Agarose Gel Electrophoresis - PowerPoint PPT Presentation

1 / 38
About This Presentation
Title:

Agarose Gel Electrophoresis

Description:

Agarose Gel Electrophoresis – PowerPoint PPT presentation

Number of Views:519
Avg rating:3.0/5.0
Slides: 39
Provided by: jaeni
Category:

less

Transcript and Presenter's Notes

Title: Agarose Gel Electrophoresis


1
(No Transcript)
2
(No Transcript)
3
(No Transcript)
4
(No Transcript)
5
(No Transcript)
6
Agarose Gel Electrophoresis
  • Gel electrophoresis is a widely used technique
    for the analysis of nucleic acids and proteins.
    Agarose gel electrophoresis is routinely used for
    the preparation and analysis of DNA.
  • Gel electrophoresis is a procedure that separates
    molecules on the basis of their rate of movement
    through a gel under the influence of an
    electrical field.

7
DNA is negatively charged.
8
How fast will the DNA migrate?
strength of the electrical field, buffer, density
of agarose gel
Size of the DNA! Small DNA move faster than
large DNA gel electrophoresis separates DNA
according to size
small large
Within an agarose gel, linear DNA migrate
inversely proportional to the log10 of their
molecular weight.
9
What is Agarose?
10
Agarose
D-galactose
3,6-anhydro L-galactose
Agarose is a linear polymer extracted from
seaweed.
11
(No Transcript)
12
(No Transcript)
13
An agarose gel is prepared by combining agarose
powder and a buffer solution.
Buffer?
Flask for boiling?
Agarose?
14
Electrophoresis Equipment
Power supply?
?Cover
Gel tank?
Electrical leads ?
Casting tray?
Gel combs?
15
Gel casting tray combs
16
Preparing the Casting Tray
Seal the edges of the casting tray and put in the
combs. Place the casting tray on a level surface.
None of the gel combs should be touching the
surface of the casting tray.
17
Agarose
Buffer Solution
Combine the agarose powder and buffer solution.
Use a flask that is several times larger than the
volume of buffer.
18
Melting the Agarose
Agarose is insoluble at room temperature
(left). The agarose solution is boiled until
clear (right).
Gently swirl the solution periodically when
heating to allow all the grains of agarose to
dissolve. Be careful when boiling - the
agarose solution may become superheated and may
boil violently if it has been heated too long in
a microwave oven.
19
Pouring the gel
Allow the agarose solution to cool slightly
(60ºC) and then carefully pour the melted
agarose solution into the casting tray. Avoid
air bubbles.
20
Each of the gel combs should be submerged in the
melted agarose solution.
21
When cooled, the agarose polymerizes, forming a
flexible gel. It should appear milky white when
completely cooled (30-45 minutes). Carefully
remove the combs and tape.
22
Electron micrograph of an agarose gel
When polymerized an agarose gel is made of fibers
forming small pores.
23
Place the gel in the electrophoresis chamber.
24
DNA?
buffer ?
?
?
?
? wells
Anode? (positive)
?Cathode (negative)
Add enough electrophoresis buffer to cover the
gel to a depth of at least 1 mm. Make sure each
well is filled with buffer.
25
Sample Preparation
Mix the samples of DNA with the 6X sample loading
buffer (w/ tracking dye). This allows the
samples to be seen when loading onto the gel, and
increases the density of the samples, causing
them to sink into the gel wells.
6X Loading Buffer ? ? Bromophenol Blue (for
color) ? Glycerol (for weight)
Add 5 ul of loading buffer to each PCR tube
26
Loading the Gel
Carefully place the pipette tip over a well and
gently expel the 20ul of each sample. The sample
should sink into the well. Be careful not to
puncture the gel with the pipette tip. Also add
20ul of the PCR positive control, and 10ul of
the DNA Marker (DNA ladder).
27
Running the Gel
Place the cover on the electrophoresis chamber,
connecting the electrical leads. Connect the
electrical leads to the power supply. Be sure
the leads are attached correctly - DNA migrates
toward the anode (red). When the power is turned
on, bubbles should form on the electrodes in the
electrophoresis chamber.
28
Cathode (-)
? wells
? Bromophenol Blue
DNA (-) ?
Gel
Anode ()
After the current is applied, make sure the Gel
is running in the correct direction. Bromophenol
blue will run in the same direction as the DNA.
29
Staining the Gel
30
Staining the Gel
Ethidium bromide binds to DNA and fluoresces
under UV light, allowing the visualization of DNA
on a Gel. Ethidium bromide can be added to
the gel and/or running buffer before the gel is
run or the gel can be stained after it has run.
CAUTION! Ethidium bromide is a potential
mutagen and is moderately toxic. Gloves should
be worn at all times.
31
Safer alternatives to Ethidium Bromide ?
Methylene Blue ? BioRAD - Bio-Safe DNA Stain ?
Wards - QUIKView DNA Stain others
32
Staining the Gel
Place the gel in the staining tray containing 1.0
?g/mL Ethidium Bromide solution. Allow the gel
to stain for 20-30 minutes. To remove excess
background Ethidium Bromide, allow the gel to
destain in water for 5-10 minutes.
33
WARDs QUIKView DNA Stain
  • ? add 5ml stain concentrate to 95ml warm water
  • pour stain into tray so that the stain just
  • covers the gel
  • Let stain for 25-30 minutes.
  • Destain with warm water 30 minutes to overnight

34
(No Transcript)
35
(No Transcript)
36
(No Transcript)
37
Visualizing the DNA (ethidium bromide)
Primer dimers?
Samples 1, 4, 6 7 were positive for Wolbachia
DNA
38
Visualizing the DNA (QuikVIEW stain)
DNA ladder ?
wells?
? 2,000 bp
PCR Product
? 1,500
? 1,000
? 750
? 500
? 250
- - - - - - -
Samples 1, 6, 7, 10 12 were positive for
Wolbachia DNA
March 12, 2006
Write a Comment
User Comments (0)
About PowerShow.com