Tutorial - Week 5 - Lipids & biomembranes

Question 1

Key concept: Understand the classification of lipids

Question 2

Key concept: Become familiar with the structure and nomenclature of lipids

Answer 2

1. Fatty acids (acyl chain + carboxylic group)
2. Saturated vs unsaturated chains (no double bonds
   vs double bonds)
3. Triacylglycerols (glycerol + 3 fatty acids)
4. Waxes (long alcohol + long fatty acid)
5. Phospholipids (glycerol + phosphate + polar group
   + 2 fatty acids)
6. Sphingolipids (sphingosine + 1 fatty acid (+ polar
   group))
7. Sterols (e.g. cholesterol)

Question 3

Key concept: Gain knowledge on the major biological functions of lipids

Answer 3

1. Energy storage
2. Structural components of membranes
3. Signaling

Question 4

Key concept: Understand the structure and function of biomembranes

Answer 4

1. Composition: Lipids + proteins
2. Structure: fluid mosaic (i.e. lipid bilayers with proteins embedded
   associated via non-covalent bonds)
3. Organisation: lipid asymmetry (across layers) and within layer
4. Proteins associated with membranes: embedded, peripheral, or lipid-linked

Question 5

What are lipids?

Answer 5

Lipids are molecules that are soluble in organic solvents:

• Insoluble in water (hydrophobic: ‘water phobia’)
• Do not form polymers (in contrast with other biomolecules)
• Possess different forms, properties and functions

Question 6

What are the important biological functions that lipids have? (3 points)

Answer 6

1. Energy storage (highly efficient form to store energy)
2. Structural components of biological membranes (i.e. form barriers)
3. Signaling (intra and extracellular, e.g. hormones, vitamins)

Question 7

Name the three lipid functions and give examples within each:

Answer 7

1. Energy Storage
   * Fatty acids
   * Triacylglycerols
   * Waxes
2. Structure
   * Phospholipids
   * Sphingolipids
   * Sterols
   *Biomembranes
   * Lipid bilayer organisation and properties
   * Structure & function
3. Signaling
   * Steroid hormones
   * Eicosanoids
   * Vitamins

Question 8

What are fatty acids?

Answer 8

Fatty acids are carboxylic acids with hydrocarbon chains

Question 9

Do fatty acids have an even or uneven number of carbons?

Answer 9

Normally have an even number of carbons (4 – 36 carbons)

Question 10

What is the difference between saturated and unsaturated fatty acids?

Answer 10

Saturated (all carbons are saturated, full hydrogenated, only single bonds, C-C)

Unsaturated (some carbons have double bonds, C=C)
* Monounsaturated (one double bond)
* Polyunsaturated (more than one double bond)

Question 11

Name the type of fatty acid

Answer 11

Question 12

Name the type of fatty acid

Answer 12

Question 13

How are fatty acids named?

Answer 13

Named by the Number of C atoms : number of double bonds (position of double bonds)

• Carbons are numbered from the carboxyl (COOH) end
• ∆ is used to denote double bond

Question 14

Name this fatty acid correctly

Answer 14

Question 15

What is the storage lipid?

Answer 15

Triacylglycerol

Question 16

Fatty acids normally exist as __________, known as _____________

Answer 16

derivatives

triacylglycerol

Question 17

Esterified definition?

Answer 17

changed into an ester (= a chemical compound produced by a reaction between an acid and an alcohol, in which the hydrogen of the acid has been replaced by an alkyl group of atoms): Esterified oils produce less greasy donuts than liquid oils, but they are expensive and can have flavour issues.

Question 18

Other names for triacylglycerol and what they are, structurally speaking?

Answer 18

Triacylglycerol (triglyceride, or just fat): glycerol esterified with 3 fatty acids

Question 19

Label

Answer 19

Question 20

What are Saturated Fats?

Answer 20

Triacylglycerols with saturated fatty acids (no double bonds)

Question 21

What are Unsaturated Fats?

Answer 21

Triacylglycerols with unsaturated fatty acids (with double bonds)

Question 22

If saturated, fatty acid tails are…? (Structure and interactions)

Example?

Answer 22

Straight and packed tightly (stronger
van der Waals interactions)

‘Hard fats’, like butter and other
mammalian fats are solid at room
temperature (not so healthy)

Question 23

If unsaturated, fatty acid tails have…? (Structure and interactions/bonds)

Example?

Answer 23

Kinks and cannot pack tightly (weaker van der Waals interactions)

Oils obtained from plants and fish (e.g.
olive oil) are liquid at room temperature
(healthier than saturated

Question 24

Label both

Answer 24

Question 25

Double bonds in naturally occurring unsaturated fatty acids are in which configuration and what is the structural result?

Answer 25

cis configuration and get a kink

Question 26

Name the type of fatty acid, it’s state at room temperature, and why it has that state

Answer 26

Question 27

Name the type of fatty acid, it’s state at room temperature, and why it has that state

Answer 27

Question 28

Name the type of fatty acid, it’s state at room temperature, and why it has that state

Answer 28

Question 29

Why did the food industry start to process vegetable oils? Why was it a necessity?
How do they process them/what process do they use?

Answer 29

Vegetable oils are normally liquid at room temp (not great to bake), and turn rancid when exposed to oxygen in the air (become rancid via cleavage of double bonds.

Hydrogenation is used to add H to the double bonds to convert some of the double bonds in single bonds)

Results in:

1. Improve shelf life of vegetable oils
2. More solid and more spreadable (e.g. cooking margarine)
3. More resistant to high temperatures (e.g. blended oils used for deep-
   frying)

Question 30

What process turns unsaturated fats into saturated fats?

Answer 30

Hydrogenation

Question 31

What are the storage lipids?

Answer 31

Waxes

Question 32

Structure of waxes?

Answer 32

1. long chain of saturated or
   unsaturated fatty acids (C14 to C36)
2. long chain alcohol (C14 to C30)
3. Linked by an ester bond

Question 33

Function of waxes?

Answer 33

1. Energy Storage (e.g. plankton)
2. Water repellent (e.g. beeswax)

Question 34

Name the molecule and the bond

Answer 34

Question 35

What is the consistency of wax, melting point, and is it higher than those of TAGs (triacylglycerides)?

Answer 35

Firm consistency (Melting points (60-100 o C) higher than those of TAGs)

Question 36

Beeswax is an ester of…?

Answer 36

Palmitic acid with alcohol triacontanol

Question 37

What are the 3 structural lipids with roles in the biomembrane?

Answer 37

1. Phospholipids (e.g. phosphatidylcholine)
2. Sphingolipids (e.g. sphingomyelin)
3. Sterols (e.g. cholesterol)

Question 38

What are phospholipids also known as?

Are they the most abundant in cell membranes?

Are they hydrophobic or hydrophilic?

What does their structure contain?

Answer 38

Glycerophospholipids

Most abundant lipid in cell membranes

Amphipathic (polar and non-polar regions)(hydrophilic and hydrophobic)

Structure contains:
* Glycerol
* Phosphate often linked to a polar group (R)
* 2 fatty acids (linked via ester bond

Question 39

I’m what ways does the head group in the phospholipid vary?

Answer 39

In size and charge

Question 40

What does the head group of a phospholipid define?

Answer 40

The class of phospholipid

Question 41

Define zwitterion

Answer 41

a molecule or ion having separate positively and negatively charged groups

Question 42

Main characteristics of each?

1. Phosphatidic acid (PA):
2. Phosphatidylethanolamine (PE):
3. Phosphatidylcholine (PC):
4. Phosphatidylserine (PS):
5. Phosphatidylglycerol (PG):
6. Phosphatidylinositol (PI):

Answer 42

1. very small, negative
2. small, zwitterion
3. zwitterion
4. negative, multiple charged groups
5. negative
6. negative, carbohydrate

Question 43

The fatty acids in the phospholipids also vary. How?

Answer 43

1. Length (C12-24)
2. Saturated vs unsaturated (1, 2 and 3 double bonds)
3. Modulate fluidity of the phospholipid

Question 44

What are the structural lipids called?

Answer 44

Sphingolipids

Question 45

Characteristics of sphingolipids:

Answer 45

• Derivatives of sphingosine (long-chain amino alcohol)
• No glycerol
• Amphipathic (polar & non-polar regions)
  (Hydrophilic & hydrophobic

Question 46

What does the structure of sphingolipids contain?

Answer 46

1. sphingosine
2. long chain fatty acid
3. Polar head group (via glycosidic or phophodiester bond

Question 47

The head group of a sphingolipid defines the…?

Answer 47

Head group defines the class of sphingolipid:

Question 48

Sphingolipids:

1. Ceremide = ?
2. Sphingomyelin is the most…?
3. Glycolipids have…?

Answer 48

1. sphingosine + fatty acid
2. the most common sphingolipid in membranes
3. carbohydrate instead of a phosphate group

Question 49

What is the most common phospholipid class in mammalian membranes?

Answer 49

Phosphatidylcholine

Question 50

What is the most common sphingolipid class in mammalian membranes?

Answer 50

Sphingomyelin

Question 51

What are the two types of glycolipids?

Answer 51

Glycosylated Phospholipids or Sphingolipids

Question 52

What are the three main points of glycolipids?

1. What groups do they have attached?
2. Where are they found?
3. What is their function?

Answer 52

1. Have attached sugar groups
2. Found on the non-cytosolic side of a cell membrane bilayer
3. Function in cell recognition

Question 53

Sterols are ________ lipids present in __________ of most ___________ cells

Answer 53

structural

membranes

eukaryotic

Question 54

1. What is the most common sterol?
2. Similar sterols exist in…?
3. Can bacteria synthesise sterols

Answer 54

1. The most common sterol is mammalian cells is cholesterol
2. Similar sterols exist in plants and fungi
3. Bacteria cannot synthesise sterols

Question 55

What does the cholesterol structure contain?

Answer 55

Cholesterol structure contains:
- 4 fused rings: 3 with 6C, 1 with 5C
- Hydrocarbon side chain (non-polar)
- Polar head group

Question 56

What is the function of cholesterol? (4 points)

Answer 56

1. Integral part of biological membranes
2. Increases the rigidity of membranes
3. Increases the impermeability of membranes
4. Very important to maintain the integrity of cells

Question 57

T/F: Phospholipids, sphingolipids and cholesterol are virtually insoluble in water

T/F: They are also amphipathic

Answer 57

True

True

Question 58

What happens when lipids of the lipid bilayer are mixed with water?

Answer 58

When mixed with water they cluster together and from aggregates

Question 59

Fatty acid chains are hidden in the interior of the lipid membrane via ______________ (reduction of contact
with water), and once in close proximity can establish van der Waals interactions

Answer 59

Hydrophobic effect

Question 60

The polar group of the lipid bilayer are exposed to water and can establish _______ with water molecules

Answer 60

H-bonds

Question 61

Phospholipids/sphingolipids with unsaturated fatty acids are less packed, the membrane is more ______

Answer 61

Fluid

Question 62

Phospholipids/sphingolipids with ________________ can pack better and establish stronger van de
Waals interactions (more rigid, thicker)

Answer 62

saturated fatty acids

Question 63

Label each

Answer 63

Question 64

Label

Answer 64

Question 65

Cholesterol - describe (4 main points)

Answer 65

1. Polar group located close to the polar head of phospholipids
2. Ring structure is planar and rigid:
   - It Inserts in the hydrophobic region of the bilayer
   - Immobilises fatty acid chains of phospholipids
3. Increases rigidity and thickness of bilayers
4. Decreases permeability

Question 66

Describe the Fluid mosaic model

What are the interactions between?

How can the components move?

Answer 66

• mosaic with a pattern (lipid and protein organization), but fluid, dynamic
• Interactions between its components are noncovalent
• Components can move laterally in the plan of the membrane

Question 67

Label the blue and red lines

Answer 67

Question 68

What are the lipid components of membranes?

Answer 68

1. Phospholipids (e.g. phosphatidylcholines, phosphatidylserines)
2. Sphingolipids (e.g. sphingomyelin & glycolipids)
3. Cholesterol

Question 69

List the Protein components of membranes…

1. How are they attached?

2/3. Which portions are where

Answer 69

1. Proteins are embedded in the bilayer
2. Hydrophobic portions are in the interior of the bilayer
3. Hydrophilic portions exposed to the outside & inside the cell are different

Question 70

T/F: Lipid bilayers are symmetrical

Answer 70

False - they are asymmetric

Question 71

Label

Answer 71

Question 72

Lipid organisation within membranes:

1. Are there different lipids in each layer?
2. What effects membrane charge?
3. Lipid distribution also affects what?
4. What is on the outer leaflet, how are they exposed, and what role do they play?
5. What about the lipid bilayer modulate the distribution of which important macromolecule?
6. Certain macromolecules interact together - which ones?

Answer 72

1. Different lipids in each bilayer
2. Lipid distribution affects membrane charge (negative lipids are located in the intracellular side)
3. Lipid distribution affects membrane fluidity
4. Glycolipids on the outer leaflet: carbohydrates are surface exposed and have a role in cell recognition
5. Lipid bilayer composition and organisation modulate protein distribution
6. Certain lipids interact with membrane proteins

Question 73

Describe lipid rafts (3 points)

1. What are they?
2. Physical characteristics (2 points)
3. Associations?

Answer 73

Lipid rafts:
1. Clusters in membranes enriched in cholesterol (Chol) and sphingomyelin (SM)
2. Thicker & more rigid
3. Some proteins associate with lipid rafts

Question 74

Label

Answer 74

Question 75

Which one is fluid and which is more rigid?

Answer 75

Question 76

Label

Answer 76

Question 77

List the three types of Membrane proteins:

Answer 77

1. Integral (AKA as transmembrane or embedded)
2. Peripheral (associated loosely via ionic bonds
   and H-bonds with polar headgroups or other
   proteins)
3. Lipid-anchored

Question 78

What are these all examples of?

Answer 78

Question 79

_________________ are mainly located in the hydrophobic region of the lipid bilayer. They avoid contact
with water

Answer 79

Hydrophobic amino acids

Question 80

_____ & ______ are amphipathic amino acids, and they normally locate at the interface of polar headgroup and the
apolar hydrocarbon region

Answer 80

Trp and Tyr

Question 81

___________ (___________) are found in the aqueous phase (intracellular or extracellular portions)

Answer 81

Charged residues (Lys, Arg, Glu, Asp)

Question 82

What are the two intracellular lipids involved in signalling?

Answer 82

1. Phospholipids (e.g. phosphatidylinositols)
2. Sphingolipids (e.g. ceramide)

Question 83

What are the extracellular lipids that are involved in signalling?

Answer 83

Extracellular: Hormones (endocrine/paracrine)
1. Eicosanoids (paracrine: act locally)
2. Steroids (endocrine: travel via blood stream)
3. Vitamin D

Question 84

List the three steps to this process of membrane lipids involved in intracellular signaling

Answer 84

Question 85

List the two steps of membrane lipids involved in intracellular signaling

Answer 85

Question 86

What carry messages to nearby cells

Answer 86

Eicosanoid hormones

Question 87

Describe eicosanoids (4 points)

Answer 87

1. Essential fatty acids are required for their synthesis
2. Derivatives of fatty acids with 20 Carbons (i.e. arachidonic acid 20:4 (D5,8,11,14 )
3. Some have 5-, or 6-membered ring
4. Paracrine hormones (i.e. act close to the site of synthesis))

Question 88

Label

Answer 88

Question 89

1. NSAIDs meaning?
2. What do they do?

Answer 89

1. NSAIDs: nonsteroidal
   anti-inflammatory drugs
   (e.g. aspirin, ibuprofen)
2. Block the formation of prostagladins and thromboxanes by inhibiting the
   enzyme prostaglandin H2 synthase (also known as cyclooxygenase)
   Pain killer & anti-coagulant properties

Question 90

Where do steroid hormones carry messages between?

Answer 90

Tissues

Question 91

Steroid hormones:

1. What do they function as?
2. What are they (in terms of sterol?)
3. Their structure?
4. More or less polar than cholesterol?
5. How do they move through the bloodstream?
6. What do they bind to and where?
7. Trigger what?

Answer 91

1. They function as endocrine hormones (i.e. secreted in
   the blood steam to act in distinct tissues)
2. Oxidised derivatives of sterols (e.g. cholesterol)
3. Have the sterol rings but lack the alkyl chain
4. More polar then cholesterol
5. Move through the blood stream (on protein carriers) to target tissues
6. Bind to highly specific receptor proteins in the nucleus
7. Trigger changes in gene expression (activation/inhibition)

Question 92

Label

Answer 92

Question 93

Give three examples of steroid hormones and describe

Also label these

Answer 93

1. Sex hormones
   Androgens (e.g. testosterone expressed in the testes)
   Estrogens (e.g. estradiol expressed in the ovaries)
2. Hormones produced by adrenal cortex
   Cortisol, regulates glucose metabolism
   Aldosterone, regulates salt excretion

3.Steroid drugs
Strong anti-inflammatory activity
Treatment of asthma and rheumatoid arthritis

Question 94

What are the three types of steroid drugs and what do each do?

Answer 94

1. Anabolic steroid drugs:
   - Mimic androgens, such as testosterone
   - Drugs that help the growth and repair of muscle tissues
   - Pharmaceutical use to treat hormonal problems or muscle loss
   - Used as performance and image enhancing drugs (PIEDs)
2. Corticosteroids (e.g. prednisone & cortisone)
   - Mimic hormones from adrenal cortex
   - Suppress immune system (e.g. used during organ transplants)
   - Reduce inflammatory conditions (e.g. arthritis, asthma or skin rashes)
3. Contraceptive steroids
   - Mimic estrogens and progestins
   - Used for birth control

Question 95

T/F: Some vitamins are lipids & hormone precursors

Answer 95

True

Question 96

Four main points of Vitamin D:

Answer 96

Vitamin D (or calcitriol)

1. 7-dehydrocholesterol is activated by UV light in the skin (Vit D3) and converted into calcitrol in the liver and kidney
2. Vit D3 & Vit D2 (similar structure) are present in some foods, or added as supplements
3. Calcitriol is a hormone that regulates calcium levels in the intestine, kidney & bone
4. Deficiency in calcitriol leads to defective bone formation and the disease of rickets

Question 97

Vitamin A (or all-trans retinol) - 2 main points:

1. b-________ is obtained from?
2. its __________ regulate what?

Answer 97

1. b-carotene is obtained from diet
2. its metabolites regulate processes of cell growth and
   differentiation, and vision

Question 98

Key concept: Lipids involved in signalling

Answer 98

1. Cell membrane lipids (intracellular, second messengers)
2. Steroid hormones (sex hormones, adrenocortex hormones)
3. Eicosanoids, derivatives of 20C fatty acids
4. Vitamins (e.g. A & D are hormone precursors)