PCR and Its Diagnostic Role

Question 1

What is PCR?

Answer 1

Polymerase Chain Reaction is an enzyme based method to specifically amplify segments of DNA using a Thermal DNA polymerase in a cyclical process

Question 2

What is a chain reaction?

Answer 2

A series of events that each one of which is dependant upon the preceding event to sustain itself
Typically it is a series of reactions that lead to an exponential increase in the number of events occurring in a sequence

Question 3

What is the significance of PCR?

Answer 3

PCR is a method to specifically amplify segments of DNA

Question 4

What allows PCR to work so specifically?

Answer 4

Specificity stems from complementarity of the primers

Question 5

What conditions allows PCR to work specifically?

Answer 5

Is specific only if annealing is undertaken at the melting temperature Tm of the primers
ie high stringency conditions
- prevents mismatched base pairing

Question 6

What determines the segment to be amplified by PCR?

Answer 6

The sequence at the ends of the segment to be amplified

Exponential amplification requires 2 primers corresponding to these sequences

Question 7

What is DNA Dependent DNA Polymerase?

Answer 7

An enzyme recognising a specific structure consisting of a partially double stranded DNA to form an initiation complex with it

Question 8

What is the role of DNA Dependent DNA polymerase?

Answer 8

Extends a partially double stranded molecule from the 3’ end of the non-template strand

Question 9

How is a double stranded structure formed during PCR?

Answer 9

The reaction is performed by annealing (hybridising) a short single stranded molecule to a unique sequence in the target molecule

Question 10

What factors are important to consider during hybridisation of DNA strands?

Answer 10

Relies upon complementarity of the primer and target molecule to form specific perfectly matching base pairs

Question 11

How does annealing occur?

Answer 11

Annealing results from the formation of base-pairing, stabilised by hydrogen bonding

Question 12

What is annealing?

Answer 12

Annealing is essentially hybridisation

Question 13

When does annealing occur?

Answer 13

Performed only after the template is denatured by heat

Question 14

As annealing and renaturation are competitive processes, which is preferred over the other?

Answer 14

Annealing of the primer occurs in preference to renaturation and is driven by the vast excess of the primer

Question 15

How much template strand is used?

Answer 15

The template is at the start of the reaction in a low concentration

Question 16

How does the primer-template duplex form?

Answer 16

Formation of primer template duplex is forced to occur by providing a huge excess of primer

Question 17

What other reactions are competing with the formation of the primer-template duplex?

Answer 17

In competition between renaturation of double stranded template and the annealing of the primer to template

Question 18

Which polymerase is used in PCR?

Answer 18

DNA dependant DNA Polymerase

Question 19

Outline how DNA Dependent DNA Polymerase works

Answer 19

It synthesises a new nucleic acid strand by copying a DNA molecule

It cannot copy RNA nor make RNA

Question 20

How is RNA converted to DNA for PCR?

Answer 20

RNA must first be copied to DNA by reverse transcription before it can be amplified by PCR

Question 21

What does DNA polymerase require to function?

Answer 21

• Template strand + primer annealed (20-30 bases long)
• Deoxynucleotide triphosphates (dATP, dGTP, dCTP, dTTP)
• Mg2+ ions (cofactor)
• Roughly neutral pH

Question 22

What are the 3 states the cyclical PCR process transitions between?

Answer 22

Denatured (template becomes single stranded)
Annealed (formation of initiating template)
Native state at the optimal extension temperature and pH for enzyme activity

Question 23

What are the stages of PCR reliant upon?

Answer 23

hybridisation of primers and formation of a partial duplex

Question 24

Why is it significant for the polymerase in PCR to be thermostable?

Answer 24

For PCR to work the reaction MUST go through multiple rounds of extreme heating and cooling
so polymerase MUST be thermostable

Question 25

What is thermostability?

Answer 25

“able to retain activity” upon repeated heating to temperatures that would “destroy” most enzymes

Question 26

Where do we obtain the thermostable polymerase used in PCR?

Answer 26

Polymerase from a thermophilic bacterium such as Thermus aquaticus is often used (Taq polymerase)

Question 27

Outline the cyclical process of PCR in detail

Answer 27

1. Mix all reactants together
   e. g. Template, Primers, Enzyme & Reactants
2. Denaturation: heat to thermally denature template
   strand (95°C) - unwound due to heating, breaking H
   bonds => separating strands
3. Cool mixture to temperature approximating primers Tm
   (e.g. 50°C) - allows corresponding primers to bind to
   complementary template strand
4. Heat to 72°C - optimal temperature for thermal
   polymerase to work => an initiation complex forms as
   polymerase recognises partial duplex, elongating 3’
   prime end of primer to create a new strand

5.Repeat process multiple times (typically 30-40 times)

Question 28

How much product is formed per cycle of PCR?

Answer 28

Every cycle results in a doubling of the amount of product, thus the exponential accumulation

Question 29

Describe the kinetics of PCR reactions

Answer 29

The reaction has characteristic kinetics determined by depletion of reactants and the acidification of the reaction

Question 30

Describe kinetics we would see on a linear scale when plotting the PCR reaction

Answer 30

Sigmoidal curve
as elongation occurs, H+ ions are produced due to addition of dNTPs to elongating strand
Also produce pyrophosphate

Question 31

Why does the PCR kinetic graph Plateau?

Answer 31

No. of primers present depletes and [template] increases ∴ changing environment in which polymerase works as a consequence of acidification of the reaction causing a plateau
=> no longer producing product

Question 32

What are the diagnostic applications of PCR?

Answer 32

Routine diagnostic tool used for identification, confirmation and quantification of specific DNA sequence

Question 33

Outline examples where PCR is used in diagnostics

Answer 33

Presence absence calling TB - detection in sputum, determining treatment response/drug efficacy

Differentiating between closely related organisms “swine flu vs human influenza” both H1N1 subtypes

How much: determine when treatment might be commenced, “HIV viral load”

Question 34

Why is it difficult to ‘measure’ PCR

Answer 34

End of the PCR reaction doesn’t have a quantitative output

Can’t be used to inform template copy number or how much we started off with

Question 35

How do we quantify PCR if the end point isn’t measurable?

Answer 35

We therefore use modifications of this technique to provide measurable output during the exponential phase of the amplification in “real-time”

Question 36

Why is PCR end point not quantifiable?

Answer 36

Same end point regardless of starting concentration as amplification becomes rate limited

Question 37

What are the quantitative PCR methods available for diagnostics?

Answer 37

Collectively referred to as real-time PCR / Quantitative PCR

These techniques utilize fluorescent detection of the amplification used to quantify the amount of a target DNA molecule in the sample

Question 38

What is a SNP?

Answer 38

Single nucleotide polymorphism SNP – single nucleotide genetic variants

Question 39

How can we identify SNPs?

Answer 39

Several methodologies enable us to detect SNPs two are adaptations of quantitative real-time PCR

Question 40

How do SNP detection methods allow us to identify and differentiate between SNPs?

Answer 40

These methods depend upon the differences in the melting temperature (Tm) conferred upon short sequences of DNA by their nucleotide composition

Question 41

What are the common applications of PCR SNP Detection?

Answer 41

Antibiotic resistance testing -TB + many other organisms

Identification of genetic markers
- drug sensitivity/catabolism (CYP2C9 and VKORC1 variants
confer warfarin sensitivity),markers of disease (Cancer) or
treatment response (HCV)

Question 42

What are the 2 approaches to detecting SNPs?

Answer 42

High resolution melting (HRM)

Probe based version of qPCR

Question 43

What is high resolution melting (HRM)?

Answer 43

Tm of the amplified product is used to determine which sequence is present

Question 44

What is Probe based qPCR?

Answer 44

(Sometimes referred to as Allelic discrimination) where specific binding of the probe to the amplified region containing the SNP is detected

Question 45

How is PCR used in forensics?

Answer 45

PCR is used in forensics and law enforcement in the amplification of genetic markers

Question 46

Outline th euses of genetic markers and PCR in law and forensics

Answer 46

• Parentage or kinship: immigration and inheritance
• Identification: military casualties, missing persons or
  environmental disasters
• Matching two sources: crime scene
• Authentication of biological material: cell lines, food purity

Question 47

How does forensics allow us to identify?

Answer 47

Forensic identification uses repetitive sequences - short tandem repeats (STRs)

Question 48

What are short tandem repeats (STRs)?

Answer 48

2-5 or more bases in length repeated many times at specific locations in the genome

Question 49

Where are STRs found?

Answer 49

Many different STRs are found scattered around the genome

They are Highly polymorphic- ie the number of repeats varies between individuals

Question 50

What is the significance of STRs?

Answer 50

Provide a pattern of uniquely sized products accorded by each individual’s genome providing a molecular bar code or “DNA fingerprint”

Question 51

How are STRs used to identify people?

Answer 51

Multiple sets of labelled Primers are designed such that the products span different STRs

More STRs investigated = more unique pattern of sizes produced providing a “DNA fingerprint” of STRs around genome

Question 52

How common are STRs?

Answer 52

Each STR has a normally observed range in population
E.g.,
VWA is found on chromosome 12 consists of a TCTG or TCTA repeat, that is repeated between 11 and 24 time

Question 53

What are the other applications of PCR and STRs?

Answer 53

Amplifying material prior to:
- Next generation sequencing
eg. Simultaneously sequencing large number multiple
PCR products of candidate Cancer genes
- Isolating individual segments of DNA prior to cloning or
sequencing

Manipulating and modifying DNA
- Introducing mutations into a sequence of DNA
- Modifying ends of a sequence to make it contain
restriction sites compatible with cloning vectors

Question 54

What is the significance of PCR in recombinant DNA technology?

Answer 54

PCR is one of the most commonly used and important tools used in Recombinant DNA technology in the pharmaceutical industry

e.g developing recombinant vaccines, pharmaceuticals (interferons, clotting factors, Tissue plasminogen Activator etc)