Bacteria(Complete)

Question 1

What are the general characteristics of kingdom monera?

Answer 1

Unicellular
Prokaryotic
Carry out respiration
Have ribosomes
Varied nutrition
Normally reproduce asexually
Play a major role in the decomposition of dead organisms causing mineral recycling

Question 2

What is a prokaryotic organism?

Answer 2

No nucleus and no membrane-bound organelles such as mitochondria or chloroplasts.

Question 3

How do you classify bacteria?

Answer 3

By shape

Question 4

Classify bacteria according to their shape.

Answer 4

Coccus
Rod
Spiral

Question 5

Give an example of coccus bacteria.

Answer 5

Streptococcus which causes septic throat.

Question 6

Give an example of rod bacteria.

Answer 6

E. Coli in the colon, others cause tetanus.

Question 7

Give an example of spiral bacteria.

Answer 7

Causes cholera and syphilis

Question 8

Describe two benefits of bacteria.

E.G- Economic importance of bacteria

Answer 8

Beneficial bacteria:
Lactobacillus sp. Produce yoghurt and cheese.
Genetically modified bacteria produce insulin

Question 9

Describe two drawbacks of bacteria.

E.G- Economic importance of bacteria.

Answer 9

Harmful bacteria:
Bacteria causes food decay,e.g lactobacillus causes milk to turn sour.
Can cause human, plant and animal diseases:
Strep throat, food poisoning, tetanus, cholera, leaf spot disease, bovine mastitis.

Question 10

What is the structure of the bacterial cell wall?

Answer 10

It is composed of protein and carbohydrates.

It is fully permeable- allows all substances through.

Question 11

What is the function of the bacterial cell wall?

Answer 11

Prevents the cell from bursting due to the entry of water by osmosis.

Question 12

What is the structure of the bacterial cell membrane?

Answer 12

It is composed of a lipid bilayer.

It has infoldings where aerobic respiration occurs.

Question 13

What is the function of the bacterial cell membrane?

Answer 13

It is selectively permeable meaning that it does not allow all substances to pass through.

Question 14

What is the structure of the bacterial cytoplasm?

Answer 14

Jelly like liquid that surrounds the single chromosome.

Question 15

What is the function of the bacterial cytoplasm?

Answer 15

It suspends the ribosomes and storage granules.

Question 16

What is the structure of the bacterial plasmid?

Answer 16

It is a self-replicating loop of DNA.

Question 17

What are the functions of the bacterial plasmid?

Answer 17

It contains cloning vectors for genetic engineering.

It has genes responsible for bacterial resistance to antibiotics.

Question 18

What is the structure of the bacterial capsule?

Answer 18

A semi-solid slime layer.

Question 19

What are the functions of the bacterial capsule?

Answer 19

It prevents the bacterial cell from drying out.

It hosts the immune system.

Question 20

What are the functions of the bacterial flagellum?

Answer 20

It is responsible for the movement of the bacterial cell in order to find food and good growing conditions.

Question 21

What is the name of the asexual reproduction in bacteria?

Answer 21

Binary fission.

Question 22

Describe the process of binary fission.

Answer 22

The cell grows bigger in size.
DNA replicates, there are now two chromosomes present.
The cell elongates, the 2 chromosomes are now further apart.
The cell membrane and cell wall infold and create two genetically identical cells called clones.

Question 23

How often does binary fission occur?

Answer 23

Every 20 minutes.

Question 24

What are the consequences of binary fission?

Answer 24

Infection can produce symptoms rapidly.
Due to the short life-cycle( binary fission occurring every 20 mins), mutations become significant. e.g, antibiotic-resistant bacteria can suddenly appear in large numbers, ie, MRSA.
Bacteria produce efficient returns of product in the industry.

Question 25

What is an endospore?

Answer 25

A unicellular resistant structure produced during harsh conditions like freezing.

Question 26

When are endospores formed?

Answer 26

During harsh conditions like freezing.

Question 27

Describe how endospore formation occurs.

Answer 27

DNA replicates.
The cell cytoplasm shrinks and becomes more rounded.
A thick wall forms internally and encloses the cytoplasm and one chromosome.
The parent cell breaks down and the endospore remains dormant.
When suitable conditions return:
The endospore absorbs water.
The spore wall softens and ruptures.
A new bacterial cell emerges, enlarges and reproduces every 20 minutes by binary fission.

Question 28

How do you kill an endospore?

Answer 28

By autoclaving at 120C for 20 minutes.

Question 29

What is nutrition?

Answer 29

How a living organism obtains its food.

Can be autotrophic or heterotrophic.

Question 30

Why is food needed?

Answer 30

To grow, live and reproduce.

Question 31

What does autotrophic bacteria mean?

Answer 31

Produces their own food by means of simple chemicals and an energy input.

Question 32

What does heterotrophic bacteria mean?

Answer 32

Cannot produce their own food and therefore take in food made by other organisms.

Question 33

What are the types of autotrophic nutrition in bacteria?

Answer 33

Photosynthetic Bacteria- produces its own food using sunlight energy.
Example: Purple sulphur bacteria.

Chemosynthetic Bacteria- produces its own food using energy from chemical reactions.
Example: Nitrifying bacteria.

Question 34

What are the types of heterotrophic nutrition in bacteria?

Answer 34

Parasitic Bacteria- live in or on a living organism causing harm.
Example: Streptococcus.

Saprophytic Bacteria- feed on dead or decaying organisms causing decay and therefore mineral recycling.
Example: Decay bacteria in soil.

Question 35

What are the factors that affect bacterial growth?

Answer 35

Temperature
pH
External solute concentration
Oxygen Concentration
Pressure

Question 36

How does temperature affect bacterial growth?

Answer 36

Low temperatures slow down the rate of bacterial growth.
Optimum temperature is 20-30C.
High temperatures denature bacterial enzymes.

Question 37

How does pH affect bacterial growth?

Answer 37

Unsuitable pHs denature bacterial enzymes.
Optimum pH is 7.
Helicobacter in the stomach grows at pH 2 and is linked to stomach ulcers.

Question 38

How does oxygen concentration affect bacterial growth?

Answer 38

Most bacteria respire aerobically and therefore require oxygen to respire.
Example: Streptococcus.
As a result, low levels of oxygen would inhibit their growth.

Some bacteria respire anaerobically and therefore do not need oxygen to respire.
Obligate anaerobes: Respire only in the absence of oxygen, e.g tetanus.
Facultative anaerobes: Respire in the presence and absence of oxygen but do not use it, e.g E-coli.

Question 39

How does external solute concentration affect bacterial growth?

Answer 39

Bacteria is placed in salty water.
It loses water by osmosis.
Bacterial enzymes become denatured.
Stops and inhibits the growth of bacteria.
Forming the basis of food preservation.

Question 40

How does pressure affect bacterial growth?

Answer 40

Bacterial cell walls cannot withstand high pressure.
High pressure inhibits bacterial growth.
Pressure tolerant bacteria is genetically modified for bioreactors.
Bacteria present in deep-sea vents can withstand high pressure.

Question 41

What are antibiotics?

Answer 41

Chemicals produced by fungi and bacteria to kill other micro-organisms but do not have an effect on viruses.

Question 42

What is the purpose of an antibiotic?

Answer 42

To treat bacterial or fungal infections.

Question 43

What is antibiotic resistance?

Answer 43

When bacteria or fungi are not killed by an antibiotic as they are immune to it, e.g MRSA.

Question 44

How does antibiotic resistance develop/ arise?

Answer 44

When a person treats a viral infection with antibiotics.

Failure to complete the full course of antibiotics when ill.

Question 45

How does bacteria become resistant to antibiotics?

Answer 45

When a colony of bacteria is exposed to an antibiotic, the most sensitive die.
Due to mutations in their genes, some bacteria become antibiotic-resistant.
As there are no competitors and they reproduce quickly every 20 minutes, the antibiotic-resistant population grows.
These bacteria can pass on their antibiotic-resistant gene to pathogenic bacteria which can lead to infections as antibiotics cannot kill them.
MRSA is a bacterial strain resistant to antibiotics and is commonly found in hospitals.

Question 46

Doctors are reluctant to prescribe antibiotics to patients with common-cold like symptoms. Suggest a biological reason for this statement.

Answer 46

The common cold may be a viral infection.

Viruses are not affected by antibiotics.

Question 47

Write notes on antibiotic resistance in bacteria.

Answer 47

Antibiotic resistance is when bacteria or fungi are not killed by the antibiotic as they are immune to it.
Antibiotic resistance is caused by:
Failure to complete the full course of antibiotics when ill.
Treating viral infections with antibiotics.
Bacteria can pass on their gene to pathogenic bacteria causing infection.
The plasmid contains genes responsible for bacterial resistance to antibiotics.
MRSA is a bacterial strain resistant to antibiotics.

Question 48

How do scientists construct a growth curve?

Answer 48

They measure the increase in the number of live cells at fixed time intervals.
A log scale is used to show a large number of bacteria on the graph.

Question 49

What are the stages of bacterial growth, in order?

Answer 49

Lag phase.
Log phase.
Stationary phase.
Decline phase.
Survival phase.

Question 50

Describe the bacterial numbers in the lag phase.

Answer 50

Little or no increase in bacterial numbers.

Question 51

Describe the bacterial numbers in the log phase.

Answer 51

Bacterial numbers are doubling every 20 minutes due to binary fission.

Question 52

Describe the bacterial numbers in the stationary phase.

Answer 52

No overall increase in bacterial numbers as for every new bacteria, one dies.

Question 53

Describe the bacterial numbers in the decline phase.

Answer 53

Large decrease in bacterial numbers.

Question 54

Describe the bacterial numbers in the survival phase.

Answer 54

Bacterial population stabilises.

Question 55

What are the reasons for the change in bacterial numbers in the lag phase?

Answer 55

The bacteria are adapting to their new environment.
Low reproductive rate.
Bacterial enzymes are being produced.

Question 56

What are the reasons for the change in bacterial numbers in the log phase?

Answer 56

High reproductive rate.

Optimum conditions are present- good temperature, a lot of space and food.

Question 57

What are the reasons for the change in bacterial numbers in the stationary phase?

Answer 57

Slowed reproductive rate.
Competition for resources like food.
Toxins appearing and lack of space

Question 58

What are the reasons for the change in bacterial numbers in the decline phase?

Answer 58

Little/ no reproduction.
Extreme lack of resources like food and space.
High levels of toxins.

Question 59

What are the reasons for the change in bacterial numbers in the survival phase?

Answer 59

Bacteria form resistant endospores.

Question 60

What is food processing?

Answer 60

Using living organisms, their organelles or enzymes to produce commercially valuable products like yoghurt.

Question 61

What is a bioreactor?

Answer 61

A vessel in which living organisms, their organelles or enzymes are used to produce commercially valuable products.

Question 62

Highlight the differences between batch food processing and continuous food processing.

Answer 62

Batch Food Processing:
Uses a closed bioreactor.
A fixed amount of sterile nutrients are placed in the beginning.
Microorganisms undergo all stages of bacterial growth, usually stopped at decline.
Products made for a short time.
At the end of production, the bioreactor is emptied and sterilised.

Continuous Flow Food Processing:
Uses an open bioreactor.
Nutrients are continuously added.
Microorganisms undergo the upper log phase to maximise yield.
Nutrients are continuously removed.
the bioreactor is only emptied once every 6 months due to contamination.

Question 63

What are the advantages of batch food processing?

Answer 63

Easy to run as no close monitoring is required.

Useful when a small amount of product is needed at a specific time, e.g penicillin.

Question 64

What are the disadvantages of batch food processing?

Answer 64

Product cannot be made on short notice.

Cleaning and sterilising bioreactor after every use is very time-consuming.

Question 65

What are the advantages of continuous flow food processing?

Answer 65

Constant production of product, e.g Quorn.

Does not have to be cleaned and sterilised often which doesn’t take up a lot of time.

Question 66

What are the disadvantages of continuous flow food processing?

Answer 66

Heavy monitoring and people with great experience is required and therefore it may be expensive.

Question 67

State how parasitic bacteria can survive for long periods outside the host’s body.

Answer 67

They form an endospore.

Question 68

State the role of parasitic bacteria in the overall scheme of nature.

Answer 68

Population control.

Natural selection.

Question 69

What is asepsis?

Answer 69

To exclude as many microorganisms as possible.

Question 70

What is sterility?

Answer 70

Free from all microorganisms.