Unit 2

Question 1

What do lungs allow gas exchange between?

Answer 1

They allow rapid gas exchange between the atmosphere and the blood

Question 2

What is the job of the basement membrane and what is it made from?

Answer 2

It holds the cell in position and is made of protein fibres in a jelly like protein-carbohydrate matrix

Question 3

Where are the ciliated epithelial cells found?

Answer 3

They line the airways

Question 4

What do goblet cells produce and where is that released into?

Answer 4

They produce mucus which is released into the airway

Question 5

What is the structure and function of cilia?

Answer 5

They are hair like structures that beat and move mucus up and out the lungs

Question 6

What is the difference in mucus between people with and without cf?

Answer 6

People with cf have less water in their mucus so it’s sticker

Question 7

What is the problem with stickier mucus in people with cf?

Answer 7

It is more difficult for the cilia to move which increases the chance of lung infection and makes gas exchange less efficient

Question 8

Name 3 features of the alveoli

Answer 8

• Large SA due to many alveoli
• good blood supply
• a short diffusion distance due to thin walls of the alveoli and capillaries

Question 9

What is the equation for Fick’s law?

Answer 9

Rate of diffusion=SA X difference in conc/ thickness of surface

Question 10

Fill the blank: Surface area is ——– to the rate of diffusion

Answer 10

Directly proportional

Question 11

Is concentration gradient directly or inversely proportional to the rate of diffusion?

Answer 11

Directly proportional

Question 12

True or false: thickness of the gas exchange surface is directly proportional to the rate of diffusion

Answer 12

False. Thickness of the gas exchange surface is inversely proportional to the rate of diffusion

Question 13

How many different amino acids are there?

Answer 13

20

Question 14

Draw an amino acid

Answer 14

Amine group = -on the left
      N bonded to 2 H's
Hydrogen above the carbon
R group below the carbon
Carboxylic group = -on the right
       C bonded to OH double bond

Question 15

Name the reaction that joins 2 amino acids

Answer 15

A condensation reaction

Question 16

What does the cell surface membrane contain?

Answer 16

• phospholipid bilayer
• proteins
• cholesterol
• glycoproteins
• glycolipids

Question 17

Describe the primary structure of a protein

Answer 17

a chain of amino acids

Question 18

Describe the secondary structure of a protein

Answer 18

alpha helix or beta pleated sheet

Question 19

Describe the tertiary structure of a protein

Answer 19

The polypeptide chain folds to produce a 3D shape and is held together by ionic bonds

Question 20

Describe the quaternary structure of a protein

Answer 20

when 4 a-heix come together, they form a globular protein

Question 21

Compare and contrast globular and fibrous proteins

Answer 21

• Globular proteins are in a compact spherical shape whereas fibrous proteins are long chains
• Globular proteins are soluble whereas fibrous proteins are insoluble
• Globular proteins are important in metabolic reactions whereas fibrous proteins are important in keratin in hair and collagen in skin

Question 22

Give an example of a globular and fibrous protein

Answer 22

globular = Enzymes

fibrous =cartilage

Question 23

How can the phospholipid bilayer be seen?

Answer 23

Using an electron microscope as it is about 7nm wide

Question 24

What are the 2 parts of the phospholipid bilayer?

Answer 24

The hydrophilic head and hydrophobic tail. The head is polar and the tail is non-polar

Question 25

What is the fluid mosaic model?

Answer 25

Some proteins are fixed upon the membrane of a cell but others can move around, creating fluidity

Question 26

What was the cell membrane thought of as up to 1972?

Answer 26

it was thought that the cell membrane was a 3 layer protein-lipid sandwich

Question 27

Evidence for the fluid mosaic model

Answer 27

In 1972, Singer and Nicholson came up with the fluid mosaic model, with evidence coming from the freeze fracture electron microscopy studies. The first model was created by Grendel and Gonter

Question 28

Describe how water is regulated in mucus with too much water (non CF lungs)

Answer 28

1. Excess water detected by epithelial cells
2. Na+ is actively pumped into tissue fluid through basal membrane
3. Na+ channel opens and Na diffuses in which creates an electrical gradient
4. Cl- diffuses through gaps from mucus into tissue fluid
5. Osmosis due to increase in Na+ and Cl- moves water from mucus to tissue fluid

Question 29

Describe how water is regulated in mucus with not enough water (non CF lungs)

Answer 29

1. Cl- transported to epithelial cells which causes conc. gradient
2. Conc. gradient causes CFTR channel ( a gated protein channel) to open
3. Build up of Cl- in mucus creates electrical gradient between mucus and tissue fluid
4. Na+ diffuses through gaps from tissue fluid into mucus
5. Higher salt conc in mucus means osmosis draws water out of cells into mucus

Question 30

Effect of CF on the digestive system

Answer 30

• Problems with digestion and absorption of nutrients resulting in low body mass
• People may need to take supplements that contain digestive enzymes

Question 31

Why may a CF sufferer may need to take digestive enzymes?

Answer 31

The pancreatic duct become blocked by sticky mucus, impairing digestive enzymes so less nutrients is absorbed. This causes malabsorption syndrome

Question 32

Effect of CF on reproductive system

Answer 32

• Females have reduced chance of pregnancy as mucus plug blocks the cervix
• Males often lack the sperm duct (vas deferens) so sperm cannot leave the testes

Question 33

What monomers make up DNA?

Answer 33

Nucleotides

Question 34

Describe the structure of a DNA nucleotide

Answer 34

The pentose sugar ‘deoxyribose’ at the centre, with phosphate at the top and an organic base to the right

Question 35

Name the 4 organic bases

Answer 35

• Adenine
• Cytosine
• Guanine
• Thymine

Question 36

What is the difference between mRNA and DNA?

Answer 36

RNA is a single stranded polynucleotide made of ribonucleic acid and contains ribose rather than deoxyribose. It also contains thymine rather than uracil

Question 37

Describe DNA Replication

Answer 37

• hydrogen bonds break between the bases and DNA unzips
• DNA nucleotides pair up with comp bases. DNA polymerase links adjacent nucleotides
• two identical daughter stands are created

Question 38

How do we know DNA replication is semi conservative?

Answer 38

Watson and Crick used DNA from E Coli grown in the Heavy isotope of Nitrogen, N15.

The nucleotides in bacteria at the start contained heavy nitrogen, making the DNA heavier than normal. The bacteria was then put in the medium isotope of N. The DNA replicated once and was centrifuged

Question 39

What type of bond holds together nucleotides?

Answer 39

Phosphodiester

Question 40

Describe the positioning of each part of a nucleotide

Answer 40

The sugars and phosphates form the sugar-phosphate backbone on the outside and the bases point inwards horizontally, being held together by hydrogen bonds; the 2 nucleotides run antiparallel

Question 41

Describe transcription

Answer 41

1. RNA polymerase attached to the DNA, the hydrogen bonds break and the DNA unwinds
2. The template strand is transcribed to make mRNA which has the same base sequence as DNA
3. The complimentary base RNA nucleotides align themselves and phosphodiester bonds form to produce mRNA
4. When transcription is complete, the mRNA leaves through a nuclear pore and the DNA ‘zips up’.

Question 42

Describe translation

Answer 42

1. mRNA attaches to the small subunit of a ribosome
2. Free amino acids become attached to the correct tRNA molecules
3. The first codon will always be AUG and the next codon is facing the binding site; this attracts the tRNA- amino acid complex with the complimentary anticodon
4. The ribosome holds the mRNA, tRNA and amino acids in place long enough for a peptide bond to form between the two aminos

Question 43

What does non-overlapping mean?

Answer 43

Each triplet code is adjacent

Question 44

What is a triplet codon?

Answer 44

The code carried b the DNA contains 3 bases

Question 45

What are the 4 types of genetic testing ?

Answer 45

• Amniocentesis
• Chronic villus sampling
• Non invasive prenatal diagnosis
• pre implantation genetic diagnosis

Question 46

What is amniocentesis and when should it occur?

Answer 46

Involves inserting a needle into the amniotic fluid to collect cells

This should occur between 15 and 17 weeks

1% risk of miscarriage

Question 47

What is Chorionic villus sampling and when should it occur?

Answer 47

A sample of cells is removed either through the vagina or wall of abdomen

Between 8 and 12 weeks

1-2% risk of miscarriage

Question 48

What is non-invasive prenatal diagnosis and when should it occur?

Answer 48

Analyses DNA fragments in the mother’s blood and can detect chromosomal conditions

Occurs between 7-9 weeks

No risk of miscarriage

Question 49

What is pre implantation genetic diagnosis and when should it occur?

Answer 49

A cell of the baby is removed and is screened to look for any conditions. The couple will have to undergo IVF for this to happen

Occurs when the baby has around 8 cells

Very low success rate

Question 50

Summarise Diffusion

Answer 50

Down a conc grad, from high to low conc

Hydrophobic (lipid soluble) it small uncharged molecules

Through phospholipid bi-layer

No energy required

Question 51

Summarise facilitated diffusion

Answer 51

Down a conc grad from high to low conc

Hydrophilic molecules or ions

Through channel proteins or via carrier proteins

No energy required

Question 52

Summarise osmosis

Answer 52

Low to high conc

Movement of water

Through Phospholipid bi-layer

No energy required

Question 53

Summarise active transport

Answer 53

Against a conc grad, from low to high conc

Through Carrier proteins that change shape

Require energy, supplied by ATP

Question 54

Summarise exocytosis

Answer 54

Used for bulk transport out of a cell

Vesicles fuse with the cell membrane releasing their contents

Question 55

Summarise endocytosis

Answer 55

Used for bulk transport into the cell

Vesicles are create from the cell surface membrane, bringing their contents into the cell