Cell structure 1.1

Question 1

What are the two types of cells?

Answer 1

Eukaryotic and prokaryotic

Question 2

What are the differences between eukaryotic and prokaryotic cells?

Answer 2

Prokaryotic cells are much smaller than eukaryotic cells.

Eukaryotic cells contain membrane bound-organelles and a nucleus containing genetic material, while prokaryotes do not.

Question 3

What is the prokaryotic cell wall composed of?

Answer 3

Peptidoglycan

Question 4

How is genetic information stored in a prokaryotic cell?

Answer 4

Found free within the cytoplasm as:

• Chromosomal DNA
• Plasmid DNA

Question 5

What are plasmids?

Answer 5

Small, circular loops of DNA found free in the cytoplasm and separate from the main DNA.
Carry genes that provide genetic advantages.

Question 6

What is order of magnitude?

Answer 6

A power to the base 10 used to quantify and compare size.

Question 7

What is a centimetre (cm)?

Answer 7

1 x 10^-2 metres

Question 8

What is a millimetre?

Answer 8

1 x 10^-3 metres

Question 9

What is a micrometre?

Answer 9

1 x 10^-6 metres

Question 10

What is a nanometre (nm)?

Answer 10

1 x 10^-9 metres

Question 11

List the components of both plant and animal cells (5)

Answer 11

• Nucleus
• Cytoplasm
• Cell membrane
• Mitochondria
• Ribosomes

Question 12

List the additional cell components found in just plant cells (3)

Answer 12

• Chloroplasts
• Permanent vacuole
• Cell wall

Question 13

Other than storing genetic information, what is the function of the nucleus?

Answer 13

Controls cellular activities

Question 14

Describe the structure of the cytoplasm

Answer 14

• Fluid components of the cell

- Contains organelles, enzymes and dissolved ions and nutrients

Question 15

What is the function of the cytoplasm?

Answer 15

Site of cellular reactions

Transport medium

Question 16

What is the function of the cell membrane?

Answer 16

Controls the entry and exit of materials into and out of the cell

Question 17

What is the function of the mitochondria?

Answer 17

Site of later stages of aerobic respiration in which ATP is produced.

Question 18

What is the function of the ribosomes?

Answer 18

Joins amino acids in a specific order during translation for the synthesis of proteins

Question 19

What is the plant cell wall made of?

Answer 19

Cellulose

Question 20

What is the function of the plant cell wall?

Answer 20

Provides strength

Prevents the cell bursting when water enters by osmosis

Question 21

What does the permanent vacuole contain?

Answer 21

Cell sap ( a solution of salts, sugars and organic acids).

Question 22

What is the function of the permanent vacuole?

Answer 22

Supports the cell, maintaining its turgidity.

Question 23

What is the function of chloroplasts?

Answer 23

Site of photosynthesis

Question 24

Describe how sperm cells in animals are adapted to their function

Answer 24

• Haploid nucleus contains genetic information
• Tail enables movement
• Mitochondria provides energy for tail movement
• Acrosome contains enzymes that digest the egg cell membrane

Question 25

Describe how nerve cells in animals are adapted to their function

Answer 25

• Long axon allows electrical impulses to be transmitted all over the body from the central nervous system
• Dendrites from the cell body connect to and receive impulses from other nerve cells, muscles and glands.
• Myelin sheath insulates the axon and speeds u the transmission of impulses along the nerve cell.

Question 26

Describe how muscle cells are adapted to their function

Answer 26

• Arrangement of protein filaments allows them to slide over each other to produce muscle contraction
• Mitochondria to provide energy for muscle contraction
• Merged cells in skeletal muscle allow muscle fibre contraction in unison

Question 27

Describe how root hair cells in plants are adapted to their function

Answer 27

• Large surface area to absorb nutrients and water from surrounding soil
• Thin walls that do not restrict water absorption

Question 28

Describe how xylem cells in plants are adapted to their function

Answer 28

• No upper or lower margins between cells to provide a continuous route for water to flow
• Thick, woody side walls strengthen their structure and prevent collapse

Question 29

Describe how phloem cells in plants are adapted to their function

Answer 29

• Sieve plates let dissolved amino acids and sugars be transported up and down the stem
• Companion cells provide energy needed for active transport of substances along the phloem

Question 30

What is cell differentiation?

Answer 30

The process by which cells become specialised

Question 31

Why is cell differentiation important?

Answer 31

Allows production of different tissues and organs that perform various vital functions in the human body

Question 32

At what point in their life cycle do most animal cells differentiate?

Answer 32

Early in their life cycle

Question 33

For how long do plant cells retain the ability to differentiate?

Answer 33

Throughout their entire life cycle

Question 34

What is the purpose of cell division in mature animals?

Answer 34

Repair and replacement of cells

Question 35

What changes does a cell go through as it differentiates?

Answer 35

Becomes specialised through acquisition of different sub-cellular structures to enable a specific function performed by the cell

Question 36

Define magnification

Answer 36

The number of times bigger an image appears compared to the size of the real image

Question 37

Define resolution

Answer 37

The smallest distance between two objects that can be distinguished

Question 38

How does a light microscope work?

Answer 38

Passes a beam of light through a specimen which travels through the eyepiece lens, allowing the specimen to be observed

Question 39

What are the advantages of light microscopes? (4)

Answer 39

• Inexpensive
• Easy to use
• Portable
• Observe both dead and living specimens

Question 40

What is the disadvantage of light microscopes?

Answer 40

Limited resolution

Question 41

How does an electron microscope work?

Answer 41

It uses a beam of electrons which are focused using magnets. The electrons hit a fluorescent screen which emits visible light, producing an image.

Question 42

Name the two types of electron microscope

Answer 42

Transmission electron microscope (TEM)

Scanning electron microscope (SEM)

Question 43

What is the advantage of electron microscopes?

Answer 43

Greater magnification and resolution

Question 44

Why do electron microscopes have a greater magnification and resolution?

Answer 44

They use a beam of electrons which has a shorter wavelength than photons of light.

Question 45

How have electron microscopes enabled scientists to develop their understanding of cells?

Answer 45

• Allow small sub-cellular structures to be observed in detail
• Enable scientists to develop more accurate explanations about how cell structure relates to function

Question 46

What are the disadvantages of electron microscopes?

Answer 46

• Expensive
• Large so less portable
• Require training to use
• Only dead specimens can be observed

Question 47

How can the magnification of an image be calculated?

Answer 47

magnification= size of image/ size of real object

Question 48

What is standard form?

Answer 48

A way of expressing numbers- written as a figure between 1 and 10 multiplied by a positive or negative power of 10

Question 49

Write 0.005 in standard form

Answer 49

0.005= 5x10^-3

Question 50

Write 10382 in standard form

Answer 50

10382= 1.0382 x 10^4

Question 51

How do bacteria multiply?

Answer 51

Binary fission (Simple cell division)

Question 52

How often do bacteria multiply?

Answer 52

Once every 20 minutes if enough nutrients are available and the temperature is suitable

Question 53

State 2 ways in which bacteria can be grown

Answer 53

• Nutrient broth solution

- Colonies on an agar gel plate

Question 54

What nutrients make up a nutrient broth solution?

Answer 54

All nutrients required for bacteria grow include nitrogen for protein synthesis, carbohydrates for energy and other minerals

Question 55

What are uncontaminated cultures of microorganism needed for?

Answer 55

Investing disinfectant and antibiotic action

Question 56

Describe the preparation of an uncontaminated culture using aseptic technique

Answer 56

1. Use pre-sterilised plastic Petri dishes or sterilised glass Petri dishes and agar gel before using with an autoclave
2. Pour the sterile agar gel into Petri dish and allow time to set
3. Sterilise the inoculating loop by passing it through a Bunsen burner flame
4. Dip the inoculating loop into the solution of microorganisms and make streaks with the loop on the surface of the agar
   5 Put the lid on the Petri dish and secure it with tape. Label accordingly then turn and store upside down
5. Incubate the culture at 25°C in school laboratories

Question 57

Why must Petri dishes and culture media be sterilised before use?

Answer 57

To kill any bacteria already present

Question 58

Why must inoculating loops be sterilised by passing them through a Bunsen burner flame?

Answer 58

To kill any bacteria present on the inoculating loop

Question 59

Why must the Petri dish lid be secured with adhesive tape and the whole dish stored upside down?

Answer 59

• Stops bacteria in the air contaminating the culture
• The lid is not fully sealed to prevent the growth of anaerobic bacteria in a lack of oxygen
• Upside down to prevent condensation from forming and dripping down onto the colonies

Question 60

Why are cultures incubated at 25° in school laboratories?

Answer 60

Harmful pathogens are less likely to grow at this temperature