Lecture 2

Question 1

How do you clone DNA

Answer 1

1) Cloning vactor is cleaved with restriction endonuclease (Isolating DNA)
2) DNa fragment of interest is obtained by cleaving chromosome with a restriction endonuclease.
3) Fragments are ligated to the prepared cloning vector. (Recombinant vector)
4) DNA is introduced into the host cell.
5) Propagation (cloning) produces many copies of recombinant DNA.

Question 2

How do you isolate DNA

Answer 2

A. Source DNA (e.g. E. coli bacteria)
i. Centrifuge: 8,000 rpm to pellet cells
ii. Discard supernatant (media/serum)
iii. Resuspend cells in Tris/EDTA solution
B. Lyse cells to release contents (DNA, RNA & proteins)
 Chemical lysis [e.g. add alkaline + detergent (Experiment 2)]
C. Separate DNA
i. Potassium acetate (neutralise solution),
centrifuge (spin)
ii. Transfer supernatant containing plasmid DNA,
add isopropanol to precipitate DNA, spin
iii. Pour off supernatant, add ethanol, spin
D. Analyse isolated DNA for purity
 Agarose gel electrophoresis
 UV Spectrophotometry

Question 3

How do you obtain DNA fragment of interest

Answer 3

(i) Use restriction enzymes to ‘cut’ DNA at specific sites
screen for fragment of interest
(ii) Use PCR to amplify gene of interest
b. Choose vector:
Usually a plasmid (small circular DNA molecule,
independently replicating):
‐ Cloning plasmid or Expression plasmid

Question 4

What are the recognition site

Answer 4

often
palindromic
TaqI: 5’ TCGA 3’
3’ AGCT 5’

Question 5

How does the sticky end of complementary sequence re-anneal

Answer 5

h-bonding

Phosphodiester bonds can then be formed between broken bonds of adjacent bases by DNA ligase

Question 6

How does no overhang DNA reanneal

Answer 6

Using adjacent bases – DNA ligase is required for this covalent linkage

Question 7

What is the use of Mg2+

Answer 7

• Typically require
Mg2+ for catalysis
e.g. Mg2+ binding site
in EcoRV – Mg2+ ion
activates/positions
water molecule so it
can attack phosphate

Question 8

How toHydrolyze bond between 3’ oxygen and phosphorus

Answer 8

DNA strand with a free 3’ hydroxyl group and another strand with a 5’ phosphoryl group

Question 9

How do we identify that the DNA has been ‘cut’ with RE?

Answer 9

Use AGAROSE GEL ELECTROPHORESIS: separate restriction

fragments

Question 10

SOUTHERN BLOT ANALYSIS

Answer 10

identify gene of interest via hybridization

Question 11

Detect a DNA fragment carrying gene of interest by

Answer 11

1. Use sequence‐specific probe complementary to gene of interest
   (Synthetic “probe” = oligonucleotide: short sequence of single
   stranded DNA)
2. Hybridize radiolabelled/fluorescent probes to DNA fragment

Question 12

A critical parameter in hybridization is the

Answer 12

melting point(Tm)

Question 13

What is Tm

Answer 13

the temperature at which 50% of the double‐

stranded DNA duplex will dissociate to become single stranded

Question 14

What is southern blotting

Answer 14

Identify gene of interest via specific probe complementary to
gene of interest

Question 15

What are the steps for SOUTHERN BLOT ANALYSIS

Answer 15

1) Isolated DNA, cut by REs

2)DNA fragments separated by
agarose gel electrophoresis

3) Blotting:
Separated DNA fragments
transferred to nitrocellulose paper

4)Remove nitrocellulose paper
filter from agarose gel, will
contain tightly bound DNA
fragments

5) Hybridisation step:
Radioactively‐labelled DNA probe
incubated with nitrocellulose filter
to hybridised to complementary
DNA bands

6)Detection:
Nitrocellulose filter exposed to
X‐ray film (autoradiography) to
detect probe bound to target
sequence

Question 16

What is northern blotting

Answer 16

Detecing RNA from gels onto similar membrance

Question 17

What is western blotting

Answer 17

Detecting protein from polyacrylamide gels onto membrane

Question 18

How does POLYMERASE CHAIN REACTION (PCR) amplify DNA

Answer 18

Utilizes “melting” and “annealing” properties of DNA

Question 19

What are the 3 steps of PCR

Answer 19

steps: denaturation, annealing, extension

Question 20

DNA polymerase used in PCR

Answer 20

Taq polymerase:

catalyze stepwise addition of nucleotides at 3’ end

Question 21

Sequence‐specific primers used in PCR

Answer 21

(oligonucleotides) – must flank

the DNA sequence of interest

Question 22

Nucleotide bases in PCR

Answer 22

(dNTPs: dATP, dCTP, dTTP, dGTP)

Question 23

What is the buffer for in PCR

Answer 23

• Buffer: maintains pH (enzyme: pH dependent)
• MgCl2: 1‒2.5 mM (optimise experimentally)
• Salt (e.g. KCl): ionic strength important
• DMSO: Facilitates strand separation – disrupts base
pairing

Question 24

What is the effect of increasing primer length

Answer 24

increases specificity

Reduce the number of mismatches

Question 25

Annealing Temperature (Tann)

Answer 25

the temperature at which 50% of

primers anneal to DNA