Selective breeding (paper 2) Flashcards
definition of selective breeding
the process by which humans artificially select plants and animals to breed for particular genetic characteristics
what is the basic process of selective breeding
- take 2 individuals with the (named) desirable characteristics
- Breed them together
- Select individuals with the desirable from the offspring
- Breed them together
- Repeat over many generations
give 4 instances where selective breeding is used
- Cattle (animals) that produce more meat or milk
- Domestic dogs with a gentle temperament
- Disease/ Insect resistant crops
- large or unusual flowers in decorative plants
name the 3 problems with selective breeding
- leads to a reduction in the gene pool
number of different alleles in the population decreases, as those chosen to breed are closely related (inbreeding) -
inbreeding can result in health problems
- increased risk that offspring inherit harmful genetic defects as gene pool is limited
- dalmatians prone to deafness -
New diseases and defects can easily occur
- not much variation, if one killed, others likely to sucuumb
advantage of selective breeding
increase frequency of desired characteristics
genetic engineering definition
process which modifies the genome of an organism by introducing a gene from another organism to give it a desired characteristic
give 4 examples of genetic engineering
- Treating diabetes: produces more human insulin
- Modified crops –> increase size, improve quality, insect/ chemical resistant
-
Genetically modified sheep: produces specific substances in their milk Pharming e.g. production of clotting factor IX to treat blood clotting disorders
4.Gene Therapy: genetically modified treatments for people with inherited diseases –> inserting working alleles into people w/ disease
what are organisms which have been given gees from other organisms called
transgenic
what are GM crops
Genetically Modified crops
examples of GM crops
- insect / herbicide resistant
- larger fruit size
describe the process of the genetic engineering of human insulin
- Human cell DNA containing insulin gene is extracted
- Insulin gene extracted from DNA using restriction enzymes
- Plasmid extracted from bacteria cell
- Section of plasmid is cut out of plasmid
- Insulin gene inserted into empty section of plasmid DNA using ligase
- Engineered bacteria multiply, producing insulin
- Insulin separated and purified to produce human insulin
what are the advantages of genetically engineered bacteria producing human insulin
- greater availability of insulin for diabetes
- reduces cost of treatment
- very few side effects
what are the pro’s of GMOs
- Nutritional values of foods improved (introducing protein, vitamins, vaccines)
- crops can be produced without know allergens
- can grow in poor quality soils and harsh environments
- resistant the herbicides and insecticides
- improve food supply / improved crop yields
- longer shelf life
Cons of GMOs
- not yet know the long-term side effects
- limit biodiversity of local environment, outcompete the native species
- Cross pollination of non-GM plants could lead to ‘super weeds’
- disrupt food chains and food webs
- different government may have conflicting regulatory standards concerning safe usage
Cons of genetically modified medicine
- Ethical issues: not right to transfer genes from one organism to another
- concerns that genetically engineered viruses may reproduce inside cells of organisms
- not yet know the long-term side effects
- may be possible for rise in certain types of allergies