3b. Biochemistry - Carbs & Lipids

Question 1

What is biochemistry?

Answer 1

Science concerned with the chemical and physiochemical processes and substances that occur within living organisms

Question 2

Which elements are carbohydrates made from?

Answer 2

C-H-O

Question 3

How are the carbon atoms usually arranged?

Answer 3

In a ring with O2 and H attached

Question 4

Why do carbohydrates have many -OH groups?

Answer 4

So they can form hydrogen bonds

Question 5

What is the benefit of carbohydrates having many -OH groups?

Answer 5

Smaller carbs such as simple sugars can dissolve easily in water

Question 6

What are the three classes of carbs?

Answer 6

Monosaccharides
Disaccharides
Polysaccharides

Question 7

How are monosaccharides constructed?

Answer 7

With 3-7 C atoms

Question 8

Examples of monosaccharides

Answer 8

Glucose
Fructose
Galactose
Deoxyribose
Ribose

Question 9

How are disaccharides constructed?

Answer 9

2 monosaccharides joined together by dehydration reaction

Question 10

Examples of disaccharides

Answer 10

Sucrose
Lactose
Maltose

Question 11

Which two monosaccharides make up sucrose?

Answer 11

Glucose

Fructose

Question 12

Which two monosaccharides make up lactose?

Answer 12

Glucose

Galactose

Question 13

Which two monosaccharides make up maltose?

Answer 13

Glucose

Glucose

Question 14

How are polysaccharides structured?

Answer 14

10s-100s of monosaccharides joined together by dehydration reaction
Long chains of glucose

Question 15

Examples of polysaccharides

Answer 15

Glycogen
Starch
Cellulose

Question 16

What characteristic do most monosaccharides have?

Answer 16

Sweet taste

Question 17

Which monosaccharide is the sweetest?

Answer 17

Fructose

Question 18

How are monosaccharides grouped?

Answer 18

Into families named after the number of carbon atoms

Question 19

What are the names of the monosaccharide groups?

Answer 19

Triose (3 carbons)
Pentose (5 carbons)
Hexose (6 carbons)
Heptose (7 carbons)

Question 20

What are isomers?

Answer 20

They have the same chemical formula but different structures

same number of Lego bricks used to make different structures

Question 21

Examples of isomers

Answer 21

Glucose
Galactose
Fructose

Question 22

What is the name of the bond that joins two monosaccharides together to form a disaccharide?

Answer 22

Glycosidic bond

Question 23

How is a glycosidic bond created?

Answer 23

Through dehydration synthesis

Question 24

How is a disaccharide broken down?

Answer 24

Water is put back in during digestion

Known as hydrolysis

Question 25

When is maltose formed?

Answer 25

During the hydrolysis of starch

Question 26

What percentage of cow’s milk is lactose?

Answer 26

5%

Question 27

What percentage of human milk is lactose?

Answer 27

7%

Question 28

Why are polysaccharides normally insoluble in water?

Answer 28

They have given up so many -OH groups

Question 29

Do polysaccharides taste sweet?

Answer 29

No

Question 30

Where does the digestion of polysaccharides begin?

Answer 30

In the oral cavity

Question 31

What is the most common type of polysaccharide in the body?

Answer 31

Glycogen

Question 32

What is each glycogen molecule made up of?

Answer 32

Around 60,000 glucose molecules

Question 33

What is the function of glycogen?

Answer 33

Short-term energy

Question 34

Where is most glycogen made?

Answer 34

Liver

Question 35

Where is most glycogen stored?

Answer 35

Liver

Muscles

Question 36

What can glycogen in the liver be used for?

Answer 36

Maintain blood sugar levels

Question 37

What can glycogen stored in the muscles be used for?

Answer 37

Energy for that particular muscle

Question 38

What is cellulose?

Answer 38

Structural material of plants

Found in plant cell walls

Question 39

How is cellulose constructed?

Answer 39

Flat, ribbon-like strands

Joined together with bonds

Question 40

Why can’t we digest cellulose?

Answer 40

We don’t have the correct enzymes to break down the bonds

Question 41

What is the function of cellulose?

Answer 41

Fibre to assist with the movement of materials through the intestine

Question 42

Which polysaccharide is the main dietary source?

Answer 42

Starch

Question 43

Which foods can starch be found in?

Answer 43

Bread
Rice
Pasta

Question 44

Where does digestion of starch begin?

Answer 44

In the oral cavity

Question 45

What is starch made up of?

Answer 45

20-25% amylose

75-80% amylopectin

Question 46

How is amylose constructed?

Answer 46

Single chain of glucose units

Question 47

How does the structure of amylose affect its digestion?

Answer 47

Straight chain which limits amount of surface area exposed for digestion

Question 48

What is amylose also known as?

Answer 48

Resistant starch

as it is digested more slowly

Question 49

What can some resistant starch end up doing in the large intestine?

Answer 49

Feeding the bacteria there

Question 50

How is amylopectin constructed?

Answer 50

Glucose chains but with branches

Question 51

How does the structure of amylopectin affect its digestion?

Answer 51

More surface area available for digestion

Broken down quickly

Question 52

What affect does the digestion of amylopectin have in the body?

Answer 52

Broken down quickly
= rise in blood sugar levels
= rise in insulin

Question 53

What are the functions of carbs?

Answer 53

Primary fuel for energy production
Also limited amount of energy stored
Fibre

Question 54

What are the therapeutic uses of carbs as fibre?

Answer 54

Bowel function
Protect against colorectal cancer
Protect against CVD
Protect against diabetes
Increase satiety

Question 55

Which processes are carbs used for?

Answer 55

ATP production
Glycogen synthesis
Triglyceride synthesis
Amino acid synthesis

Question 56

How are carbs digested?

Answer 56

Oral cavity - salivary amylase starts to break down the ends of the long glucose chains
Small intestine - pancreatic amylase (from pancreas) breaks down polysaccharides into disaccharides
Brush border enzymes break them down further - lactase, maltase, sucrase

Question 57

Which elements are lipids made from?

Answer 57

C-H-O

but in a different ratio to carbs

Question 58

How are lipids different in structure to carbs?

Answer 58

Have fewer -OH groups

Question 59

What does having fewer -OH groups mean for lipids?

Answer 59

They are hydrophobic

Question 60

How do lipids move around the body?

Answer 60

Often bond to a protein to make them more soluble

Question 61

What are lipids bonded to proteins called?

Answer 61

Lipoproteins

Question 62

What is the main form of dietary fat?

Answer 62

Triglycerides

Question 63

How are triglycerides constructed?

Answer 63

A single glycerol molecule

3 fatty acid chains

Question 64

How are the fatty acids attached to the glycerol?

Answer 64

By dehydration synthesis and the ester bond

Question 65

How are triglycerides broken down?

Answer 65

By hydrolysis

like carbs

Question 66

What are the functions of triglycerides?

Answer 66

Protection of body parts/organs
Insulation
Energy
Storing excess calorific intake

Question 67

How are saturated fats constructed?

Answer 67

Single covalent bonds between each of the fatty acid carbon atoms
Each carbon atom is saturated with hydrogen atoms

Question 68

How do saturated fatty acid chains appear?

Answer 68

Very straight

Question 69

What quality does the very straight fatty acid chain give to saturated fats?

Answer 69

More likely to be solid at room temperature

Question 70

Example of a saturated fat

Answer 70

Coconut oil

Question 71

How are monounsaturated fats constructed?

Answer 71

Mainly single covalent bonds between each of the fatty acid carbon atoms but with one double covalent bond between two carbons

Question 72

How do monounsaturated fatty acid chains appear?

Answer 72

Slight bent
(due to the double bond)

Question 73

What quality does a monounsaturated fat have?

Answer 73

Generally liquid at room temperature because the molecules aren’t as packed together

Question 74

Example of a monounsaturated fat

Answer 74

Olive oil

Question 75

How are polyunsaturated fats constructed?

Answer 75

Contain more than one double covalent bond in the carbon chain

Question 76

How do polyunsaturated fatty acid chains appear?

Answer 76

Kinked

Question 77

What quality does a polyunsaturated fat have?

Answer 77

Liquid at room temperature

Question 78

Examples of polyunsaturated fats

Answer 78

Sunflower oil
Rapeseed oil
Vegetable oils

Question 79

How are fatty acids named?

Answer 79

According to the closest double bond to the end of the chain without O2

Question 80

How can you recognise omega 3 from a diagram?

Answer 80

The double bond is 3 carbons up from the end

Question 81

How can you recognise omega 6 from a diagram?

Answer 81

The double bond is 6 carbons up from the end

Question 82

What two configurations are possible within unsaturated fats?

Answer 82

Cis

Trans

Question 83

What is a cis configuration?

Answer 83

When the H atoms are on the same side of the double bond

Question 84

What is a trans configuration?

Answer 84

When the H atoms are on separate sides of the double bond

Question 85

Which H atom configuration is more prevalent in nature?

Answer 85

Cis

Question 86

How does a cis fatty acid appear?

Answer 86

Bent

Question 87

How does a trans fatty acid appear?

Answer 87

In a line

Question 88

What can fatty acids do to cell membranes?

Answer 88

Cis - makes the membrane more flexible

Trans - makes the membrane stiffen

Question 89

What, physiologically, can stiff cell membranes lead to?

Answer 89

Oxidative damage

Leaky cell membranes

Question 90

How can cis fats be turned into trans fats?

Answer 90

By heating them to high temperatures

Through hydrogenation reactions used to make processed foods and margarine (trans fat)

Question 91

What are essential fatty acids (EFAs)?

Answer 91

Polyunsaturated fatty acids that can’t be constructed within the body
Need to be obtained from the diet

Question 92

What are the families of EFAs?

Answer 92

Omega 3

Omega 6

Question 93

Why is omega 3 important to get from the diet?

Answer 93

The body can’t make it from scratch

Question 94

What are the types of omega 3s?

Answer 94

ALA (alpha-linolenic acid)
EPA (eicosapentaenoic acid)
DHA (docosahexaenoic acid)

Question 95

What are the types of omega 6s?

Answer 95

LA (linolenic acid)
GLA (gamma linolenic acid)
AA (arachidonic acid)

Question 96

Sources of omega 3 - ALA

Answer 96

Flaxseeds
Walnuts
Green leafy veg

Question 97

Sources of omega 3 - EPA + DHA

Answer 97

Oily fish

Question 98

Sources of omega 6 - LA

Answer 98

Veg oils
Nuts
Seeds

Question 99

Sources of omega 6 - GLA

Answer 99

Borage oil

Evening primrose oil

Question 100

Sources of omega 6 - AA

Answer 100

Meat
Dairy
Eggs

Question 101

Should omega 6s be avoided?

Answer 101

No

For healthy cells and healthy cell to cell communication, a diet would ideally contain a variety of both omega 3 and 6

Question 102

Which EFA is the Western diet rich in?

Answer 102

Omega 6

particularly AA

Question 103

Why should we consume less omega 6?

Answer 103

It’s pro-inflammatory

Question 104

In which order are omega 3s converted?

Answer 104

ALA - EPA - DHA

Question 105

In which order are omega 6s converted?

Answer 105

LA - GLA - AA

Question 106

What is needed to make the conversion of one EFA to another?

Answer 106

Desaturase enzymes to add in double bonds

Question 107

What is the conversion rate for omega 3s and 6s?

Answer 107

10%

in favour of the EFA in abundance - usually 6

Question 108

Functions of EFAs

Answer 108

Fluidity and structure of cell membranes
Synthesis of prostaglandins
Joint lubrication
Transporting cholesterol
Haemoglobin formation

Question 109

Why are polyunsaturated fats/EFAs prone to becoming free radicals?

Answer 109

Electrons are lost during heating

New free radical further reacts with O2 in the air over the cooking pan which makes it even more damaging

Question 110

Where are damaged fats incorporated?

Answer 110

Into cell membranes

Question 111

How is oxidation of fatty acids accelerated?

Answer 111

Heat
Oxygen
Light

Question 112

How are polyunsaturated fats best kept?

Answer 112

In dark glass bottles in fridge

Never heat up

Question 113

Which fat is best for cooking with at higher temperatures?

Answer 113

Saturated e.g. coconut oil

Question 114

Which is best for cooking with - OO or EVOO?

Answer 114

EVOO

Question 115

What do lipoproteins contain?

Answer 115

Triglycerides

Cholesterol

Question 116

Where are lipoproteins synthesised?

Answer 116

Liver

Question 117

What are the types of lipoproteins?

Answer 117

VLDL - very low density lipoproteins
LDL - low density lipoproteins
HDL - high density lipoproteins

Question 118

What are VLDL?

Answer 118

Carry newly synthesised triglycerides (those converted from excess carbs) from the liver to adipose tissue

Question 119

What are high VLDL a sign of?

Answer 119

Over-eating

Question 120

What are LDL?

Answer 120

Carry cholesterol from the liver to cells of the body

Question 121

Why do we need LDL?

Answer 121

Repair cells
Support cell membranes
Synthesise sex and adrenal hormones

Question 122

What are HDL?

Answer 122

Collect cholesterol from body cells back to the liver

Question 123

How are phospholipids structured?

Answer 123

Glycerol head

2 fatty acid chains

Question 124

What are the qualities of the phosphate head of a phospholipid?

Answer 124

Lots of -OH molecules
Hydrophilic
Polar
Water soluble

Question 125

What are the qualities of the fatty acid tails of a phospholipid?

Answer 125

Hydrophobic
Non-polar
Fat soluble

Question 126

What do the fatty acid tails of the phospholipid contain?

Answer 126

Saturated fat
Unsaturated fat
(to support healthy cell membrane that’s not too rigid or fluid)

Question 127

What are steroids?

Answer 127

Lipids formed from cholesterol

Question 128

How do steroids appear?

Answer 128

4 rings of carbon atoms joined together at their base

Question 129

What are sterols?

Answer 129

Steroid bases that contain a -OH group

Question 130

What are steroids used for?

Answer 130

Create hormones

Question 131

What is meant by amphiphatic?

Answer 131

Phospholipids are soluble on one side and insoluble on the other