PCR: Its use in molecular biology and clinical diagnostics

Question 1

Define Polymerase chain reaction

Answer 1

An enzyme-based method to specifically amplify segments of DNA using a thermal DNA polymerase in a cyclical process.

Question 2

Define chain reaction

Answer 2

A series of events each one of which is dependent upon the preceding event to sustain itself.

Question 3

What type of reaction is PCR?

Answer 3

It is an exponential reaction which results in a doubling the number of molecules present within the reaction mixture at every cycle.

Question 4

What is PCR used for?

Answer 4

It is a method to specifically amplify segments of DNA.

Question 5

What is the specificity of PCR dependent on?

Answer 5

It is dependent on the complementarity of the primers themselves.

Question 6

How are specific target molecules amplified?

Answer 6

They are dependent on the properties and behaviour of the primers used and the sequences of the primers in the context of PCR.

Question 7

At what temperature is the annealing stage performed?

Answer 7

It is performed at or near to the Tm of the primer.

Question 8

Why is annealing performed at or near the Tm of the primer?

Answer 8

It will prevent mismatch-based pairing therefore have a high specificity towards the reaction.

Question 9

Why is the sequence that we are annealing important?

Answer 9

It is important so that we can make the primers unique and adjacent to the position where we want to amplify the product.

Question 10

Why is it important to pick a sequence that is unique?

Answer 10

Primers that are complementary to sequences that are frequently found in the population of molecules that we want to amplify, there would be a lot of specificity irrespective of the temperature that we perform the annealing at.

Question 11

How many primers are needed for an exponential reaction?

Answer 11

two primers

Question 12

Why are two primers needed for an exponential reaction?

Answer 12

One primer that is complementary to each of the two strands and these primers would be orientated in opposite directions to each other such that the polymerase would produce a template which would move towards the opposing primer.

Question 13

What DNA polymerase is used to elongate the template molecule?

Answer 13

DNA dependent DNA polymerase

Question 14

What is the structure of the primer/template dimer?

Answer 14

Consists of a partially double-stranded DNA with a 3’ end forming an initiation complex with it.

Question 15

How is a partially double stranded structure formed?

Answer 15

It is formed by annealing a short-single stranded DNA molecule (primer) to a denatured and thus a single stranded DNA molecule.

Question 16

Why does annealing occur?

Answer 16

It results from the formation of base-pairing, stabilised by hydrogen-bonding between the complementary bases.

Question 17

What is annealing an alternative for?

Answer 17

Hybridisation

Question 18

What is annealing?

Answer 18

It is distinctive from renaturation as we are introducing a foreign molecule to the reaction mixture and competing for the formatino of duplex against the renaturation of the template strand itself. It is performed only after the template is denatured by heat.

Question 19

Why is annealing of the primer in preference to than renaturation?

Answer 19

There is a vast excess of the primer (molar excess) present in the reaction drives the kinetics.

Question 20

Summarise the competitive process

Answer 20

• Denaturing the template
• Hybridising/annealing the primer to one/both template strands in a competitive process driven by the high molar excess of the primer.

Question 21

Why is the enzyme DNA dependent DNA polymerase used in PCR?

Answer 21

• It synthesises a new nucleic acid strand by coping a DNA molecule.
• It cannot copy RNA nor make RNA

Question 22

What needs to happen to RNA before it can be measured by PCR?

Answer 22

The RNA needs to be converted to cDNA (complementary DNA) by reverse transcription before it can be amplified by PCR.

Question 23

What does the DNA dependent DNA polymerase require?

Answer 23

• A template strand with a primer
• Deoxynucleotide triphosphates
• Mg2+ ions
• A roughly neutral pH

Question 24

What is used to stop/terminate a polymerase reaction?

Answer 24

Mg2+ is a cofactor and if removed will inhibit the DNA polymerase which will stop/terminate a polymerase reaction.

Question 25

When trinucleotide phosphate is converted into a mononucleotide phosphate, what is released?

Answer 25

Pyrophosphate and hydrogen ions

Question 26

What are the three different states that the reaction transitions through?

Answer 26

• Denatured
• Annealed
• Native state at the optimal extension temperature and pH for enzyme activity

Question 27

For PCR to work, what needs to happen to the reaction?

Answer 27

It must go through multiple rounds of extreme heating and cooling.

Question 28

What does the reaction need to work?

Answer 28

A thermostable polymerase.

Question 29

What type of polymerase needs to be used to withstand the extreme conditions?

Answer 29

A polymerase which originates from a Thermus aquaticus is used e.g. Taq polymerase

Question 30

Define thermostability

Answer 30

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

Question 31

Explain the steps of PCR

Answer 31

1. Start with a reaction mixture containing all the reaction components.
2. Denature the reaction mixture, separate the strands, heating the temperature at which the bonds break which is around 95 degrees.
3. The reaction mixture is cooled, and the primer is annealed to the template strand. The temperature needs to be close to the Tm of the duplex which would be formed between the primer and the template.
4. 72 degrees optimum temp for elongation with the polymerase
   - initiation complex formed
5. cycle repeated multiple times between denature, annealed and elongate.

Question 32

Why is PCR useful?

Answer 32

It provides a large number of molecules from a small amount of starting material.

Question 33

What is accumulated in a PCR?

Answer 33

• Exponential accumulation of product

- Pyrophosphate and hydrogen ions due to the elongation of the strand

Question 34

What happens to the pH of the PCR?

Answer 34

The reaction mixture will be acidified and thus overcome the buffering capacity of the buffer present. This will move away from the optimal pH of the reaction.

Question 35

What determines the contiuation of PCR?

Answer 35

Characteristic kinetics determined by depletion of reactants and the acidification of the reaction. The reaction will not continue infinitely and as the reaction progress, it will be terminated as a result of reducing kinetics.

Question 36

How does a PCR reaction terminate itself?

Answer 36

There is an exponential increase in the concentration of products itself and a gradual termination where no more products are made irrespective of the number of additional cycles performed.

Question 37

What is PCR used for diagnostically?

Answer 37

For identificiation, confirmation and quantification of specific DNA sequence

Question 38

Give examples of where PCR is used

Answer 38

• Sputum testing
• Differentiating between closely related organisms
• Quantitate the number of molecules present within a sample

Question 39

Why can the end point of a PCR not be used to work out the starting concentration?

Answer 39

• Take a sample of a known concentration
• Perform a serial dilution and then perform PCR
• Measure the product and see a series of different curves.
• Curves will shift to the right as diluted.
• But each reaction will have the same end point.
• The end point cannot be used to determine the starting concentration.

Question 40

What is real-time PCR?

Answer 40

• Utilising fluorescent detection of the amplification: fluorescent molecule will bind to the product. The more product accumulated, the more fluorescent.

Question 41

How is real-time PCR plotted to determine the starting concentration?

Answer 41

• After the fluorescent, perform PCR on the sample and at the same time perform a standard curve.
• There are known concentrations of template and place a threshold across those curves.
• The point at which the individual reactions cross the threshold reflect the starting concentration.
• This can then be used to identify the starting concentration of the material in a PCR by comparing it to a standard curve.

Question 42

What can PCR be used to determine the difference between?

Answer 42

Single nucleotide polymorphism (SNP)

Question 43

What are the common methodologies used to detect SNPs?

Answer 43

Adaptations of quantititative real-time PCR

Question 44

What do the methods depend on to identify SNPs?

Answer 44

The differences in the melting temperature (Tm) conferred upon short sequences of DNA by their nucleotide composition.

Question 45

Name some common applications of PCR

Answer 45

Antibiotic resistance testing - TB and many other organisms

Identification of genetic markers - drug sensitivity/catabolism, markers of disease or treatment response

Question 46

What are the two approaches for SNP detection?

Answer 46

High resolution melting (HRM)

Probe based version of qPCR (or allelic discrimination)

Question 47

What is high resolution melting?

Answer 47

• Tm of the amplified product is used to determine which sequences variant is present.
• It relies upon the difference inferred by an individual nucleotide within the amplifon.
• This variance will produce a different melting curve and different Tm associated with that melting curve depending on the specific SNP present in the amplifon.

Question 48

What is probe based version of qPCR?

Answer 48

• Specific binding of the probe to the amplified region containing the SNP is detected.
• Use a probe which is internal to the flanking primers which spans the position that corresponds to the SNP.
• As a consequence of having a different Tm can differentiate between the annealing of two probes corresponding to each of the SNPs in the molecule.

Question 49

Uses of amplification of genetic markers

Answer 49

Parentage or kinship: immigration and inheritance
Identification: military causalties, missing persons or environmental disasters
Matching two sources: crime scence
Authentication of biological material: cell lines, purity of foods

Question 50

How is PCR used in forensices?

Answer 50

Used in conjunction with short tandem repeats (or microsatillites)

Question 51

What does forensic identification use?

Answer 51

It uses repetitive sequences (STRs)

Question 52

What are STRs?

Answer 52

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

Question 53

Describe the characteristics of a STR

Answer 53

• Highly polymorphic

- Provide a pattern of uniquely sized products according to a specific individuals genome providing a “DNA fingerprint”

Question 54

How many STRS are in the UK DNA database?

Answer 54

10 STRs

Question 55

How are STRs examined in a PCR?

Answer 55

• Multiple sets of labelled primers are designed such that the products span different STRs.
• The more STRs investigated, the more unique the pattern of sizes produced providing a “DNA fingerprint” of STRs around the genome.
• Can be separated during gel electrophoresis to see the number of repeats in the STR producing an individualised barcode.

Question 56

What are the other applications of PCR?

Answer 56

• Next generation sequencing

- Isolating individual segments of DNA prior to cloning or sequencing

Question 57

How does PCR manipulate and modify DNA?

Answer 57

• Introducing mutations into a sequence of DNA

- Modifying the ends of a sequence to make them contain restriction sites compatible with cloning vectors

Question 58

How is PCR used in recombinant DNA technology?

Answer 58

Developing recombinant vaccines, pharmaceuticals