cloning and biotech🤖

Question 1

explain relationship between sugar concentration falling and ethanol concentration increasing in a bacteria pop

Answer 1

• sugar converted to ethanal
• anaerobic respiration
• sugar undergoes glycolysis
• pyruvate forms ethanal
• NADH gives H to ethanal
• NAD regenerated

Question 2

why is ethanol considered a primary metabolite of yeast

Answer 2

produced during normal growth

Question 3

2 factors that may limit max size of yeast population

Answer 3

• sugar concentration falls too low

- pH falls too low

Question 4

methods of immobilising enzymes

Answer 4

• entrapment in matrix eg polysaccharide, gelatine, activated carbon
• membrane entrapment in microcapsules or behind semi permeable membrane
• adsorption (ionic bond to solid) eg cellulose, silica
• alginate beads
• covalent bonding

Question 5

benefits of immobilised enzymes

Answer 5

• cheaper in long run as can be reused
• enzyme separate from product so do not have to purify so save money
• immobilised enzyme works at higher temp so reaction can be faster
• can work in changed pH

Question 6

4 stages of bacterial growth are

Answer 6

• lag phase
• log phase
• stationary phase
• death phase

Question 7

what is a primary metabolite

Answer 7

• molecule made in or needed for normal growth

- eg glucose or ethanol

Question 8

2 factors in a fermenter to maximise bacteria growth

Answer 8

• maintain optimum temp

- increase O2

Question 9

define recombinant DNA

Answer 9

DNA combined from 2 sources

Question 10

outline process by which a goat may be cloned

Answer 10

• somatic nucleus fused with empty egg cell from another goat
• by electric shock
• this cell grown in vitro
• embryo split
• embryos put in surrogates

Question 11

what is ethanol used for in plant cloning

Answer 11

sterilising the plant tissue

Question 12

the tissue sample removed in plant cloning is called…?

Answer 12

the explant

Question 13

in plant cloning, what is the mass of cells produced called

Answer 13

callus

Question 14

differences between TLC and gel electrophoresis

Answer 14

• TLC separates by solubility, GE seperates by size
• TLC separates non charged particles, electrophoresis separates charged
• dyes used in TLC, fluorescent tag in electrophoresis
• buffer solution in electrophoresis not TLC
• electricity used for electrophoresis not for TLC

Question 15

how to increase rate at which bacteria take up plasmids

Answer 15

electroporation

Question 16

in genetic engineering of e.coli why is a plasmid containing antibiotic resistance gene used

Answer 16

acts as marker gene to indicate which bacteria have taken up plasmid

Question 17

how to use PCR to compare e.coli growth rates on cancerous liver tissue and healthy tissue

Answer 17

• extract DNA from cancerous liver tissue and healthy tissue
• choose primers for e.coli and DNA
• compare rate of DNA amplification

Question 18

uses of dna profiling

Answer 18

• paternity
• forensics
• classification

Question 19

why are some regions of DNA described as non coding

Answer 19

• introns are non coding
• not present in mature mRNA
• not translated
• regulatory genes

Question 20

why do non coding regions of DNA show more variation

Answer 20

not selected against

Question 21

describe micro propagation

Answer 21

• take small tissue sample from parent plant (explant)
• sterilise sample with ethanol
• put sample in sterile agar plate with nutrients and hormones
• cells multiply to form mass of identical cells called a callus
• callus is divided up and transferred to new culture medium of hormones and nutrients which causes developments of genetically identical plantlets
• plantlets into compost

Question 22

disadvantage of micropropagation

Answer 22

• no genetic variation so susceptible to same diseases
• relatively expensive and requires skilled workers
• explants and plantlets susceptible to moulds and other diseases
• if source is infected with virus then all clones will be

Question 23

what is artificial embryo twinning

Answer 23

many identical embryos from one developing embryo

Question 24

disadvantage of animal cloning

Answer 24

no genetic variation

Question 25

what is biotechnology

Answer 25

use of organisms in technology to make a useful product

Question 26

what does aseptic mean

Answer 26

without microorganisms

Question 27

list two aseptic techniques

Answer 27

• sterilising equipment

- hand washing

Question 28

compare the two types of fermentation

Answer 28

batch fermentation
-nutrients and microorganisms added to fermenter at the start, products harvested at the end of fermentation

continuous fermentation
-nutrients steadily added to fermenter and products constantly harvested

Question 29

why are aseptic techniques important in a fermenter

Answer 29

• unwanted microorganisms may grow
• these compete for food and decrease yield and may produce other products
• may be harmful microorganisms

Question 30

what type of fermentation produces penicillin and why

Answer 30

batch

-penicillin is a secondary metabolite and only produced at a later stage

Question 31

which enzyme is used to make fructose syrup

Answer 31

glucose isomerase

Question 32

advantages of continuous fermenter

Answer 32

• fermenter always in use

- high yield

Question 33

why is there a lag phase in growth

Answer 33

making proteins essential for growth takes some time

Question 34

examples of natural plant clones

Answer 34

• bulbs eg daffodil
• runners eg strawberry
• rhizomes eg marram grass
• stem tubers eg potato

Question 35

what are perennating organs

Answer 35

• contain stored food from photosynthesis
• can remain dormant in soil
• enable plant to survive adverse conditions
• asexual reproduction
• allow survival from one season to next

Question 36

advantages of plant cloning

Answer 36

• faster than growing from seeds

- guaranteed good quality plants

Question 37

what is micropropagation

Answer 37

process of making a large number of genetically identical plants from a single parent plant using tissue culture techniques

Question 38

when is micropropagation used

Answer 38

when the desired plant:

• doesnt respond well to natural cloning
• doesnt readily produce seeds
• is very rare
• has been GM or selectively bred with difficulty
• needs to be pathogen free

Question 39

advantages of micropropagation

Answer 39

• allows for rapid production of large numbers of desired plants
• way of producing large number of seedless plants
• culturing meristem produces disease free plants
• way of growing plants which are difficult to grow from seed
• way of increasing numbers of rare or endangered plants

Question 40

examples of natural animal clones

Answer 40

• starfish regenerate entire animals from fragments of original
• flatworms and sponges fragment and form new identical animals
• hydra produce small buds which develop into genetically identical clones
• monozygotic twins (early embryo splits to form two identical embryos)

Question 41

methods of animal cloning

Answer 41

• artificial embryo twinning

- somatic cell nuclear transfer

Question 42

describe artificial embryo twinning

Answer 42

• embryo either fertilised naturally and extracted or fertilised in vitro
• while cells are still totipotent, early embryo is split to produce several smaller embryos
• embryos allowed to grow in lab then implanted into separate surrogates
• embryos develop as normal, now you have a bunch of genetically identical animals

Question 43

describe somatic cell nuclear transfer

Answer 43

• nucleus removed from somatic cell of desired adult animal
• nucleus removed from mature ovum from different female animal of same species
• nucleus from desired adult animal is put into enucleated ovum and given a mild electric shock to fuse and begin to divide
• or the two cells are placed next to each other and electrofused
• embryo transferred to uterus of third animal
• new animal is a clone of original animal
• however mitochondrial DNA will come from ovum

Question 44

advantages of artificial embryo twinning

Answer 44

-animals with desired traits can produce many more offspring than naturally

Question 45

advantages of SCNT

Answer 45

• enables cloning of specific animals

- endangered animals can be reproduced

Question 46

disadvantages of SCNT

Answer 46

• inefficient process, takes many eggs to produce, many result in miscarriage
• shortened life spans

Question 47

what makes microorganisms good for biotech

Answer 47

• no welfare issues
• many different microorganisms which all carry out different chemical reactions
• can GM to make them produce any compound needed
• short life cycle and rapid growth rate
• nutrient requirements usually v cheap
• low temp

Question 48

advantages of using microorganisms to make food

Answer 48

• can GM to have high protein
• not dependent on weather
• reproduce and produce protein faster than animals and plants
• no welfare issues
• production can be easily increased or decreased to match demand
• microorganisms can consume waste for energy

Question 49

disadvantages of using microorganisms to make food

Answer 49

• microorganisms have to be separated to get product
• need sterile conditions
• some people concerned about GM
• protein needs to be purified to ensure there are no toxins or contaminants

Question 50

what type of fermentation produces penicillin and why

Answer 50

• batch fermentation
• penicillin is a secondary metabolite produced after the exponential growth phase
• cannot use continuous fermentation as this maintains the exponential growth phase

Question 51

how to estimate number of bacteria in colony

Answer 51

• assume each colony is made from one bacterium

- multiply number of colonies by dilution factor

Question 52

disadvantages of immobilised enzymes

Answer 52

• immobilising may reduce activity rate
• higher initial costs
• more technical issues with bioreactor

Question 53

advantages of immobilised enzymes over microorganisms

Answer 53

• less wasteful as no biomass is made, only product
• more efficient as isolated enzymes can be more concentrated than when in microorganism
• more specific so no wasteful side reactions occur
• maximise efficiency by using conditions optimum for the enzyme and not whole microorganism
• less purification as microorganisms produce variety of products

Question 54

how is it possible to produce many clones from one original parent plant

Answer 54

• many explants taken from original plant
• calluses subdivided
• plantlets can be subdivided

Question 55

how to ensure results are valid in experiment where you count number of bacteria

Answer 55

• use spreader to spread bacteria on agar, do not swirl plate as it may not be even and counting colonies will be more difficult
• label petri dish as soon as inoculated so dishes are not confused
• place petri dish upside down as this prevents agar drying out which would reduce growth