• A cell is the basic unit of life; all organisms are made up of cells.
• The nucleus is a large organelle found in all cells, that contains the genetic information.
• Chromosomes are thread-like structures made of DNA found in the nucleus
• Genes are small sections of a chromosome that control the characteristics of an organism.
• These are passed on from parent to offspring, resulting in offspring of plants and animals having
similar characteristics to their parents. Eg hair colour and petal colour
Sexual reproduction
• Involves two parents.
• They produce male and female sex cells (gametes).
• In humans these are sperm and eggs.
• Fertilisation occurs - the joining (fusion) of male and female gametes.
• The mixture of the genetic information from two parents leads to variety in the offspring.
• Genes are passed on in the gametes, from which the offspring develop.
Asexual reproduction
• Involves only one individual as a parent.
• There is no fusion of gametes.
• There is no mixing of genetic information and so no variation in the offspring.
• These genetically identical individuals are known as clones.
Examples:
• Bacteria or yeast cells use binary fission
• Plants can use runners, bulbs or vegetative
propagation.
• Some invertebrate animals like starfish and hydra can produce
asexual offspring.
Cloning
• Humans can carry out various procedures to create clones of plants and animals.
• These new individuals are genetically identical to the parents.
• New plants can be produced quickly and cheaply by taking cuttings from
older plants.
Tissue culture
• This uses small groups of cells from part of a plant to grow new plants.
Embryo transplants
• This involves splitting apart cells from a developing animal embryo before
they become specialised.
• The identical embryos are then implanted into the wombs of host mothers
Advantages:
• This technique could be used to make many copies of cows that have a high milk yield.
• It would produce a herd of cows much faster than if the original cow was used for breeding in the
normal way.
Concerns:
• People do not want this procedure to be used in humans.
• It could be used to provide more embryos for scientific testing.
Adult cell cloning
• The nucleus is removed from an unfertilized egg cell.
• This is replaced with the nucleus of an adult cell (eg skin cell).
• An electric shock is used to start the cell dividing to form embryo cells.
• These embryo cells contain the same genetic information as the adult skin cell.
• When the embryo has developed into a ball of cells, it is inserted into the womb of an adult female
to continue its development.
Advantages:
• This could be used to clone animals with desired characteristics, eg farm animals.
• It could possibly be used to save animals from extinction.
Concerns:
• People do not want human babies to be cloned.
• If this is used in farming, it produces lots of genetically identical individuals;
• If there is a change in the environment, they may all struggle to survive.
Genetic engineering
• Genes from the chromosomes of humans and other organisms can be cut out using enzymes and
transferred to cells of other organisms.
• Cut out the insulin gene from the DNA of a human cell using an enzyme.
• Remove a ring of DNA from a bacterium and open it up using the same enzyme.
• Insert the insulin gene into the plasmid using another enzyme.
• Enable a bacterium to take up the altered DNA.
• Put the bacterium in a fermenter, and it multiplies many times.
• Each new bacterium contains the insulin gene.
• The bacteria produce insulin which can be extracted.
Examples of uses in medicine:
• Vaccine production
• Production of insulin for diabetics.
Other uses of genetic engineering
• Genes can also be transferred to the cells of animals or plants at an early stage in their
development so that they develop with desired characteristics.
• This could be used to insert ‘healthy’ genes into an embryo that has a genetic disease.
• New genes can also be transferred to crop plants
• Crops that have had their genes modified in this way are called genetically modified crops (GM
crops).
• Examples of genetically modified crops include ones that are resistant to insect attack or to
herbicides.
• GM crops generally show increased yields.
Concerns:
• Long-term, unpredicted effects of
consuming GM plants on human health.
• People may want to manipulate the
genes of their future children.
History GCSE AQA B: Modern World History - International Relations: Conflict and Peace in the 20th Century - Topic 2: Peacemaking 1918-19 and the League of Nations