Topic 4: Evolution & Genetic Engineering

Question 1

Who came up with the theory of natural selection?

Answer 1

Darwin

Question 2

What is evolution?

Answer 2

The slow and continuous change of organisms from one generation to the next

Question 3

What is natural selection?

Answer 3

The process by which a characteristic gradually becomes more or less common in a population

Question 4

What is the process of natural selection?

Answer 4

1. Species shows a wide genetic variation due to sexual reproduction and mutations
2. There is a selection pressure (e.g. competition)
3. Organisms that are better adapted to the selection pressures are more likely to survive and reproduce
4. This passes on the desired and advantageous gene and they become more popular
5. This is called survival of the fittest

Question 5

What theory does antibiotic resistant bacteria support?

Answer 5

Darwin’s theory of evolution & natural selection

Question 6

What is the process of how bacteria becomes resistant to antibiotics?

Answer 6

1. Random mutations mean some bacteria develop allele for antibiotic resistance
2. Resistance bacteria survive the antibiotic and reproduce
3. Recessive allele become more common in the population

Question 7

What are the three fossils that provide evidence for human evolution?

Answer 7

Ardi
Lucy
Turkana boy

Question 8

How old is the Ardi fossil?

Answer 8

4.4 million years old

Question 9

What feet does the Ardi fossil have?

Answer 9

Ape like big toe for climbing

Question 10

What limbs does the Ardi fossil have?

Answer 10

Ape like (long arms, short legs)

Question 11

What brain size does the Ardi fossil have?

Answer 11

Like chimpanzees

Question 12

How old is the Lucy fossil?

Answer 12

3.2 million years old

Question 13

What feet does the Lucy fossil have?

Answer 13

Arched for walking
No ape like big toe

Question 14

What limbs does the Lucy fossil have?

Answer 14

Between human and apes

Question 15

What brain size does the Lucy fossil have?

Answer 15

Bit bigger than chimpanzees

Question 16

How old is the Turkana Boy fossil?

Answer 16

1.6 million years old

Question 17

What feet does the Turkana Boy fossil have?

Answer 17

Human like (adapted for walking)

Question 18

What limbs does the Turkana Boy fossil have?

Answer 18

Human like (short arms, long legs)

Question 19

What brain size does the Turkana Boy fossil have?

Answer 19

Like humans

Question 20

Where was the Ardi and Lucy fossil found?

Answer 20

In Ethiopia

Question 21

Where was the Turkana Boy fossil found?

Answer 21

Kenya

Question 22

What are the three ways to date tools?

Answer 22

1. Rock layer - how much sedimentary was built on top of it
2. Carbon dating - dates carbon containing material found within a took
3. Structural features - if it’s simpler, it’ll most likely be older

Question 23

What is the trend between how stone tools developed and the human brain size?

Answer 23

As human brain size increased, stone tools developed positively

Question 24

How have stone tools developed?

Answer 24

1. Simple pebble tools used to scrape meat and crack bones open - 2.5 million years ago
2. Tools were sculpted from rocks were used to hunt, dig, chop and scrape meat off bones
3. Flint tools - pointed to be used as arrowheads, fishhooks, needles etc. - present day

Question 25

What is the pentadactyl limb?

Answer 25

Limb with five digits

Question 26

How does the pentadactyl limb show evolution?

Answer 26

There are similarities in structure of pentadactyl limbs in different species e.g. humans and horses
Shows they all evolved from a common ancestor

Question 27

What is Charles Darwin known for?

Answer 27

The theory of evolution by natural selection

Question 28

When did Charles Darwin publish his theory? What is it called?

Answer 28

1859 - on the origin of species

Question 29

How did Charles Darwin do his research?

Answer 29

Did a world expedition studying plants and animals

Question 30

What were Charles Darwin’s three main observations?

Answer 30

There is variation within species
Individuals with characteristics are most suited to the environment they’re more likely to survive in
Characteristics can be passed on to offspring

Question 31

What is Alfred Russel Wallace known for?

Answer 31

Coming up with idea of natural selection

Question 32

What did Alfred Russel Wallace publish?

Answer 32

Joint writings with Darwin on evolution

Question 33

What were Alfred Russel Wallace’s key observations?

Answer 33

There’s evidence for evolution by natural selection - e.g. some species may have warning colours to deter predators

Question 34

What are the 3 ways in which natural selection impacted modern medicine?

Answer 34

1. Classification - we now group organisms based on how closely related they are
2. Antibiotic use - we now know how bacteria evolve to be antibiotic resistant, so we know to finish a course of antibiotics and to constantly develop new ones
3. Conservation - we now know the importance of maintaining genetic diversity in species so they can adapt to changing environments

Question 35

What is classification?

Answer 35

Organising living organisms into groups based on their features

Question 36

What are the five kingdoms?

Answer 36

1. Animals
2. Plants
3. Fungi
4. Protists
5. Prokaryotes

Question 37

How to remember the five kingdoms?

Answer 37

Angry
Pans
Fry
Pea
Potatoes

Question 38

What are the three domains?

Answer 38

Bacteria - true bacteria
Archaea - a different type of prokaryotic cells first found in extreme places
Eukarya - include protists, fungi, plants and animals

Question 39

What comes first domains or kingdoms?

Answer 39

First, domains then kingdoms

Question 40

Why are organisms classified the way they are now?

Answer 40

Genes can now be analysed

Question 41

What is selective breeding?

Answer 41

Breeding plants or animals for particular characteristics

Question 42

What are the steps of selective breeding?

Answer 42

1. Select the organisms that most show the desired characteristic
2. Breed the organisms together
3. From their offspring, select those that demonstrate the desired characteristics the most
4. Repeat over generations

Question 43

Benefits of selective breeding?

Answer 43

Agriculture - crops and animals can be bred to produce bigger yields and better tastes
Medical research - organisms can be bred together to show a characteristics that’s being studied

Question 44

Risks of selective breeding?

Answer 44

Less genetic variation in populations - could be wiped out by an environmental change more easily
Inbreeding occurs - can cause health problems

Question 45

What is genetic engineering?

Answer 45

Transfer of a gene responsible for a desirable characteristic from one organisms genome into another organism

Question 46

What is the process of genetic engineering?

Answer 46

1. Cut the plasmid out of the DNA using lysosomes
2. Cut the plasmid using restriction enzyme leaving behind complimentary sticky ends
3. Insert the desired gene into the plasmid of the organism using ligase
4. Insert the plasmid back into the organism
5. The organism will then reproduce asexually and thus many cells are produced with the desired trait

Question 47

Benefits of genetic engineering?

Answer 47

Agriculture - can make crops resistant to drought, pests or herbicides
Medicine - bacteria is used to produce human insulin - treats diabetes
Antibodies can be produced by sheep’s and cows

Question 48

Risks of genetic engineering?

Answer 48

Some GM animals have health problems
GM crops could negatively affect food chains

Question 49

What is the key example of the positive effects of genetic engineering we need to know?

Answer 49

INSULIN PRODUCING BACTERIA

Question 50

What is biological control?

Answer 50

Using other organisms to reduce pest species

Question 51

What are fertilisers?

Answer 51

Adding nutrients to soil

Question 52

What are methods of increasing food production? Why are these necessary?

Answer 52

Biological control
Fertilisers

BECAUSE THE POPULATION IS RISING

Question 53

Advantages of biological control?

Answer 53

Increases crop yield
Longer lasting effects than chemical pesticides
Less harmful to environment

Question 54

Disadvantages of biological control?

Answer 54

New organisms introduced can cause problems e.g. become pests themselves

Question 55

Advantages of fertilisers?

Answer 55

Increase crop growth

Question 56

Disadvantages of fertilisers?

Answer 56

Can lead to eutrophication

Question 57

What are the benefits of producing GMO crops?

Answer 57

GMOs can produce more nutrients
Can improve yields - e.g. GM drought- or pest-resistant crops

Question 58

What is the example of a GMO crop that is pest resistant?

Answer 58

Bacillus thuringiensis (Bt) has a gene for toxin that kills insects
Bt inserted into crops through genetic engineering
Crops produced are now insect resistant - more food can be produced

Question 59

What are the 3 main arguments against GMO crops?

Answer 59

Long term effects of GM crops are still unknown
Countries may be dependent on companies that sell GM seeds
People may not be able to afford food - poverty should be tackled first

Question 60

What is the process of tissue culture in animals?

Answer 60

1. Tissue sample from animal taken
2. Cells are separated using enzymes
3. Cells multiply in growth medium
4. Cells are separated and grown in a culture vessel

Question 61

Advantages of tissue culture in animals?

Answer 61

Medical research can be done in isolated tissues - no complications from other life processes

Question 62

Process of tissue culture in plants?

Answer 62

1. Parent plant with desirable characteristic is chosen
2. Pieces of its tissue are removed from the root or shoot tip
3. The tissue is put on medium containing growth hormones
4. Growing plants are moved to soil trays
5. Lots of clones of the parent plant are produced

Question 63

Advantages of tissue culture in plants?

Answer 63

Plants with the same beneficial features are made quickly, all year, in a little space - no worry about conditions