Topic 1: Key Concepts

Question 1

What are eukaryotes?

Answer 1

Cells which have a nuclei

Question 2

What are prokaryotes?

Answer 2

Cells that don’t have a nuclei but do have DNA

Question 3

Examples of eukaryotes?

Answer 3

Plant and animal cells

Question 4

What 5 sub cellular structures do animal cells have?

Answer 4

Nucleus
Cytoplasm
Ribosomes
Cell membrane
Mitochondria

Question 5

What 8 sub cellular structures do plant cells have?

Answer 5

Nucleus
Cytoplasm
Ribosomes
Cell membrane
Mitochondria
Cell wall
Chloroplasts
Vacuole

Question 6

What is an example of a prokaryote?

Answer 6

Bacterial cell

Question 7

What 5 sub cellular structures do bacterial cells have?

Answer 7

Cell membrane
Ribosome
Chromosomal DNA
Plasmid DNA
Flagellum

Question 8

What is the function of the nucleus? (Plant and animal cells)

Answer 8

Controls activities of the cell and contains DNA

Question 9

What is the function of the cell membrane? (Plant, animal and bacterial cells)

Answer 9

Controls what goes in and out of the cell

Question 10

What is the function of the mitochondria? (Plant and animal cells)

Answer 10

Where aerobic respiration occurs - releases energy

Question 11

What is the function of the ribosomes? (Plant, animal and bacterial cells)

Answer 11

Where proteins are made in protein synthesis

Question 12

What is the function of the cytoplasm? (Plant and animal cells)

Answer 12

Where chemical reactions occur

Question 13

What is the function of the chloroplasts? (Plant cells only)

Answer 13

Where photosynthesis happens - contains chlorophyll to absorb sunlight

Question 14

What is the function of the vacuole? (Plant cells only)

Answer 14

Keep the cell rigid for support, contains cell sap and water and maintains the internal pressure of the cell

Question 15

What is the function of the cell wall? (Plant cells only)

Answer 15

Made of cellulose - strengthens the cell and stops it from bursting

Question 16

What is the function of the chromosomal DNA? (Bacterial cells only)

Answer 16

Controls cells activities and replication

Question 17

What is the function of the plasmid DNA? (Bacterial cells only)

Answer 17

Can be be passed between bacteria and used for genetic engineering

Question 18

What is the function of the flagellum? (Bacterial cells only)

Answer 18

Used for movement

Question 19

What was the first microscope?

Answer 19

A light microscope with a magnification of x30

Question 20

What is the most modern type of microscope?

Answer 20

Electron microscopes

Question 21

What are properties of the most modern microscope and why is this beneficial?

Answer 21

Have a higher magnification and resolution than light microscopes
Allowing us to see smaller things in more detail, so we can understand sub cellular structures better now

Question 22

Advantages of electron microscopes?

Answer 22

High resolution
Can magnify up to x500,000
Possible to investigate a greater field depth

Question 23

Disadvantages of electron microscopes?

Answer 23

Expensive
require a specialist to use it
Specimen must be fixed in a vacuum and therefore dead

Question 24

How can you calculate the overall magnification of a microscope?

Answer 24

Eyepiece magnification x objective magnification

Question 25

Simple conversions (cm, mm, um, nm)?

Answer 25

cm -x10- mm -x1000- um -x1000- nm
nm -÷1000- um -÷1000mm- mm -÷10- cm

Question 26

How to calculate actual size of an organism?

Answer 26

Actual size = image size/magnification

Question 27

What is the actual size calculation triangle?

Answer 27

I
——
A | M

Question 28

What part of the microscope do you look through?

Answer 28

Eyepiece lens

Question 29

What part of the microscope do you use to get a clear image?

Answer 29

Coarse focus nob

Question 30

What is the part of a microscope that you put the specimen on?

Answer 30

Stage

Question 31

What is a specialised cell?

Answer 31

A cell that has a structure adapted to its function

Question 32

What does an egg cell do?

Answer 32

Carries female DNA and feeds the developing embryo

Question 33

What are the structures of egg cells that have adapted to their function? What do they do?

Answer 33

Cell membrane - changes structure after fertilisation to prevent more sperm entering

Haploid nucleus - has 23 chromosomes (to form a full set of chromosomes when joined with a sperm cell) and carries genetic material

Cytoplasm - has nutrients to nourish the embryo

Question 34

What does a sperm cell do?

Answer 34

Transports male DNA to the egg and fertilises it

Question 35

What are the structures of sperm cells that have adapted to their function? What do they do?

Answer 35

Acrosome - contains enzymes to digest the egg membrane and break through it

Haploid nucleus - has 23 chromosomes (to form a full set of chromosomes when joined with an egg cell) and carries genetic material

Mitochondria - has a lot of it to provide energy through respiration that allows it to swim and reach the egg cell to fertilise it

Flagellum - to swim to the egg and fertilise it

Question 36

What does a ciliated epithelial cell do? Example?

Answer 36

Moves substances along internal surfaces e.g. mucus in airways

Question 37

What are the structures of ciliated epithelial cells that have adapted to their function? What do they do?

Answer 37

Cilia - hair like projection to sweep the substances and move them

Nucleus - contains genetic material

Question 38

Examples of specialised cells?

Answer 38

Egg cell
Sperm cell
Ciliated epithelial cell

Question 39

What is an enzyme?

Answer 39

It acts as a biological catalyst and speeds up the rate of breakdown

Question 40

What does each enzyme have that’s unique?

Answer 40

A unique active site

Question 41

Where do enzymes and substrates bind?

Answer 41

Substrate binds to the active site of an enzyme

Question 42

What do enzymes and substrates form when they bind?

Answer 42

Enzyme substrate complex

Question 43

What is the lock and key model?

Answer 43

Compares the binding of enzymes and substrates at the active site as if they’re a key and a lock

Question 44

What are the key words relating to enzymes and substrates?

Answer 44

Specific and complimentary

Question 45

Why do we need enzymes?

Answer 45

Used for digestion and protein synthesis

Question 46

What are the factors that affect enzyme activity?

Answer 46

Temperature
pH
Substrate concentration

Question 47

What is denaturing?

Answer 47

When the shape of an active site changes as bonds in the enzyme break

Question 48

Description of the trend between temperature and enzyme activity?

Answer 48

As temperature increases, so does the rate of reaction until the optimum temperature then the rate of reaction decreases as the enzyme denatures

Question 49

Description of the trend between pH and enzyme activity?

Answer 49

As pH increases, so does the rate of reaction until the optimum pH where the rate of reaction begins to decreases as the enzyme denatures

Question 50

What is the average optimum temperature?

Answer 50

Around 37°C

Question 51

What is the average optimum pH?

Answer 51

8

Question 52

Description of the trend between substrate concentration and enzyme activity? Why?

Answer 52

As substrate concentration increases, so does the rate of reaction until it plateaus then the rate of reaction doesn’t change as there comes a point where the enzyme is fully saturated and no more molecules can fit into it

Question 53

What enzyme breaks down proteins and what are the products?

Answer 53

Protein is broken down by protease into amino acids

Question 54

What enzyme breaks down lipids and what are the products?

Answer 54

Lipids are broken down by lipase into glycerol and fatty acids

Question 55

What enzyme breaks down carbohydrates (e.g. starch) and what are the products?

Answer 55

Carbohydrates (e.g. starch) are broken down by carbohydrases (e.g. amylase) into simple sugars (e.g. glucose)

Question 56

What is diffusion?

Answer 56

Diffusion - the net movement of particles from an area of higher concentration to an area of lower concentration down the concentration gradient

Question 57

In what states does diffusion occur?

Answer 57

Liquids and gases

Question 58

What is osmosis?

Answer 58

Osmosis - the net movement of water molecules from an area of higher water concentration, to an area of lower water concentration down the concentration gradient, through a partially permeable membrane

Question 59

What is active transport?

Answer 59

Active transport - the net movement of particles from an area of lower concentration to an area of higher concentration against the concentration gradient, it requires energy

Question 60

What is a hypertonic solution?

Answer 60

A substance with a higher concentration of solute particles but a lower concentration of water

Question 61

What is a hypotonic solution?

Answer 61

A substance with a low concentration of solute particles but a higher water concentration

Question 62

What is calorimetry?

Answer 62

A process used to find the amount of energy in food

Question 63

What is the process of calorimetry?

Answer 63

1. Weigh your food sample and put it on a mounted needle
2. Add a set volume of water to a boiling tube and record its temperature
3. Set fire to the food, hold it under the boiling tube until it goes out, repeat until the food no longer catches fire
4. Record the temperature of the water
5. Find the energy per gram of food

Question 64

How to calculate the energy per gram of food?

Answer 64

Energy per gram of food:
(Mass of water x temperature of water x 4.2) / mass of the food

The calculation in brackets is simply the energy in the food

Question 65

TESTING FOR FOOD MOLECULES CORE PRACTICAL: What is the test for reducing sugars called?

Answer 65

Benedict’s test

Question 66

TESTING FOR FOOD MOLECULES CORE PRACTICAL: What is the test for starch called?

Answer 66

Iodine test

Question 67

TESTING FOR FOOD MOLECULES CORE PRACTICAL: What is the test for proteins called?

Answer 67

Biuret test

Question 68

TESTING FOR FOOD MOLECULES CORE PRACTICAL: What is the test for lipids called?

Answer 68

Emulsion test

Question 69

TESTING FOR FOOD MOLECULES CORE PRACTICAL: What is the process of the test for reducing sugars?

Answer 69

1. Add blue Benedict’s reagent to a food sample and leave it in a water bath at 75°C
2. If the food sample turns green, yellow or red, reducing sugars are present

Question 70

TESTING FOR FOOD MOLECULES CORE PRACTICAL: What is the process of the test for starch?

Answer 70

1. Add iodine solution to a food sample and mix
2. If the sample changes from orange to blue-black, starch is present

Question 71

TESTING FOR FOOD MOLECULES CORE PRACTICAL: What is the process of the test for proteins?

Answer 71

1. Add potassium hydroxide solution to a food sample and then some copper(II) solution
2. If the solution changes from blue to purple, proteins are present

Question 72

TESTING FOR FOOD MOLECULES CORE PRACTICAL: What is the process of the test for lipids?

Answer 72

1. Add ethanol to a food sample and shake for a minute
2. Pour solution into water
3. If there’s a milky emulsion, lipids are present

Question 73

TESTING FOR EFFECT OF pH ON AMYLASE ACTIVITY CORE PRACTICAL: What is the process of testing the effect of pH on enzymes?

Answer 73

1. Heat 3cm³ of amylase solution, 1cm³ of pH buffer solution MAKE SURE THAT THE WATER IN THE BEAKER REMAINS AT A CONSTANT TEMPERATURE OF 35°C USING A THERMOMETER throughout the whole experiment
2. 5 min later, add 3cm³ of starch solution to the mixture and continue to heat
3. The amylase enzyme breaks down the starch
4. Add a drop of the mixture to a drop of iodine solution that’s in a spotting tile using a dropping pipette
5. Record the time when iodine solution remains orange after sample is added to the iodine
6. Repeat steps 1-5 with different pH buffers

Question 74

TESTING FOR EFFECT OF pH ON AMYLASE ACTIVITY CORE PRACTICAL: How can the rate of reaction be calculated?

Answer 74

Rate of reaction = 1000/time

Question 75

TESTING FOR EFFECT OF pH ON AMYLASE ACTIVITY CORE PRACTICAL: What are the independent and dependent variable in this experiment?

Answer 75

Independent: pH of solution
Dependent: time taken for amylase to break down starch

Question 76

How can you remember what each variable in an experiment means?

Answer 76

CID SAM

Control Same
Independent Alter
Dependent Measure

Question 77

MAGNIFICATION CORE PRACTICAL: How can the magnification of an image be found? Equation triangle?

Answer 77

Magnification = image size/real size

I
————
A | M

Question 78

MAGNIFICATION CORE PRACTICAL: What are all 6 of the parts of the microscope?

Answer 78

1. Eyepiece
2. Objective lens
3. Stage
4. Coarse adjustment knob
5. Fine adjustment knob
6. Lamp

Question 79

MAGNIFICATION CORE PRACTICAL: What is the process of using a microscope?

Answer 79

1. Put the specimen on a slide, and put a cover slip on the specimen, then place the slide onto the stage
2. Start with the lowest powered lens then move the stage up using the coarse adjustment knob
3. Look down the eyepiece and adjust the focus with the adjustment knobs (use the coarse one first)
4. To see the slide with a greater magnification, swap to a higher powered lens and refocus

Question 80

OSMOSIS CORE PRACTICAL: What are the steps done to investigate osmosis in potatoes?

Answer 80

1. Cut a potato into identical cylinders of the same mass
2. Divide the cylinders into groups of three and measure the mass of each group
3. Prepare beakers that contain different concentrations of sucrose solution and one beakers with pure water (control), put one group of cylinders into each beaker
4. Leave each beaker and group out for 40 minutes, then take out the cylinders, dry them gently with a paper towel and measure the mass of each group again

Question 81

OSMOSIS CORE PRACTICAL: How can the % change in mass be calculated?

Answer 81

% change in mass = change in mass/initial mass x 100

Question 82

OSMOSIS CORE PRACTICAL: What are the independent and dependent variables?

Answer 82

Independent: concentration of sucrose solution
Dependent: potato cylinder mass

Question 83

OSMOSIS CORE PRACTICAL: What are the conclusions to this experiment?

Answer 83

The potatoes that are in the less concentrated sucrose solutions and in the pure water, will increase in mass BECAUSE THE WATER PARTICLES ARE GOING FROM AN AREA OF HIGHER WATER CONCENTRATION (THE LESS CONCENTRATED SUCROSE SOLUTION) TO AN AREA OF LOWER WATER CONCENTRATION (THE POTATOES)

The potatoes that are in the more concentrated sucrose solutions, will decrease in mass BECAUSE THE WATER PARTICLES ARE GOING FROM AN AREA OF HIGHER WATER CONCENTRATION (THE POTATOES) TO AN AREA OF LOWER WATER CONCENTRATION (THE HIGHLY CONCENTRATED SUCROSE SOLUTION)

Question 84

What is a control? What does it do?

Answer 84

It’s an experiment or observation designed to minimize the effects of variables other than the independent variable - increases the reliability of results