Molecules

Question 1

Water is/can… (5)

Answer 1

• a reactant
• a solvent
• a habitat
• transports substances
• help with temperature control

Question 2

Structure of water

Answer 2

There is one atom of oxygen joined by two hydrogen atoms as the shared negative hydrogen electrons are pulled towards the oxygen atoms. The unshared negative electrons on the oxygen give it a slightly negative charge, making it a polar molecule. It also contains hydrogen bonds due to the difference in charges

Question 3

What is specific heat capacity

Answer 3

The energy required to raise the temperature of 1 gram of substance by 1 degree celcius

Question 4

What do hydrogen bonds absorb

Answer 4

Lots of energy

Question 5

Does water have a high or low specific heat capacity

Answer 5

High

Question 6

What is high latent heat of evaporation

Answer 6

Lots of energy is used up when water evaporates

Question 7

Does water have a high latent heat of evaporation

Answer 7

Yes due to the hydrogen bonds

Question 8

What is cohesion

Answer 8

The attraction between molecules of the same type e.g two water molecules as they are polar

Question 9

Why is cohesion useful

Answer 9

Helps water to flow so useful for transporting substances

Question 10

What property does a polar molecule have

Answer 10

It is a good solvent so can dissolve

Question 11

Why is ice less dense than water

Answer 11

Ice molecules are held further apart so ice is less dense than water therefore ice will float

Question 12

What are carbohydrates made from

Answer 12

Polymers called Monosaccharides

Question 13

What is a hexose monosccharide

Answer 13

Monosaccharide with six carbon atoms

Question 14

Two forms of carbohydrates

Answer 14

Alpha and beta

Question 15

What is the order of the alpha ring

Answer 15

Hydrogen on top and the hydroxyl underneath

Question 16

What is the order of the beta ring

Answer 16

The hydroxyl is on top the hydrogen is on top

Question 17

What is a monosaccharide with 5 carbon atoms called

Answer 17

Pentose monosaccharide

Question 18

What are monosaccharides joined together by

Answer 18

Glyosidic bonds

Question 19

What three elements are carbohydrates made up of

Answer 19

Carbon, hydrogen and ocygen

Question 20

For every carbon atom how many hydrogen and oxygen atoms are there

Answer 20

2 hydrogen atoms
1 oxygen atom

Question 21

What happens during carbohydrate synthesis and it’s name

Answer 21

A hydrogen atom on one monosaccharide bonds to a hydroxyl group releasing a water molecule - called condensation

Question 22

What happens during the reverse of carbohydrate synthesis and it’s name

Answer 22

A molecule of water reacts with the glycosidic bond breaking it apart - called hydrolysis

Question 23

What is formed when two monosaccharides join together

Answer 23

Disaccharide

Question 24

General term for mono/disaccharides

Answer 24

Sugar

Question 25

More than two monosaccharides are

Answer 25

Polysaccharides

Question 26

Starch is…

Answer 26

The main energy storage material in plants

Question 27

Glycogen is…

Answer 27

The main energy storage material in animals

Question 28

Cellulose is…

Answer 28

The major component of cell walls in plants

Question 29

What is cellulose made from

Answer 29

Long, unbranched chains of beta glucose bonding by hydrogen bonds to form straight cellulose chains. There are fibres called microfibrils providing structural support

Question 30

What do animals store excess glucose as

Answer 30

Glycogen

Question 31

Structure of glycogen

Answer 31

Polysaccharide of alpha-glucose similar to amylopectin but with lots of side branches so stored glucose can be released quickly which is important for energy release and also very compact so good storage

Question 32

What do plants store excess glucose as

Answer 32

Starch

Question 33

What is starch a mixture of two….

Answer 33

Polysaccharides of alpha-glucose - amylose and amylopectin

Question 34

What is amylose

Answer 34

A long unbranched chain of alpha-glucose. The angles of the glycosidic bonds give it a coiled structure like a cylinder. This makes it compact so is good for storage as you can fit more in to a small space

Question 35

What is amylopectin

Answer 35

A long branched chain of alpha-glucose. Side branches allow the enzymes that break down the molecule to get at the glycosidic bonds easily, so glucose cannot be released quickly

Question 36

What is starches solubility status

Answer 36

Insoluble in water so it doesn’t cause water to enter cells by osmosis making them swell making it good for storage

Question 37

What are triglycerides

Answer 37

Complex macromolecules with a large molecular mass containing carbon, hydrogen and oxygen with one molecule of glycerol and three fatty acid tails

Question 38

What do fatty acid molecules have

Answer 38

Long tails made of hydrocarbons that are hydrophobic and therefore insoluble in water. All fatty acids have the same basic structure but the hydrocarbon tail varies

Question 39

What bonds do triglycerides contain

Answer 39

Ester bonds between fatty acid and glycerol molecules

Question 40

How is each bond on a triglyceride formed

Answer 40

By a condensation reaction called esterification

Question 41

How are triglyceride bonds broken

Answer 41

When ester bonds break due to hydrolysis reaction

Question 42

What are saturated fatty acids

Answer 42

They do not have any double bonds between carbon atoms as the fatty acid is ‘saturated’ with hydrogen

Question 43

What are unsaturated fatty acids

Answer 43

At least one double bond between carbon atoms causing the chain to kink

Question 44

How does the structure of triglycerides relate to their functions

Answer 44

1) Long hydrocarbon tails of fatty acids contain lots of chemical energy which is released when they are broken down and therefore lipids contain twice the amount of energy per gram as carbohydrates

2) They are insoluble so don’t cause water to enter the cells by osmosis leading to swelling. Triglycerides bundle together as insoluble droplets as the fatty acid tails are hydrophobic, the tails face inwards shielding the water with their glycerol heads

Question 45

How does the structure of phospholipids relate to their function

Answer 45

1) Phospholipid heads are hydrophilic and their tails are hydrophobic so form a double layer with heads facing out

2) The centre of the bilayer is hydrophobic so water soluble substances can’t easily pass through it

Question 46

How does the structure of cholesterol relate to their function

Answer 46

Has a hydrocarbon ring structure (polar hydroxyl group) attached to a hydrocarbon tail. Helping to regulate the fluidity of the cell membrane.

1) Cholesterol has a small size and flattened shape allowing it to fit in phospholipid bilayer

2) At high temps they bind to hydrophobic tails causing them to pack more closely together helping the membrane to be less fluid and more rigid

3) At low temps prevents the phospholipids from packing too close together

Question 47

What are proteins made from

Answer 47

Long chains of amino acids. They are the monomers as proteins are made up of one or more polypeptides

Question 48

What do all amino acids have

Answer 48

Carboxyl group, amine group, R group

Question 49

What do all amino acids contain

Answer 49

Carbon, oxygen, hydrogen and nitrogen some containing sulfur

Question 50

What bonds link amino acids

Answer 50

Peptide bonds

Question 51

What type of reaction is joining of amino acids

Answer 51

Condensation

Question 52

What is the order of protein structure

Answer 52

Primary, secondary, tertiary, quaternary

Question 53

What is a primary structure

Answer 53

Sequence of amino acids in the polypeptide chain, different proteins have different sequences of amino acids in their primary structure. A change in just one amino acid may change the structure of the whole protein.

Question 54

What is a a secondary structure

Answer 54

Polypeptide chain doesn’t remain flat and straight. Hydrogen bonds form between nearby amino acids in the chain making it automatically coil into an alpha helix or beta pleated sheet.

Question 55

What is a tertiary structure

Answer 55

Coiled or folded chain of amino acids often coiled an folded further. More bonds form between different parts of the polypeptide chain, many proteins made from a single polypeptide chain the tertiary structure forms the final 3D structure

Question 56

What is a quaternary structure

Answer 56

Proteins that are made from several different polypeptide chains held together by bonds. It is the way these polypeptide chains are assembled together making it quaternary. Proteins made from more than one polypeptide chain, this is the final 3D structure.

Question 57

What bonds hold together primary proteins

Answer 57

Peptide

Question 58

What bonds hold together secondary proteins

Answer 58

Hydrogen

Question 59

What bonds hold together tertiary and quaternary proteins

Answer 59

Ionic = attractions between negative R groups and positive R groups

Disulfide bonds = two molecules of cysteine coming close together the sulfur atom in one cysteine bonds to the sulfur in the other cysteine forming a disulfide bond

Hydrophobic/phillic interaction = hydrophobic R groups close together in the protein being close together tend to clump together. Hydrophilic R groups pushed to the outside affecting the proteins folding and structure.

Hydrogen bonds = weak bond forming between positive hydrogen atoms in some R groups and negative atoms in other R groups on the polypeptide chain

Question 60

Features of a globular protein

Answer 60

• Hydrophilic R groups on the amino acids tend to be pushed to the outside of the molecule. Caused by hydrophobic/phillic interactions in tertiary structure
• They are soluble so easy to transport in fluids

Question 61

What are the functions of haemoglobin the globular protein

Answer 61

Haemoglobin - carries oxygen around the body in RBC. Conjugated protein so has a non-protein group attached called a prosthetic group. Each of the four polypeptide chains in haemoglobin has a prosthetic group called haem which contains iron which oxygen binds to

Question 62

What are fibrous proteins

Answer 62

Tough and rope-shaped proteins that are insoluble and strong. They are structural and fairly unreactive

Question 63

What is the fibrous protein collagen

Answer 63

Found in animal connective tissue such as bone, skin and muscle. Mineral scan bind to the proteins to increase its rigidity

Question 64

What are the functions of insulin the globular protein

Answer 64

Insulin - secreted by the pancreas to regulate the blood glucose level. Its solubility is important as it means it can be transported in the blood to the tissues where it acts. An insulin molecule consists of two polypeptide chains which are held by disulfide bonds

Question 65

What are the functions of amylase the globular protein

Answer 65

Amylase - an enzyme catalyzes the breakdown of starch in the digestive system made from a single chain of amino acids. Secondary structure contains alpha helix and beta pleated sheet sections.

Question 66

What is the fibrous protein keratin

Answer 66

Found in many of the external structures of animals such as skin, hair, nails, feathers and horns. It can be flexible (skin) or hard and tough (nails)

Question 67

What is the fibrous protein elastin

Answer 67

Found in elastic connective tissue, such as skin, large blood vessels and some ligaments. It is elastic so it allows tissues to return to their original shape after they have been stretched

Question 68

What is benedicts test for reducing sugars

Answer 68

1) Add benedicts reagent to a sample and heat it in a water bath
2) The colour will go from blue to brick red to indicate a positive test in the form of a coloured precipitate
3) The higher the concentration of reducing sugar the further the colour change goes

Question 69

What is benedicts test for non reducing sugars

Answer 69

1) To be completed if reducing is negative
2) Add dilute hydrochloric acid and carefully heat in a water bath. Then neutralize it with sodium hydrogen carbonate
3) Carry out the benedicts test after
4) If the test’s positive it will form a coloured precipitate

Question 70

How can glucose be tested

Answer 70

Using test strips coated in a reagent. The strips are dipped in a test solution and change colour if glucose is present. Colour change then compared to a chart. Used for urine testing of diabetes

Question 71

How can starch be tested

Answer 71

Adding iodine solution to the test and if starch is present then the sample changes from browny-orange to dark blue-black

Question 72

How to test for proteins

Answer 72

Using the biuret test:
1) The test solution should be alkaline so add sodium hydroxide solution
2) Add copper (II) sulfate solution
- If protein is present solution turns purple
- If no protein the solution will stay blue

Question 73

How to test for lipids

Answer 73

Emulsion test:
Shake the test substance with ethanol for about a minute and then pour the solution into water
- If lipid present the solution will turn milky

Question 74

How does colorimetry determine the concentration of a glucose solution

Answer 74

1) Benedicts reagent and a colorimeter to get a quantitive estimate of how much glucose (reducing sugar) there is in a solution
2) The colorimeter measures absorbance and the more concentrated the colour of the solution, the higher the absorbance
3) Paler solution = more glucose there was, higher glucose conc = lower the absorbance of solution

Question 75

How to carry out the test for concentration of glucose (serial dilations)

Answer 75

1) Line up five test tubes in a rack

2) Add 10cm of the initial 40mM glucose solution to the first test tube and 5cm of distilled water to the other four test tubes

3) Then using a pipette draw 5cm of the solution from the first test tube, add it to the distilled water in the second and mix the solution thoroughly. Now have 10cm of solution that’s half as concentrated as the solution in the first test tube

4) Repeat this process three more times to create solutions of 10mM, 5mM and 2.5mM

Question 76

How to determine the concentration of glucose solution following a serial dilation

Answer 76

1) Do a Benedict’s test on each solution using the same amount of Benedicts solution in each case

2) Remove any precipitate (leaving 24 hours or centrifuge)

3) Use a colorimeter (with a red filter) to measure the absorbance of the Benedict’s solution remaining in each tube

4) Use the results in a calibration curve

Question 77

What are biosensors

Answer 77

A device that uses a biological molecule such as an enzyme to detect a chemical. The biological molecule produces a signal which is converted to an electrical signal by a transductor. The electrical signal is then processed and can be used to work out other infomation

Question 78

Rf value of an amino acid =

Answer 78

distance travelled by solute / distance travelled by solvent