Gel Electrophoresis
Gel electrophoresis is used to separate proteins or fragments of DNA according to size
- Gel electrophoresis is a technique used widely in the analysis of DNA, RNA, and proteins
- During electrophoresis, the molecules are separated with an electric current according to their size or mass and their net (overall) charge
- This separation occurs because of:
- The electrical charge molecules carry:
- Positively charged molecules will move towards the cathode (negative pole), whereas negatively charged molecules will move towards the anode (positive pole) e.g. DNA is negatively charged due to the phosphate groups and thus, when placed in an electric current, the molecules move towards the anode
- The electrical charge molecules carry:
- Different sized molecules move through the gel (agarose for DNA and polyacrylamide for proteins) at different rates. The tiny pores in the gel result in smaller molecules moving quickly, whereas larger molecules move slowly
- Different gels have different sized pores that affect the speed at which the molecules can move through the gel
DNA separation
- DNA can be collected from almost anywhere on the body, e.g. the root of a hair or saliva from a cup. After collection, DNA must be prepared for gel electrophoresis so that the DNA can be sequenced or analysed for genetic profiling (fingerprinting)
- To prepare the fragments, scientists must first increase (amplify) the number of DNA molecules by the Polymerase Chain Reaction (PCR)
- Then restriction (DNA-cutting) enzymes are used to chop the DNA into fragments
Method
- To separate the DNA fragments in gel electrophoresis:
- Create an agarose gel plate in a tank. Wells (a series of small rectangular holes) are cut into the gel at one end
- Submerge the gel in an electrolyte solution (a salt solution that conducts electricity) in the tank
- Load (insert) the DNA fragments into the wells using a micropipette
- Apply an electrical current to the tank. The negative electrode must be connected to the end of the plate with the wells as the DNA fragments will then move towards the anode (positive pole) due to the attraction between the negatively charged phosphates of DNA and the anode
- DNA fragments with a smaller mass (i.e. shorter DNA fragments) will move faster and further from the wells than the larger fragments
- The fragments are not visible so must be transferred onto absorbent paper or nitrocellulose which is then heated to separate the two DNA strands
- Probes are then added to develop a visual output, either:
- A radioactive label (e.g. a phosphorus isotope), which causes the probes to emit radiation that makes the X-ray film go dark, creating a pattern of dark bands
- A fluorescent stain or dye (e.g. ethidium bromide), which fluoresces (shines) when exposed to ultraviolet (UV) light, creating a pattern of coloured bands
The process of electrophoresis
Exam Tip
Remember gel electrophoresis is the separation of molecules according to their size and charge (negatively charged DNA molecules move to the positive pole). Examiners like to ask questions about gel electrophoresis, so make sure you understand each of the different steps in the process.