Gel Electrophoresis

Information about Gel Electrophoresis

Gel electrophoresis
DNA electrophoresis apparatus - An agarose gel is placed in this buffer-filled box and electrical current is applied via the power supply to the rear. The negative terminal is at the far end (black wire), so DNA migrates towards the camera.
Classification	Electrophoresis
Other Techniques
Related	Capillary electrophoresis SDS-PAGE Two-dimensional gel electrophoresis Temperature gradient gel electrophoresis

Gel electrophoresis is a technique used for the separation of deoxyribonucleic acid, ribonucleic acid, or protein molecules through an electric charge.^[1] It is usually performed for analytical purposes, but may be used as a preparative technique to partially purify molecules prior to use of other methods such as mass spectrometry, RFLP, PCR, cloning, DNA sequencing, or Southern blotting for further characterization.

Separation

The term "gel" in this instance refers to the matrix used to contain, then separate the target molecules. In most cases the gel is a crosslinked polymer whose composition and porosity is chosen based on the specific weight and composition of the target to be analyzed. When separating proteins or small nucleic acids (DNA, RNA, or oligonucleotides) the gel is usually composed of different concentrations of acrylamide and a cross-linker, producing different sized mesh networks of polyacrylamide. When separating larger nucleic acids (greater than a few hundred bases), the preferred matrix is purified agarose. In both cases, the gel forms a solid, yet porous matrix. Acrylamide, in contrast to polyacrylamide, is a neurotoxin and must be handled using Good Laboratory Practices to avoid poisoning.

"Electrophoresis" refers to the electromotive force (EMF) that is used to push or pull the molecules through the gel matrix. By placing the molecules in wells in the gel and applying an electric current, the molecules will move through the matrix at different rates, towards the anode if negatively charged or towards the cathode if positively charged.

Visualization

DNA agarose gel. The first lane contains a DNA ladder for sizing, and the other four lanes show variously-sized DNA fragment that are present in some but not all of the samples.

After the electrophoresis runs, when the smallest molecules have almost reached the anode, the molecules in the gel can be stained to make them visible. Ethidium bromide, silver, or coomassie blue dye can be used. Other methods can also be used to visualize the separation of the mixture's components on the gel. If the analyte molecules fluoresce under ultraviolet light, a photograph can be taken of the gel under ultraviolet light. If the molecules to be separated contain radioactive atoms, an autoradiogram can be recorded of the gel (as in the example shown here).

If several mixtures have initially been injected next to each other, they will run parallel in individual lanes. Depending on the number of different molecules, each lane shows separation of the components from the original mixture as one or more distinct bands, one band per component. Incomplete separation of the components can lead to overlapping bands, or to indistinguishable smears representing multiple unresolved components.

Bands in different lanes that end up at the same distance from the top contain molecules that passed through the gel with the same speed, which usually means they are approximately the same size. There are molecular weight size markers available that contain a mixture of molecules of known sizes. If such a marker was run on one lane in the gel parallel to the unknown samples, the bands observed can be compared to those of the unknown in order to determine their size. The distance a band travels is approximately inversely proportional to the logarithm of the size of the molecule.

Applications

Gel electrophoresis is used in forensics, molecular biology, genetics, microbiology and biochemistry. The results can be analyzed quantitatively by visualizing the gel with UV light and a gel imaging device. The image is recorded with a computer operated camera, and the intensity of the band or spot of interest is measured and compared against standard or markers loaded on the same gel. The measurement and analysis are mostly done with specialized software.

Depending on the type of analysis being performed, other techniques are often implemented in conjuction with the results of gel electrophoresis, providing a wide range of field-specific applications.

Nucleic acids

In the case of nucleic acids, the direction of migration, from negative to positive electrodes, is due to the naturally-occurring negative charge carried by their sugar-phosphate backbone.^[2]

Double-stranded DNA fragments naturally behave as long rods, so their migration through the gel is relative to their radius of gyration, or, for non-cyclic fragments, size. Single-stranded DNA or RNA tend to fold up into molecules with complex shapes and migrate through the gel in a complicated manner based on their tertiary structure. Therefore, agents that disrupt the hydrogen bonds, such as sodium hydroxide or formamide, are used to denature the nucleic acids and cause them to behave as long rods again.

Gel electrophoresis of large DNA or RNA is usually done by agarose gel electrophoresis. See the "Chain termination method" page for an example of a polyacrylamide DNA sequencing gel.

Proteins

SDS-PAGE autoradiography. The indicated proteins are present in different concentrations in the two samples.

Proteins, unlike nucleic acids, can have varying charges and complex shapes, therefore they may not migrate into the gel at similar rates, or at all, when placing a negative to positive EMF on the sample. Proteins therefore, are usually denatured in the presence of a detergent such as sodium dodecyl sulfate/sodium dodecyl phosphate (SDS/SDP) that coats the proteins with a negative charge.^[2] Generally, the amount of SDS bound is relative to the size of the protein (usually 1.4g SDS per gram of protein), so that the resulting denatured proteins have an overall negative charge, and all the proteins have a similar charge to mass ratio. Since denatured proteins act like long rods instead of having a complex tertiary shape, the rate at which the resulting SDS coated proteins migrate in the gel is relative only to its size and not its charge or shape.^[2]

Proteins are usually analyzed by sodium dodecyl sulfate polyacrylamide gel electrophoresis (SDS-PAGE), by native gel electrophoresis, by quantitative preparative native continuous polyacrylamide gel electrophoresis (QPNC-PAGE), or by 2-D electrophoresis.

History

1930s - first reports of the use of sucrose for gel electrophoresis
1955 - introduction of starch gels, mediocre separation
1959 - introduction of acrylamide gels (Raymond and Weintraub); accurate control of parameters such as pore size and stability
1964 - disc gel electrophoresis (Ornstein and Davis)
1969 - introduction of denaturing agents especially SDS separation of protein subunit (Beber and Osborn)
1970 - Laemmli separated 28 components of T4 phage using a stacking gel and SDS
1975 - 2-dimensional gels (O’Farrell); isoelectric focusing then SDS gel electrophoresis
1977 - sequencing gels
late 1970s - agarose gels
1983 - pulsed field gel electrophoresis enables separation of large DNA moleucles
1983 - introduction of capillary electrophoresis

A 1959 book on electrophoresis by Milan Bier cites references from the 1800s.^[3] However, Oliver Smithies made significant contributions. Bier states: "The method of Smithies ... is finding wide application because of its unique separatory power." Taken in context, Bier clearly implies that Smithies' method is an improvement.

References

1. ^ Berg JM, Tymoczko JL Stryer L (2002). Molecular Cell Biology, 5th ed., WH Freeman. ISBN 0-7167-4955-6.
2. ^ Lodish H, Berk A, Matsudaira P, et al (2004). Molecular Cell Biology, 5th ed., WH Freeman: New York, NY. ISBN 978-0716743668.
3. ^ Milan Bier (ed.) (1959). Electrophoresis. Theory, Methods and Applications, 3rd printing, Academic Press, 225. LCC 59-7676. OCLC 1175404.

External links

SDS Gel Electrophoresis Protocol
Biotechniques Laboratory electrophoresis demonstration, from the University of Utah's Genetic Science Learning Center
Protein electrophoresis and Western Blotting

• • [ e] Proteins: key methods of study
Experimental	Protein purification - Green fluorescent protein - Western blot - Protein immunostaining - Protein sequencing - Gel electrophoresis/Protein electrophoresis - Protein immunoprecipitation - Peptide mass fingerprinting
Bioinformatics	Protein structure prediction - Protein-protein docking - Protein structural alignment - Protein ontology - Protein-protein interaction prediction
Assay	Enzyme assay - Protein assay - Secretion assay

Electrophoresis is the most known electrokinetic phenomena. It was discovered by Reuss in 1809 ^[1]. He observed that clay particles dispersed in water migrate under influence of an applied electric field.
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Capillary electrophoresis (CE), also known as capillary zone electrophoresis (CZE), can be used to separate ionic species by their charge and frictional forces. In traditional electrophoresis, electrically charged analytes move in a conductive liquid medium under the
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SDS-PAGE, officially sodium dodecyl sulfate polyacrylamide gel electrophoresis, is a technique used in biochemistry, genetics and molecular biology to separate proteins according to their electrophoretic mobility (a function of length of polypeptide chain or molecular weight
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Two-dimensional gel electrophoresis, abbreviated as 2-DE or 2-D electrophoresis, is a form of gel electrophoresis commonly used to analyze proteins. Mixtures of proteins are separated by two properties in two dimensions on 2D gels.
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Temperature gradient gel electrophoresis (TGGE) is a form of electrophoresis where there is a temperature gradient across the gel. TGGE is useful for analyzing nucleic acids such as DNA and RNA, and sometimes for proteins.
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Left: An RNA strand, with its nitrogenous bases. Right: Double-stranded DNA.]] Ribonucleic acid or RNA is a nucleic acid polymer consisting of nucleotide monomers, which plays several important roles in the processes of translating genetic information from
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Proteins are large organic compounds made of amino acids arranged in a linear chain and joined together by peptide bonds between the carboxyl and amino groups of adjacent amino acid residues.
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molecule is defined as a sufficiently stable electrically neutral group of at least two atoms in a definite arrangement held together by strong chemical bonds.^[1]^[2] In organic chemistry and biochemistry, the term molecule
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Mass spectrometry (previously called mass spectroscopy ()^[1] or informally, "mass-spec" and MS) is an analytical technique used to measure the mass-to-charge ratio of ions.
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In molecular biology, the term restriction fragment length polymorphism (or RFLP, often pronounced "rif-lip") is used in two related contexts: as a characteristic of DNA molecules (arising from their differing nucleotide sequences) by which they may be distinguished and as
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polymerase chain reaction (PCR) is a biochemistry and molecular biology technique^[1] for exponentially amplifying a fragment of DNA, via enzymatic replication, without using a living organism (such as E. coli or yeast).
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Cloning is the process of creating an identical copy of something. In biology, it collectively refers to processes used to create copies of DNA fragments (molecular cloning), cells (cell cloning), or organisms.
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The term DNA sequencing encompasses biochemical methods for determining the order of the nucleotide bases, adenine, guanine, cytosine, and thymine, in a DNA oligonucleotide.
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A Southern blot is a method routinely used in molecular biology to check for the presence of a DNA sequence in a DNA sample. Southern blotting combines agarose gel electrophoresis for size separation of DNA with methods to transfer the size-separated DNA to a filter membrane for
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gel (from the Latin gelu "freezing, cold, ice" or gelatus "frozen, immobile") is a colloidal system in which a porous network of interconnected nanoparticles spans the volume of a liquid medium. In general, gels are apparently solid, jelly-like materials.
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Cross-links are covalent bonds linking one polymer chain to another. They are the characteristic property of thermosetting polymer materials. In biology, cross-linking has applications in forming polyacrylamide gels for gel electrophoresis and in protein studies.
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A nucleic acid is a macromolecule composed of nucleotide chains. In biochemistry these molecules carry genetic information or form structures within cells. The most common nucleic acids are deoxyribonucleic acid (DNA) and ribonucleic acid (RNA).
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Oligonucleotides are short sequences of nucleotides (RNA or DNA), typically with twenty or fewer bases. Automated synthesizers allow the synthesis of oligonucleotides up to 160 to 200 bases.
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The chemical compound acrylamide (acrylic amide) has the chemical formula C₃H₅NO. Its IUPAC name is 2-propenamide. It is a white odourless crystalline solid, soluble in water, ethanol, ether and chloroform.
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Polyacrylamide is an acrylate polymer (-CH₂CHCONH₂-) formed from acrylamide subunits that is readily cross-linked. Acrylamide needs to be handled using good laboratory practices (GLP) to avoid poisonous exposure since it is a neurotoxin.
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In chemistry, a base is most commonly thought of as a substance that can accept protons. This refers to the BrÃ¸nsted-Lowry theory of acids and bases. Alternate definitions of bases include electron pair donors (Lewis), and as sources of hydroxide anions (Arrhenius).
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Agar is a gelatinous substance chiefly used as a culture medium for microbiological work. It is an unbranched polysaccharide obtained from the cell walls of some species of red algae or seaweed.
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A neurotoxin is a toxin that acts specifically on nerve cells – neurons – usually by interacting with membrane proteins such as ion channels. Many of the venoms and other toxins that organisms use in defense against vertebrates are neurotoxins.
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