Topic 7 Modern Genetics

Question 1

What is the definition of genome?

Answer 1

All of the genetic information in an organism

Question 2

What is in vitro PCR used for?

Answer 2

Replicate copies of DNA outside body
Eg DNA profiling, COVID19 testing,

Question 3

What are the steps of PCR?

Answer 3

1. Separate DNA strand - heat to 95C, breaking H bonds exposing bases
2. Annealing - cool to 55C, primers added
3. Elongation - heat to 72C, DNA polymerase replicates DNA using complementary base pairing
4. REPEAT to get more samples

Question 4

What are the 3 raw materials used in PCR?

Answer 4

• DNA primer
• free DNA nucleotide
• DNA strand
• Taq polymerase

Question 5

What needs to happen before PCR?

Answer 5

Purify dna (break up cells, filter and suspend)

Question 6

Why is DNA polymerase from human sources not suitable for PCR use in machine? (2)

Answer 6

• human enzymes can’t work at high temps
• will denature

Question 7

Why can’t xylem be used in PCR and DNA profiling?(2)

Answer 7

• dead, made of dead material
• so no dna present

Question 8

What nucleotide do we use for gene sequencing?

Answer 8

Terminator bases or dideoxyribose molecules
They lack -OH on carbon 3
So it stops(terminates) the extension during PCR

Question 9

How to identify the terminator bases?

Answer 9

Add radioactive markers

Question 10

What does PCR stand for?

Answer 10

polymerase chain reaction

Question 11

Describe how a DNA profile can be produced from a small sample of DNA. (6 marks)

Answer 11

• use PCR
• to multiple copies of DNA
• use restriction endonucleases to produce DNA fragments
• gel electrophoresis
• load DNA onto gel (agarose)
• electric current applied
• use florescent tag

Question 12

Describe how small samples of DNA can be amplified. (4 marks)

Answer 12

• use PCR
• add Taq polymerase
• and primer and free nucleotides
• heat to 95C, cool to 55C, heat to 72C
• repeat several cycles to make several copies

Question 13

How to DNA sequence?

Answer 13

• PCR steps
• but with terminator nucleotides labelled with fluorescent dye
• DNA polymerase incorporates labelled dideoxynucleotides randomly during replication
• gel electrophoresis
• detect fluorescent dye

Question 14

What is the human genome?

Answer 14

all the genes of the human species

Question 15

How are DNA profiles compared? (3 marks)

Answer 15

compare
- total number of bands
- position of bands
- size/width of bands

Question 16

What are exons and introns?

Answer 16

exons are the gene, coded region/expressed
introns are the non-coded region

Question 17

What is the role of restriction endonuclease? (1 mark)

Answer 17

cut DNA to produce short sections of DNA

Question 18

Describe the process of PCR. (3 marks)

Answer 18

• use primers / nucleotides
• heat to 95C to separate strands
• cool to 55C to bind primers
• heat to 72C with Taq polymerase
• repeat to obtain multiple copies

Question 19

What is proteomics used for?

Answer 19

To study proteins (including enzymes)

Question 20

How to distinguish between species?

Answer 20

Gel electrophoresis

Question 21

What are stem cells?

Answer 21

undifferentiated cells with ability to differentiate into many types of cells

Question 22

What are 3 types of stem cells?

Answer 22

multipotent
totipotent
pluripotent

Question 23

What does pluripotent mean in terms of stem cells?

Answer 23

can differentiate into many types of specialised cells except placenta
(think p-p)

Question 24

What does totipotent mean in terms of stem cells?

Answer 24

Can give differentiate into all types of cells

Question 25

What are the 2 sources of stem cells?

Answer 25

- embryonic - adult (from bone marrows)

Question 26

What are some risks/disad of stem cells?

Answer 26

- unethical as embryo killed in the process - risk of infection during transfer - may be cancerous

Question 27

How are iPS cells produced?

Answer 27

- from **fibroblasts** - genes for transcription factors are inserted (eg Oct4, Sox2) - cells regain ability to differentiate (- encodes transcription factors)

Question 28

Explain why some cells are not able to become other cell types. (2 marks)

Answer 28

- because they are specilised / differentiated cells - so genes for other cell types are permanently turned off - so proteins needed by other cell types not needed

Question 29

Compare and contrast uses of embryonic stem cells and iPS cells. (5 marks)

Answer 29

Both - can differentiate indefinitely - potential to specialise into a number of cell types ESC / iPSC - from morula / adult cells - doesn't / has gene - less ethical implications for iPSC - may be rejected after injection / won't if own stem cells

Question 30

What is multipotent in terms of stem cells?

Answer 30

cells that can only become some cell types

Question 31

Why must stem cells ideally be taken and used by the same person? (2 marks)

Answer 31

- genetically identical - prevent rejection - reduce risk of infection

Question 32

How can stem cells reverse a paralysis in a spinal injury? (2 marks)

Answer 32

- they are totipotent / pluripotent - so can specialise and differentiate - to replace damaged cells

Question 33

How do stem cells differentiate and develop into heart muscle cells? (4 marks)

Answer 33

- stimulus of hormone / chemical - activation of genes - only activated genes are transcribed - mRNA translated - protein of specific function made - cell permanently modified

Question 34

How are fertilised eggs used as a source of human pluripotent stem cells? (3 marks)

Answer 34

- fertilised egg allowed to grow for a few days - in blastocyst - inner cell mass harvested - from spare embryos from IVF

Question 35

What are some uses of stem cells?

Answer 35

- investigate cancer - test new drugs - therapy eg gene therapy, treating diseases and accidents

Question 36

How to therapeutic cloning of stem cells?

Answer 36

- take nucleus of somatic cell (so has genetic info) - take egg cell and remove nucleus - combine - harvest and clone

Question 37

What are the 4 genes used in iPS cells to reprogram cells?

Answer 37

Oct4 Sox2 kIF4 - cancer causing cMyc - cancer causing

Question 38

How to genetically engineer?

Answer 38

1. Isolate the gene to transfer 2. Insert the gene into the vector 3. Use vector to transform the host genome by inserting DNA into it - forming recombinant DNA

Question 39

What are 2 methods to isolate and cut genes?

Answer 39

- restriction endonucleases - use mRNA and reverse transcriptase (gene synthesis)

Question 40

Why are there specific types of restriction endonuclease?

Answer 40

binds to specific base sequences where each site is

Question 41

What do restriction endonucleases do?

Answer 41

- cut DNA at different restriction sites - leave sticky ends - complementary - so is easy to insert

Question 42

How to use reverse transcriptase to produce DNA fragments?

Answer 42

find mature mRNA use reverse transcriptase (from retrovirus) to make double stranded complementary DNA

Question 43

ADs for using reverse transcriptase and mRNA > other methods of gene isolation?

Answer 43

- easier to get complete gene than from DNA - available in greater quantities - introns already removed in mRNA, bacteria can't remove introns so is simpler

Question 44

What are properties of a good vector?

Answer 44

- targets correct cells - ensures gene is inserted, so expressed by host - no significant side effects

Question 45

Give 3 properties of plasmids

Answer 45

double stranded replicates independently found separately from main DNA

Question 46

How to get recombinant plasmids into **bacteria** first (then implant to animal or plant or whatnot)? (1 mark)

Answer 46

by heat shock

Question 47

What is the bacterial pathogen that infects plants (used to genetically modify plants)? Causing Crown Gall disease

Answer 47

Agrobacterium tumefaciens need to know

Question 48

What is the effect of Agrobacterium tumefaciens?

Answer 48

infects root cells by plasmid via pilli aka Ti (tumour inducing) plasmid plant will grow tumour in roots **infects plant cells with transgene**

Question 49

What are the 3 methods to transform animal cells?

Answer 49

- viruses (engineered and injected) - liposomes - microinjection (into nucleus of cells)

Question 50

gene transformation and cystic fibrosis

Question 51

How to identify a gene is transformed?

Answer 51

florescent marker / transgene / marker gene or Replica plating: insert gene to bacteria with antibacterial resistance grow on agar and compare growth

Question 52

Describe how soya bean plants can be mass genetically engineered to produce large number of GM soya bean plants. (4 marks)

Answer 52

- use restriction enzyme to cut DNA - use ligase to insert and join DNA - use vector - use Agrobacterium to infect - cloning to produce large numbers

Question 53

Describe how a fungus can be modified to make a spider toxin. (3 marks)

Answer 53

- isolate code for spider toxin - use restriction endonuclease - gene inserted into fungus using a vector eg gene gun - clone the genetically modified fungi

Question 54

What do transgenic plants mean?

Answer 54

genetically modified cells

Question 55

In DNA profiling, what type of DNA fragments travel furthest?

Answer 55

Smallest fragment Travels fastest and furthest

Question 56

Describe evidence, other than gel electrophoresis, a scientist can use to establish evolutionary relationships between species. (4 marks)

Answer 56

- if they can interbreed and produce fertile offspring - compare anatomy, behavioural and physical characteristics - molecular phylogeny - ecological niche, and where they can be found - DNA sequencing

Question 57

What are knockout mice and how are they useful?

Answer 57

- mice with one or more genes silenced - to investigate gene function -create animal models of disease to allow research - test for treatments

Question 58

What is the process of producing transgenic plants?

Answer 58

- extract plasmid -insert gene - infection plan w bacteria -grow

Question 59

How to genetically modify soya beans? What is the benefit of it?

Answer 59

- linoleic acid (polyunsaturated) to replace oleic acid (mono saturated) - oxidised less easily so prolongs shelf life and healthier

Question 60

What are advantages of widespread use of genetic modification?

Answer 60

- improve nutritional value - greater crop yields - less need for pesticides

Question 61

What are disads of genetic modification?

Answer 61

- reduced biodiversity - unknown effects on health - can result in herbicide-resistant weeds

Question 62

What is replica plating

Answer 62

- technique to produce multiple near-identical arrangements of organisms on agar plates from a single plate for comparisons - test for antibiotic resistance marker genes by including antibiotics in new plates - usually test recombinant DNA - check if incorporated or self-ligated (not taken up)

Question 63

How to replica plating?

Answer 63

- one master plate - stamp covered in **sterile velvet** to imprint - have agar plats w diff antibiotics - transfer colonies - incubate and compare growth

Question 64

How can plasmids be taken up by bacteria?

Answer 64

Heat shock

Question 65

A gene may be defined as a length of DNA coding for one polypeptide chain. Why do they sometimes end up coding for different cells?

Answer 65

- not all DNA codes for the polypeptide chain (eg non coding regions) - RNA splicing - introns removed, sometimes exons too, exons may be rearranged - diff mRNA produced, resulting in different amino acid sequence

Question 66

Describe how a polypeptide chain is synthesised from the mRNA. (4 marks)

Answer 66

Basically transcription - mRNA attaches to ribosome - one tRNA brings one amino acid to the mRNA - binding of codon on mRNA to anticodon on tRNA - peptide bonds formed between adjacent amino acids - polypeptide detaches from ribosome

Question 67

Where are codons and anticodons found?

Answer 67

Codons on mRNA An**t**icodons on **t**RNA

Question 68

In PCR, what is annealed to the strand of DNA?

Answer 68

DNA primers

Question 69

What are the 2 properties resulting in Taq polymerase being used in PCR? (2 marks)

Answer 69

- heat stable, high optimum temperature so won’t denature in heat up to 95C - synthesis if new strand of DNA complementary to template strand

Question 70

Describe how cells become specialised. (3 marks)

Answer 70

- (epigenetic modification eg dna methylation causes some genes to be **silenced**) - transcription factors cause some genes to be **activated** - only activated genes are transcribed - synthesis of specific proteins cause cell modification

Question 72

What are the benefits of genetically modifying agricultural plants?

Answer 72

- higher yields - higher nutritional value - longer shelf life - more appealing colours/size

Question 73

What are risks of genetically modifying agricultural plants?

Answer 73

- decline of biodiversity - increase demand of land and agricultural resources - reduce land available for other crops

Question 74

What must happen after PCR but before electrophoresis?

Answer 74

- use restriction endonuclease - to produce DNA fragments

Question 75

Explain how the results of DNA analysis from faeces samples can be used to estimate the number of giant pandas in the wild. (3 marks)

Answer 75

- compare DNA profiles - compare width / position of bands - number of diff bands = number of pandas

Question 76

Where are embryonic stem cells extracted from? And what were iPS cells?

Answer 76

Embryonic stem cells - from **morula** iPS cells were **adult** cells

Question 77

Why is embryonic stem cells likely to be rejected but not iPS cells?

Answer 77

Embryonic are **antigenic** iPS cells are **patient-matched**

Question 78

Describe genetic modification. (3 marks)

Answer 78

- changes that affect gene expression / activation - such as DNA methylation and his tone acetylation - involved in differentiation, change in proteins synthesised