Viruses

Question 1

What are viruses made of?

Answer 1

Viruses are composed of a core of nucleic acid surrounded by a proton donor

Question 2

Where do viruses grow?

Answer 2

Because they are not made of cells, they do not have the cell machinery for their own metabolism, so they only grow in living tissue.

Question 3

What can viruses be considered outside of living cells?

Answer 3

Where they exist outside of living cells, they may be considered non-living chemicals, since they do not display any of the characteristics of life.

Question 4

What can viruses do once inside a living cell?

Answer 4

Once they are inside a living cell they can replicate with the help of the host cell and so are clearly alive.

Question 5

Do viruses have features of living or non-living material?

Answer 5

So, viruses have features of both living and non-living material.

Question 6

What are viruses called because since they can only multiply inside living cells?

Answer 6

Since they can only multiply inside living cells, they are called obligate parasites

Question 7

What can viruses do as parasites?

Answer 7

As parasites they cause many diseases in humans, domestic animals and crop plants.

Question 8

What are viruses called because since they can only multiply inside living cells?

Answer 8

Since they can only multiply inside living cells, they are called obligate parasites

Question 9

What does being obligate parasites mean in terms of agar?

Answer 9

This means that they cannot be grown on agar like bacteria or fungi

Question 10

What does being obligate parasites mean to do with antibiotics?

Answer 10

It is also the reason why antibiotics do not work against them, as there is no cell machinery for the antibiotic to damage.

Question 11

What is one way of recognising and classifying different viruses?

Answer 11

Different kinds of viruses have different shapes and this is one way of recognising and classifying them.

Question 12

How can we only see viruses because they are so small?

Answer 12

Because viruses are so small, we can only see them with an electron microscope.

Question 13

How many viruses could fit side by side on the tip of your pen?

Answer 13

10,000 viruses could fit side by side on the tip of your pen.

Question 14

Draw virus replication.

Answer 14

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Question 15

What are the disadvantages of viruses?

Answer 15

Diseases of humans, plants and animals

Question 16

What are common human diseases?

Answer 16

Measles, Mumps, Rubella, Cold, Warts

Question 17

How do plant diseases gain entry to a plant?

Answer 17

.

Question 18

What are examples of plant diseases?

Answer 18

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Question 19

What are examples of animal diseases?

Answer 19

Foot and mouth, SARS (Sudden Acute Respiratory Syndrome) and Rabies

Question 20

What are the advantages of viruses?

Answer 20

Genetic engineering, where they are used inject a gene into target cells.
Mosaic patterns give new variety to garden plants.

Question 21

What is immunity?

Answer 21

Immunity is the ability of an organism to resist infection.

Question 22

What are pathogens?

Answer 22

Pathogens are micro-organisms [microbes] that cause disease.

Question 23

What is the human body designed to do in terms of foreign cells or invaders?

Answer 23

The human body is designed to protect itself from foreign cells or invaders, and we have two lines of defence - general and specific.

Question 24

What does our general defence system consist of?

Answer 24

Our general defence system consists of skin, mucous membranes, platelets and white blood cells.

Question 25

What is the barrier to entry?

Answer 25

Barrier to entry: the skin and mucous membrane lining of the respiratory, digestive and reproductive tract.

Question 26

How does the skin act as a barrier to entry?

Answer 26

The skin, acting as a structural barrier, secretes chemicals from the sebaceous glands that harm or kill bacteria.

Question 27

How does the respiratory and digestive tracts act as barriers to entry?

Answer 27

The respiratory and digestive tracts as well as other organs of the body secrete mucus and/or further chemicals that may remove foreign particles.

Question 28

What does our specific defence system involve?

Answer 28

An antigen-antibody response, involving specialised white blood cells, called lymphocytes and monocytes [macrophages].

Question 29

What is the function of lymphocytes?

Answer 29

Lymphocytes - stored in lymphatic system (spleen, lymph nodes, tonsils, adenoids and thymus gland), have large nucleus and make antibodies. (25% of white cells)

Question 30

What is the function of monocytes?

Answer 30

Monocytes - digest bacteria, have kidney shaped nucleus and lilve for 6-9 days (5% of white cells)

Question 31

What are monocytes?

Answer 31

Phagocytic white blood cells - also called macrophages. These engulf bacteria and viruses upon contact.

Question 32

What do other types of monocytes do?

Answer 32

Others secrete chemicals that stimulate general defence and cause fever to destroy microbes at high temperatures

Question 33

What makes up the specific defence system?

Answer 33

Organs specific to the immune system: the spleen, thymus and lymph nodes.

Question 34

What do lymph and blood vessels contain?

Answer 34

Lymph and blood vessels contain cells called lymphocytes and monocytes - both are produced in the bone marrow and they respond to antigens

Question 35

What are antigens?

Answer 35

Antigens are any foreign molecules capable of triggering and antibody response.

Question 36

What is an antibody?

Answer 36

An antibody is a protein, made by a lymphocyte, which sticks to an antigen and marks it for destruction by other defence cells [monocytes].

Question 37

Where may antigens be found?

Answer 37

Antigens may be found in bacterial cell walls, viral coats, foreign cells or produced in cancerous cells.

Question 38

What does the lymphatic system consist of?

Answer 38

Lymphatic vessels that return excess tissue fluid to the blood circulatory system.
Lymph tissue [lymph nodes] that assist in fighting infection in the body.

Question 39

What are the three functions of the lymphatic system?

Answer 39

Drainage, Transport and Defence

Question 40

What does drainage do in the lymphatic system?

Answer 40

Drainage - returns leaked fluid to the blood.

Question 41

What does transport do in the lymphatic system?

Answer 41

Transport - lipids (fats) are absorbed from the small intestine and carried to the skin or other organs for storage.

Question 42

What does defence do in the lymphatic system?

Answer 42

Defence - filters blood. Germs that invade the body will enter the blood or tissue fluid and eventually get filtered through the lymph and lymph nodes, where white cells attack and destroy them. Swollen glands are lymph nodes that are actively fighting germs.

Question 43

What is induced immunity? What types are there?

Answer 43

Induced immunity is immunity due to antibody production. There are two types - active and passive.

Question 44

What is active immunity?

Answer 44

Active immunity develops after an infection or after vaccination (immunisation). It provides long lasting protection.

Question 45

What is passive immunity?

Answer 45

Passive immunity involves antibodies that we get from elsewhere, e.g. in the womb or from mother’s milk.

Question 46

What is a vaccine?

Answer 46

A vaccine is a dead microbe that is injected into the body and triggers antibodies but does not cause the disease.

Question 47

If you have been vaccinated and the real germ ever attacks you, what happens? What are you then said to be?

Answer 47

If the real germ ever attacks you, the antibodies are present to remove it before it can cause the disease and do damage. You are then said to be immune to that disease.

Question 48

What does passive immunity involve?

Answer 48

Antibodies that we get from elsewhere.

Question 49

What does passive immunity provide and why?

Answer 49

Since these are not produced by the body’s own cells, it provides only short-lived protection.

Question 50

Where are lymphocytes made?

Answer 50

Lymphocytes are made in the bone marrow and then move to the lymph nodes before or soon after birth.

Question 51

What do monocytes do?

Answer 51

Monocytes engulf an invader, digest it and then display some of the invader’s antigen on its own cell membrane.

Question 52

What do body cells do with viruses that get into them?

Answer 52

Engulf an invader, digest it and then display some of the invader’s antigen on its own cell membrane.

Question 53

What are lymphocytes continually doing?

Answer 53

Inspecting monocytes and body cells for evidence of “foreign” antigen.

Question 54

What happens when “foreign” antigen are detected?

Answer 54

When detected, the lymphocytes are stimulated to divide into huge numbers of cells.

Question 55

Draw a diagram of the immune response.

Answer 55

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Question 56

What are the two main types of lymphocytes?

Answer 56

B cells and T cells

Question 57

Where to B cells mature and then move to?

Answer 57

Mature in bone marrow and move to lymph nodes

Question 58

What can B cells do?

Answer 58

Recognise antigens

Question 59

What are the two types of B cells?

Answer 59

Plasma B cells and Memory B cells

Question 60

What do plasma B cells do?

Answer 60

Make antibodies

Question 61

What do memory B cells do?

Answer 61

Live on after infection and prevent re-infection

Question 62

Where do T cells mature?

Answer 62

In thymus gland

Question 63

What are the four types of T cells?

Answer 63

Helper T cells, Killer T cells, Suppressor T cells and Memory T cells

Question 64

What do Helper T cells do?

Answer 64

Stimulate B and killer T cells

Question 65

What do Killer T cells do?

Answer 65

Destroy abnormal body cells

Question 66

What do Suppressor T cells do?

Answer 66

Turn off immune responses

Question 67

What do Memory T cells do?

Answer 67

If re-infection occurs they stimulate memory B cells and killer T cells.

Question 68

How many types of lymphocytes are there?

Answer 68

2

Question 69

How many types of B cells are there?

Answer 69

2

Question 70

How many types of T cells are there?

Answer 70

4

Question 71

What do T lymphocytes do?

Answer 71

They attack cells that have invading antigen on their cell membrane.

Question 72

Do T cells produce antibodies?

Answer 72

T cells do not produce antibodies.

Question 73

What do helper T cells do?

Answer 73

Recognise antigens, enlarge, and secrete chemicals such as interferon that stimulate production of B cells.

Question 74

What do killer T cells do?

Answer 74

Attack cells containing a foreign antigen.
Secrete a chemical called perforin that perforates the membranes of cells.
Destroy virus-infected cells, tumour cells and transplant tissue.

Question 75

What do suppressor T cells do?

Answer 75

stop the immune response after the pathogen has been destroyed.

Question 76

What do memory T cells do?

Answer 76

Memory cells that form during the first response to an antigen do not engage in that first battle. They circulate in the body for years, and can intercept antigens far quicker. So they memorize the immunity, even for life.

Question 77

Where do B lymphocytes mature?

Answer 77

B lymphocytes mature in the bone, before moving to the lymph nodes, where they acquire their receptor molecules.

Question 78

What do B lymphocytes do?

Answer 78

B lymphocytes attack antigens in the blood or body fluids, by producing antibodies that surround them.

Question 79

What happens when a B cell encounters matching antigen?

Answer 79

When a B cell encounters matching antigen, they divide into plasma and memory cells.

Question 80

What do plasma cells produced by B cells do?

Answer 80

The plasma cells produce antibody molecules, that bind to pathogens and toxins that are circulating in tissues or body fluids, and mark them for destruction by monocytes.

Question 81

How many types of antibody does each B cell produce?

Answer 81

Each B cell produces just one type of antibody.

Question 82

When do memory B and T cells form? Do they engage in the first battle?

Answer 82

Memory B and T cells that form during the first response to an antigen, do not engage in that first battle.

Question 83

What do Memory B and T cells do?

Answer 83

They circulate in the body for years, and can intercept antigens far quicker.

Question 84

Why do memory B and T cells circulate in the body and can intercept antigens quicker?

Answer 84

This is how we achieve immunity against many diseases - either by getting the disease once or by preventing them using vaccines.

Question 85

Draw a diagram of lymphocytes and antibody production.

Answer 85

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