERENCES BETWEEN PASSIVE AND ACTIVE TRANSPORT?

Answer 34

Active transport uses energy (ATP) for the moving the molecules in and out of the cellular membranes and therefore remain active, while in passive transport the molecules do not use energy for their movements

-Active transport moves from regions of high-low concentrations = AGAINST GRADIENT
Passive transport moves from regions of low-high concentrations = ALONG GRADIENT

-Active transport is fast unidirectional upwards
Passive is slow bidirectional downwards

-Active transport = Endocytosis, Exocytosis, Proton pumps and Sodium potassium pumps
Passive transport = osmosis and diffusion

Question 35

TRANSPORT OF MEMBRANE PROTEINS

Answer 35

rER → GA→ membrane

Question 36

TRANSPORT OF LYSOSOMAL PROTEINS

Answer 36

rER → GA → lysosome

Question 37

TRANSPORT OF PROTEINS FOR EXPORT

Answer 37

rER (proteosynthesis, posttranslational modifications)
→ transport vesicles → GA: more posttranslational modifications (phosphorylation, glycosylation, removal of saccharides) → secretion vesicles → exocytosis

Question 38

EXPLAIN RAFT DOMAINS

Answer 38

Question 39

WHERE DO GLYCOLIPIDS OCCUR?

Answer 39

only in the outer leaflet of the plasma membrane

Question 40

WHICH MOLECULES ACCOUNT FOR AROUND 18% OF ALL HUMAN PHOSPHOLIPIDS?

Answer 40

plasmalogens and ether phospholipids
-> high in heart and brain

Question 41

WHERE IS CARDIOLIPIN ABUNDANT?

Answer 41

inner mitochondrial membrane

Question 42

WHICH MOLECULES OCCUR IN THE INNER LEAFLET OF PLASMA MEMBRANE?

Answer 42

phospholipids with serine, ethanolamine and inositol

Question 43

WHAT DO THE MOST ABUNDANT PHOSPHOLIPIDS CONTAIN?

Answer 43

choline

Question 44

WHICH PHOSPHOLIPID PREDOMINATES IN THE OUTER LEAFLET OF CELL MEMBRANE?

Answer 44

phosphatidyl choline predominates
-phosphatidylserine is also here

Question 45

HOW IS MEMBRANE FLUIDITY AFFECTED BY LIPID COMPOSITION?

Answer 45

higher presence of unsaturated or shorter FA (and lower amount of cholesterol) increases membrane fluidity at lower temperature, whereas long saturated FA (or trans FA) and
more cholesterol stabilize membranes and make them less permeable