Topic 1 - Cell Biology

Question 1

How many types of cells are there and what are they called?

Answer 1

There are two different types of cells and they are called ‘Eukaryotic’ and ‘Prokaryotic’ cells.

Question 2

Where are eukaryotic cells found in?

Answer 2

They are found in plants, animals, fungi and protists.

Question 3

What is a eukaryote?

Answer 3

A eukaryote is an organism made up of eukaryotic cells.

Question 4

Where are prokaryotic cells found in?

Answer 4

They are found in bacteria.

Question 5

What are the key features of prokaryotic cells?

Answer 5

• They have plasmids
• They do not contain mitochondria or chloroplasts
• They do not have a nucleus - they have a single DNA loop in the cytoplasm

Question 6

What are the different types of units used for distance?

Answer 6

1 kilometre (km) = 1000 metres
1 metre (m) = 100 centimetres
1 centimetre (cm) = 10 millimetres
1 millimetre (mm) = 100 micrometres 
1 micrometre (µm) = 1000 nanometres (nm)

Question 7

What are sub-cellular structures?

Answer 7

Sub-cellular structures are things found in a cell.

Question 8

What sub-cellular structures are found in an animal cell?

Answer 8

• Cell membrane
• Nucleus
• Ribosomes
• Mitochondria
• Cytoplasm

Question 9

What is the cell membrane?

Answer 9

The cell membrane separates the inside of the cell from the outside. It controls substances moving in and out of the cell (selectively permeable).

Question 10

What is the nucleus?

Answer 10

The nucleus is the control centre of the cell. It contains chromosomes (which contain the cell’s genetic material).

Question 11

What are the ribosomes?

Answer 11

The ribosomes are responsible for making (synthesising) proteins.

Question 12

What is the mitochondria?

Answer 12

The mitochondria are the ‘powerhouses’ of the cell. Aerobic respiration takes place in the mitochondria meaning energy is released in the mitochondria.

Question 13

What is cytoplasm?

Answer 13

The cytoplasm is a jelly-like fluid that fills the cell. The cytoplasm is where most of the cell’s chemical reactions take place.

Question 14

What sub-cellular structures are found in a plant cell?

Answer 14

In addition with the sub-cellular structures in an animal cell, a plant cell contains:

• Permanent vacuole
• Chloroplasts
• Cell wall

Question 15

What is the permanent vacuole?

Answer 15

The permanent vacuole is a fluid-filled sac that stores water. It is enclosed in a membrane (a wall that substances can pass through).

Question 16

What are the chloroplasts?

Answer 16

The chloroplasts contain chlorophyll, which is needed for the process of photosynthesis.

Question 17

What is the cell wall?

Answer 17

The cell wall surround the cell and is made of cellulose. The cell wall increases the structural strength of the cell.

Question 18

How do plant cells differentiate?

Answer 18

Plant cells can differentiate throughout their lives. Plants are always able to create new tissues.

Question 19

How do animal cells differentiate?

Answer 19

Most animal cells differentiate early on in their development. In mature animals, cells mostly divide to replace cells and repair tissues that are already present. New tissues are rarely created by cell differentiation.

Question 20

What sub-cellular structures are found inside bacterial cells?

Answer 20

• Flagella
• Plasmids
• Cell wall
• Cell membrane
• Cytoplasm

Question 21

What is the flagella?

Answer 21

The flagella are whip-like structures used for movement.

Question 22

What are plasmids?

Answer 22

Plasmids are just small rings of DNA.

Question 23

What is cell differentiation?

Answer 23

Cell differentiation is the process where a cell develops new sub-cellular structures to let it perform a specific function. This makes the cell specialised.

Question 24

What happens in embryonic cell differentiation?

Answer 24

Cell differentiation happens during an organism’s development. Organisms start as one cell. These cells divide to form embryos that differentiate to produce cells that can perform all of the body’s functions.

Question 25

What is the function of the sperm cell?

Answer 25

Sperm cells are functioned to fertilise egg cells.

Question 26

How do sperm cells carry out their job?

Answer 26

Sperm cells travel long distances. When they get to the egg cell, they break through the egg cell and fertilise it.

Question 27

How does the middle section of sperm cell work?

Answer 27

The middle section is filled with mitochondria to provide the sperm with the energy it needs to travel a long distance to reach the egg cell.

Question 28

How does the head of the sperm cell work?

Answer 28

The head contains the sperm cell’s nucleus. The nucleus carries one half of an organism’s genetic material. This combines with the egg cell’s half of genetic material to fertilise the egg cell.

Question 29

How does the tail of the sperm cell work?

Answer 29

The tail is used for the sperm cell’s motion (movement). This allows sperm cells to travel towards the egg cell.

Question 30

How does the acrosome of the sperm cell work?

Answer 30

The acrosome is located at the tip of the head. It contains an enzyme needed to penetrate an egg cell.

Question 31

How do sperm cells move their tails to get to the egg?

Answer 31

The sperm cells spin their tails in a corkscrew motion to move themselves towards the egg.

Question 32

What happens when the sperm cell reaches the egg cell?

Answer 32

The sperm cell fuses with the egg, sharing its genetic information to make a complete genome (all the DNA needed to make a whole organism).

Question 33

What is the function of the nerve cell?

Answer 33

The function of the nerve cell is to transmit electrical messages around the body.

Question 34

What is another word for a nerve cell?

Answer 34

Another word for a nerve cell is a neurone.

Question 35

How does the axon of a nerve cell work?

Answer 35

The axon is the part of the cell that electrical signals travel along. Nerve cells have a long axon, which increases the distance that electrical signals can travel.

Question 36

How does the myelin sheath of a nerve cell work?

Answer 36

A sheath made of material called myelin surrounds the nerve cell. This stops the electrical nerve signals from leaking out of the nerve cell. This increases the speed of transmission (travel) of electrical signals.

Question 37

What do the dendrites of a nerve cell work?

Answer 37

The dendrites are the branches of a nerve cell. Several dendrites spread outwards from the cell body to transfer electrical messages (impulses) to other nerve cells.

Question 38

What are synapses?

Answer 38

Synapses are the gaps between neurones.

Question 39

What is the function of a muscle cell?

Answer 39

The function of the muscle cells is to move and contract.

Question 40

What do the protein fibres inside the muscle cell do?

Answer 40

The protein fibres can contract, allowing the muscle to move.

Question 41

How do muscle cells generate energy?

Answer 41

Muscle cells contain lots of mitochondria generating lots of energy for motion.

Question 42

What is the function of a root hair cell?

Answer 42

The function of a root hair cell is to absorb minerals and water for the plant.

Question 43

What do the long projections of root hair cells do?

Answer 43

The long projections increase the surface area which increases the amount of water and minerals absorbed.

Question 44

Why do root hair cells not contain chloroplasts?

Answer 44

Root hair cells are located underground. This means that they do not contain chloroplasts as there is no light for photosynthesis.

Question 45

What is the function of a xylem cell?

Answer 45

The function of a xylem cell is to transport water up the stem of a plant and into the leaves.

Question 46

Why do the xylem cells have no end walls?

Answer 46

Xylem vessels are made up of a series of connected dead xylem cells. The end walls of the dead cells are broken to allow water to move through.

Question 47

What does the lignin do in xylem cells?

Answer 47

Lignin is a substance that strengthens the cell walls of xylem cells.

Question 48

What is the function of a phloem cell?

Answer 48

The function of a phloem cell is to transport food products to parts of the plant where they are needed.

Question 49

What are phloem vessels made up of?

Answer 49

Phloem vessels are made up of columns of living cells.

Question 50

What do the small holes of phloem cells do?

Answer 50

The end walls of phloem cells contain small holes to allow food products to move up and down through the phloem vessels throughout the plant.

Question 51

What is magnification?

Answer 51

Magnification tells us how many times larger an image seen through a microscope is compared to the real object.

Question 52

What is resolution?

Answer 52

Resolution is the ability to distinguish between (tell apart) two or more objects that are close together.

Question 53

What is the equation for magnification?

Answer 53

Magnification = image size / real size

Question 54

How does a light microscope work?

Answer 54

A light microscope passes light through a specimen, and creates a magnified image using lenses.

Question 55

How does an electron microscope work?

Answer 55

An electron microscope passes electrons through a specimen. They have a much higher resolution and magnification. They let us see sub-cellular structures within cells.

Question 56

Explain thoroughly the light microscope experiment?

Answer 56

• Put a thin sample of tissue (e.g. onion epidermis) onto a microscope slide.
• Add a few drops of a suitable stain/dye (e.g. iodine).
• Place a coverslip on top of the tissue and place the slide onto the microscope stage.
• Use the objective lens with the lowest magnification, and focus on the sample.
• Increase the magnification and refocus to see different features of the cell.

Question 57

What are chromosomes?

Answer 57

Chromosomes are made of molecules of DNA and are found in the nucleus of cells. Each chromosome carries a large number of genes. In body cells, they are usually found in pairs.

Question 58

What is the cell cycle?

Answer 58

The cell cycle is the series of events involved in cell growth and cell division.

Question 59

What is the first stage of the cell cycle?

Answer 59

The first stage is the initial growth stage. Extra ribosomes, mitochondria and other sub-cellular structures are produced. The cell’s chromosomes are replicated (copied) so that there are two sets of the cell’s chromosomes.

Question 60

What is the second stage of the cell cycle?

Answer 60

The second stage is mitosis. The two sets of chromosomes are pulled to opposite ends of the cell. Then, the nucleus divides in two.

Question 61

What is the third and final stage of the cell cycle?

Answer 61

The third stage is when the cell divides. Two identical cells are created by the division of the cytoplasm and cell membranes.

Question 62

What does mitosis ensure?

Answer 62

Mitosis ensures that the two daughter cells both have the same chromosomes as each other and the parent cell. Identical cells being produced is very important - it could grow and repair tissues and asexual reproduction.

Question 63

What are stem cells?

Answer 63

Stem cells are undifferentiated cells that have not been specialised yet to perform a specific function.

Question 64

What can stem cells do?

Answer 64

Stem cells can create more stem cells. They can also differentiate to perform another function.

Question 65

Where are stem cells found in?

Answer 65

Stem cells are found in plant meristems, bone marrow and embryos.

Question 66

What are plant stem cells?

Answer 66

Plant stem cells are found in the meristem tissue. Plant stem cells can differentiate into all types of plant cell throughout the life of the plant. This allows plants to grow for their whole lives.

Question 67

What are human adult stem cells?

Answer 67

Human adult stem cells are found in bone marrow, but they can be also found in other tissues and organs. Adult stem cells differentiate into fewer cell types than stem cells in embryos. They are used to replace dying cells and damaged tissues.

Question 68

What are embryonic stem cells?

Answer 68

Embryonic stem cells can differentiate into most cell types, to produce all of the cell types that will make up the organism.

Question 69

What can stem cells be used for?

Answer 69

Stem cells can be used for medical, scientific and commercial purposes.

Question 70

How are stem cells used for treating patients?

Answer 70

Stem cells are able to replace damaged cells in the body. They can replace the damaged cells that cause diseases.

Question 71

How are plant stem cells used?

Answer 71

Plant stem cells can be used to quickly and cheaply produce cloned plants. This could help to protect rare plant species from extinction and create large populations of plants with special features.

Question 72

What is therapeutic cloning?

Answer 72

Therapeutic cloning is a process that produces an embryo that has the same genome (DNA needed to make an organism) as the patient. Stem cells taken from this embryo will have the same DNA as the patient. This means that the patient’s body will not reject the stem cells or body cells made from the embryo’s stem cells. This is ideal for use in stem cell medical treatments.

Question 73

What are disadvantages of stem cells?

Answer 73

Stem cells transplantation could transfer viral infections. There are also lots of ethical beliefs that are against stem cells use.

Question 74

What are the main ethical beliefs against use of stem cells?

Answer 74

People believe that life begins at conception, meaning that the embryo is alive. This means that people view the use of embryonic stem cells as killing an embryo.

Question 75

What is diffusion?

Answer 75

Diffusion is the net movement of particles from an area of high concentration to an area of lower concentration. It describes the movement of particles in liquids and gases. The particles all move randomly. Substances can move in and out of cells across cell membranes via diffusion.

Question 76

What are the factors that affect diffusion?

Answer 76

• The concentration gradient
• The temperature
• Membrane surface area

Question 77

How does the concentration gradient affect diffusion?

Answer 77

The concentration gradient is the difference in concentration between two areas. The bigger the difference in concentration between two areas, the greater the concentration gradient and faster the rate of diffusion.

Question 78

How does temperature affect diffusion?

Answer 78

The higher the temperature, the faster the rate of diffusion.

Question 79

How does the membrane surface area affect diffusion?

Answer 79

The larger the surface area of the membrane that a substance is diffusing through, the faster the rate of diffusion.

Question 80

What is the difference in SA:Volume ratios for smaller and larger organisms and how does if affect diffusion for the different size organisms?

Answer 80

Small organisms have a higher ratio than larger organisms. This means diffusion can happen through a large area in small organisms. This makes diffusion useful for transporting molecules through a small organism. However, large organisms need a transport system with specialised surfaces to exchange molecules because their cells are too far from the external environment.

Question 81

What are exchange surfaces?

Answer 81

Exchange surfaces are surfaces that are adapted to maximise the efficiency of gas and solute (a substance dissolved in a liquid) exchange across them.

Question 82

What are the adaptations of exchange surfaces?

Answer 82

• Thin membrane - reduces the diffusion distance
• Large surface area - allows more of a substance to diffuse at the same time
• Blood supply
• Ventilation - in animals, if a gas in exchanged, the surface is ventilated to maintain a high concentration gradient and increase the rate of exchange

Question 83

What is the blood supply adaptation for exchange surfaces?

Answer 83

Where substances are exchanged through blood in animals, exchange surfaces are densely packed with blood vessels - these blood vessels replenish the blood supply to maintain a high concentration gradient by bringing in new blood as diffusion starts to even out the concentrations.

Question 84

How is the small intestine a specialised exchange surface?

Answer 84

The small intestine is adapted for exchanging nutrients between digested food in the small intestine and the blood.

Question 85

How are the lungs a specialised exchange surface?

Answer 85

The lungs are adapted for exchanging carbon dioxide and oxygen between the blood and the air.

Question 86

How are gills a specialised exchange surface?

Answer 86

The gills are adapted for exchanging oxygen that is dissolved in water, with the carbon dioxide in a fish’s bloodstream.

Question 87

How are roots a specialised exchange surface?

Answer 87

Roots are adapted for taking up both water and minerals from the soil around them.

Question 88

How are leaves a specialised exchange surface?

Answer 88

Leaves are adapted for exchanging carbon dioxide and oxygen between the leaves and the surrounding air.

Question 89

What is osmosis?

Answer 89

Osmosis is a special case of diffusion where water moves across a partially permeable membrane from a high water concentration to a low water concentration.

Question 90

What is a synonym for high and low water concentration?

Answer 90

High water concentration - dilute solution

Low water concentration - concentrated solution

Question 91

What does a partially permeable membrane do in osmosis?

Answer 91

A partially permeable membrane allows water through, but won’t let larger molecules dissolved in water pass through.

Question 92

What is the water movement in osmosis?

Answer 92

Water will move to make the concentrations the same on both sides of the membrane. When there are lots of water molecules in a high water conc on one side of a partially permeable membrane, but not many on the other side, water will move from the higher water conc to the lower water conc.

Question 93

What is the net movement of water in osmosis?

Answer 93

Water molecules will move through the membrane in both directions, but the overall (net) movement of water will be from a higher water conc to a lower water conc.

Question 94

What is the difference between the independent variable and the dependent variable?

Answer 94

Independent variable - variable that YOU control and changed

Dependent variable - variable that is measured as an outcome of the experiment.

Question 95

How does active transport work in animals?

Answer 95

Active transport allows sugar molecules, which are needed for cell respiration, to be absorbed into the blood from the gut, even when the sugar concentration of the blood is higher.

Question 96

How does active transport work in plants?

Answer 96

Active transport in the root hairs of plants allows plants to absorb mineral ions, which are necessary for healthy growth, even though the concentration of minerals is usually lower in the soil than in the root hair.

Question 97

What is active transport?

Answer 97

Active transport is the net movement of particles form an area of lower concentration to an area of higher concentration. Active transport is against the concentration gradient.

Question 98

Is energy needed for the three main forms of transport in cells (diffusion, active transport and osmosis)?

Answer 98

Active transport requires energy
Diffusion does not require energy
Osmosis does not require energy
Osmosis and diffusion are examples of passive transport