Natural Selection And Genetic Modification

Question 1

Evolution

Answer 1

A gradual change in the characteristics of a species over time.
(Takes place over millions of years)…

Question 2

Natural selection

Answer 2

The process allowing species to respond to particular selection pressures.

Question 3

Stages of natural selection

Answer 3

Variation
Overproduction of offspring
Selection pressure
Survival of the fittest
Reproduction
Adaptation

Question 4

Why’s their genetic variation within a species?

Answer 4

Sexual reproduction and new alleles that arise due to mutations.

Question 5

What’s overproduction of offspring?

Answer 5

Much offspring being produced to create a better chance of passing on genes.

Question 6

What’s selection pressure?

Answer 6

Competition between individuals due to limited resources of natural factors (eg: light/food).

Question 7

What’s survival of the fittest?

Answer 7

The organisms with more suitable characteristics having a better chance of survival so that they may reproduce.

Question 8

What’s adaptation?

Answer 8

Organisms passing on their advantageous allleles, leading to gradual adaptation of a species to their surroundings. These changes only occur from generation to generation.

Question 9

Industrial melanism

Answer 9

Change from light to dark forms in industrial areas.

Question 10

Common ancestor

Answer 10

An organism that different species have descended from.

Question 11

What’s the evidence proving evolution?

Answer 11

Antibiotic resistance
Fossils (hominids)
Development in complexity of stone tools
The pentadactyl limb

Question 12

Hominids

Answer 12

Human beings and their ancestors.
ARDÍ (4.4 million yrs ago)
LUCY (3.2 million yrs ago)
TURKANA BOY (1.6 million years ago)

Question 13

How does antibiotic resistance work?

Answer 13

When bacteria develops random mutations that work to a bacterium’s advantage (to resist particular antibiotics) which increases the likelihood of that bacterium’s survival and reproduction.

Question 14

How do fossils prove evolution?

Answer 14

By arranging the fossils in chronological order, we can see changes over time. (Eg: we share a common ancestor w chimps 6 million years ago)

Question 15

What species was ARDI? Where was she found and how old is she?

Answer 15

Ardipithecus Ramidus
Ardithipecus ramidus
She was found in Ethiopia, aged 4.4 million years old.

Question 16

Characteristics of ardi

Answer 16

Apelike big toe for climbing trees
Long arms and short legs
Chimp size brain
Leg structure suggesting she walked upright.
Didn’t use hands to walk

Question 17

What species was lucy? Where was she found? How old is she?

Answer 17

She is of species ASTRALOPITHECUS AFARENSIS and was found in Ethiopia.
She’s 3.2 million years old.

Question 18

Characteristics of lucy

Answer 18

Arched feet (not climbing)
Longer arms and legs
Larger brain capacity than ardi
Walked more efficiently upright

Question 19

What species is Turkana boy? Who discovered him and when? How old is he?

Answer 19

He’s of species HOMO ERECTUS. Was found by Richard Leakey in 1984.
He’s 1.6 million years old.

Question 20

Characteristics of Turkana boy?

Answer 20

Short arms and legs
Similar brain size to that of humans.
Better adapted to walking upright than lucy.

Question 21

Who came up with the theory of evolution by natural selection?

Answer 21

Charles Darwin

Alfred Russel Wallace

Question 22

How long did Darwin sail the world and on which ship?

Answer 22

5 years on the HMS beagle.

Question 23

How have Darwin and Wallace’s theories influenced modern biology?

Answer 23

We now all understand that we all came from a common ancestor.
We can now CLASSIFY organisms based on how closely related they are.
We now understand the risks of ANTIBIOTIC RESISTANCE and how to prevent this.
We now understand the need to CONSERVE as genetic diversity enables adaptations to changing environments.

Question 24

Order of homo species

Answer 24

Homo habilis
Homo erectus
Homo Neanderthalis
Homo sapien

Question 25

What type of tools did homo habilis produce?

Answer 25

Pebble tools often from hitting rocks together to produce sharp flakes. They were used for scraping meat off of bones and cracking bones open

Question 26

What tools did homo erectus produce

Answer 26

Simple hand axes (sculpted) which were used to hunt, dig, chop and scrape meat off of bones

Question 27

What tools did homo neanderthalis produce

Answer 27

Flint tools, pointed and wooden spears

Question 28

What tools did Homo sapiens produce

Answer 28

50000 years ago, flint tools, buttons, needles and fishing hooks were discovered

Question 29

How do scientists work out ho old a fossil is?

Answer 29

Looking at structural features
Stratigraphy
Carbon dating

Question 30

Pentadactyl limb

Answer 30

Limb with five digits.
Many species have this which proves evolution as the similarity in bone structure must have came from one common ancestor.

Question 31

Classification

Answer 31

Organising living organisms into groups

Question 32

The five kingdoms`

Answer 32

Animals
Plants
Fungi
Prokaryotes
Protists

The five kingdom classification system is v out of date.

Question 33

Acronym for classification

Answer 33

Korean Pandas Climb Over Fences Going South

Question 34

Order of classification

Answer 34

Kingdom 
Phylum
Class
Order
Family
Genus
South

Question 35

What classification system do we use today? Why?

Answer 35

We use the three domain system as the five kingdom system is outdated due to advancements in technology and understanding of organisms. Carl woese proposed this after discovering differences within the prokaryotes kingdom.

Question 36

Three domains

Answer 36

Eukarya
Archaea
Bacteria

Question 37

Eukarya

Answer 37

Organisms with a nucleus and unused sections of genes.

Question 38

Bacteria

Answer 38

Organism with no nucleus and no unused DNA.

Question 39

Archaea

Answer 39

Organism with no nucleus and unused DNA.

Question 40

Selective breeding

Answer 40

When humans artificially select which plants/animals are to breed so that genes for particular characteristics can remain in the population.

Question 41

Process of selective breeding

Answer 41

1 select organisms with best characteristics
2 breed them
3 choose offspring w best characteristics and breed
4 repeat until all offspring have desired characteristics.

Question 42

Benefits of selective breeding

Answer 42

Used in agriculture to increase yield.

Used in medicine to research.

Question 43

Disadvantages of selective breeeding

Answer 43

Reduces gene pool.
Creates health problems.
Makes population more vulnerable due to lack of variation within species.

Question 44

Tissue culture

Answer 44

Growing cells on an artificial growth medium, produces clones.

Question 45

Why are plants grown this way?

Answer 45

Easy
Useful
Quick
Takes up little space
Can be grown all year.

Question 46

Process of tissue culture

Answer 46

1 Choose plant you want to grow (based on characteristics).
2 Remove a small piece of tissue from the meristem of the parent plant.
3 grow tissue in a growth medium like agar jelly that contains nutrients and hormones under aseptic conditions (use bromine/chlorine)
4 can be moved to potting compost to carry on growth.

Question 47

Use of animal tissue culture

Answer 47

Used in medical research to carry out experiments on cells in isolation.
Eg effect of glucose on pancreatic cells.

Question 48

Why is animal tissue culture used in this way?

Answer 48

So that you can look at the effects of substance/environmental change on a single tissue without your results being affected by other processes from the whole organism.

Question 49

Process of animal tissue culture

Answer 49

1 Extract a sample of tissue you want from the animal.
2 Separate the cells in the sample with enzymes.
3 Place the cells in a tissue vessel and bathe in a growth medium w nutrients so they can grow/multiply.
4 They can be stored for future use

Question 50

Genetic engineering

Answer 50

Modification of an organism’s genome to introduce desirable characteristics via the use of enzymes/vectors.

Question 51

Restriction enzymes

Answer 51

Recognise specific sequences of DNA and cut the DNA at these points. This leaves the DNA with sticky ends from where they have been cut.

Question 52

Ligase

Answer 52

Enzymes used to join 2 pieces of DNA together at their sticky ends.

Question 53

Recombinant DNA

Answer 53

Bits of DNA stuck together

Question 54

Vector

Answer 54

Something used to transfer DNA into a cell. There are 2 sorts, plasmids and viruses.

Question 55

Plasmid

Answer 55

Small, circular molecules of DNA that can be transferred between bacteria.

Question 56

Virus

Answer 56

Insert DNA into the organisms they infect.

Question 57

Process of genetic modification

Answer 57

1 Cut out the DNA you want to insert using restriction enzymes, also cut out the vector w the same.
2 stick the sticky ends of the vector and cut out DNA together by mixing them with ligase. This forms recombinant DNA.
3 insert the recombinant DNA into bacteria to multiply.
4 these can now be used to Markle the protein you want

Eg: bacteria is put in fermenter to produce insulin for those with diabetes

Question 58

Uses of GM in agriculture and concerns

Answer 58

Can be used to genetically modify crops to increase yield/ be herbicide resistant.
Transplanted gene could spread to the environment, creating new super species. Also we are yet to know about the long term effects of GM food, could adversely affect food chain/human health.

Question 59

Uses of GM in medicine and concerns

Answer 59

Can be used to produce useful proteins/ insulin from sheep/cows (eg via milk).
However is hard to predict effects it could have on the organism as many GM embryos die or have health problems.

Question 60

How can GM be used for insect resistance?

Disadvantages?

Answer 60

Improves crop yield and reduces needs for chemical pesticides. Bacillus thuringiensis produces a toxin that kills insect larvae and is inserted into crop’s DNA so that it’s present in their stems/leaves. Specific to pests, harmless to rest.

Danger that the pests will develop resistance so farmers must use other insecticides too.

Question 61

How does GM help us cope with overpopulation?

Answer 61

Help to increase food production while combatting deficiency diseases.

Some may argue that poverty is the real source of world hunger.
Countries may become dependent on GM companies.
Poor soil means no crop will survive.

Question 62

Fertilisers

Disadvantages??

Answer 62

Improve soil and contain minerals like nitrates/phosphates to replace lost nutrients in the soil.

Excess fertilisers can cause eutrophication

Question 63

Biological control

Disadvantages??

Answer 63

Using other organisms to reduce pest numbers, have longer effects and less impact on wildlife.

Can become pests themselves however…