Separation and Visualization of Restriction Fragments and PCR

Amplified DNA

LECTURE 5:

Biotechnology; 3 Credit hours

Atta-ur-Rahman School of Applied Biosciences (ASAB)National University of Sciences and Technology (NUST)

Gel Electrophoresis

• Restriction enzyme digestions and other manipulations of DNA enable the results to be directly visualized.

• Gel electrophoresis is a technique for separating DNA fragments by size and visualizing them after staining.

• It separates molecules on the basis of their rate of movement through a gel under the influence of an electrical field

• Gelatinous agarose is used as the medium through which DNA passes

• Ethidium bromide is used for staining

• DNA is negatively charged. • When placed in an electrical field, DNA will migrate toward the

positive pole (anode).• An agarose gel is used to slow the movement of DNA and separate

by size.

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Power

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DNA

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

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Within an agarose gel, linear DNA migrate inversely proportional to the log10 of their molecular weight.

Gel Electrophoresis

Agarose is a linear polymer extracted from seaweed

• Agarose is a polysaccharide obtained from agar.• Agar is a gelatinous substance derived from a polysaccharide in red algae, where it

accumulates in the cell walls of agarophyte and serve as the primary structural support for the algae's cell walls

• Agarose forms an inert matrix utilized in separation techniques.

D-galactose 3,6-anhydroL-galactose

• Polymerized agarose is porous, allowing for the movement of DNA

Scanning Electron Micrograph of

Agarose Gel (1×1 µm)

Agarose Gel

100 200 300

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1,000

500

850 650

400

12,000 bp

5,000

2,000

DNA Ladder Standard

Inclusion of a DNA ladder (DNAs of know sizes) on the gel makes it easy to determine the sizes of unknown DNAs. Note: bromophenol blue migrates at approximately the same

rate as a 300 bp DNA molecule

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DNAmigration

bromophenol blue

Staining of Agarose Gel

• DNA by itself is not visible in gel• Ethidium bromide is usually added to make the

DNA band visible • Ethidium bromide molecule interclate between

the bases causing the DNA to fluorescence orange when the gel is illuminated with UV light

• Methylene blue is also used • Most labs use ethidium bromide as it is very

sensitive

Staining of Agarose Gel

Ethidium Bromide

Ethidium binds by inserting itself bewteen the stacked bases in double-stranded DNA. The ring structure of ethidium is hydrophobic and resembles the rings of the bases in DNA. Ethidium is capable of forming close van der Walls contacts with the base pairs and that's why it binds to the hydrophobic interior of the DNA molecule.