Slab Information and Courses from MediaLab, Inc.
These are the MediaLab courses that cover Slab and links to relevant pages within the course.
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| Types of Support Media For electrophoretic separation of solutes, the sample of solutes is placed on a gel or membrane in contact with buffer for separation. Common gels are cellulose acetate, agarose, and polyacrylamide gels. These gels are formed into sheets, slabs, or inserted into columns or tubes. The gel can be positioned horizontally or vertically.Cellulose is chemically reacted with acetic anyhdride to form a cellulose acetate gel. Because cellulose requires soaking before sample application and a clearing step for detection of separated solutes or bands, agarose gel is more often used than cellulose acetate gel for clinical electrophoresis. | View Page |
| Routine Electrophoresis Routine electrophoresis is a generic term for the traditional clinical laboratory electrophoresis performed on a rectangle-shaped slab gel. Routine electrophoresis is mostly used for separation of proteins and has some use in separating nucleic acids. Generally several patient specimens and control(s) can be placed on one gel and solutes separated in one run. This type of electrophoresis is sometimes called zone electrophoresis.A serum sample with normal plasma proteins yields five zones or bands of separated proteins: albumin, alpha-1-globulins, alpha-2-globulins, beta-globulins, and gamma-globulins. Proteins in CSF and urine proteins are also separated with routine electrophoresis. Using whole blood treated with a reagent to lyse red blood cells, variant and glycosylated hemoglobins can be detected. With different visualization methods, isoenzymes and lipoproteins in a serum sample can be identified.A manual agarose gel electrophoresis of eight serum samples is pictured below. After electrophoresis, the gel was stained with Ponceau S. | View Page |
| Polyacrylamide Electrophoresis (PAGE) More separations are also achieved with layers of polyacrylamide gels each with a different pore size. The gels can be horizontal or vertical slabs or incorporated into vertical cylinders or rods. Varying the pore size in each layer is significant especially if very small pore sizes are created. DNA of 100 base pairs (bp) or less can be separated.Common applications of PAGE are separation of proteins and nucleic acids. Polyacrylamide gels are also used as the medium in several other types of electrophoresis described in this section. | View Page |
| Two-Dimensional Electrophoresis Two-dimensional electrophresis is separating the same sample with two distinct separation techniques or two different electrophoresis separations. The separated bands from one electrophoresis are resolved more with the second electrophoresis. IEF followed by PAGE or AGE is the most frequent two-dimensional electrophoresis. The gel from the IEF capillary is removed and placed across the PAGE or AGE gel slab at right angles for the second electrophoresis. If PAGE is used for the second electrophoresis, it is often PAGE with SDS.Two-dimensional electrophoresis can also be a single sample run on either agarose or polyacrylamide gels. The gel is then turned 90 degrees and the same type electrophoresis is run on the separated solutes to separate each band from the first run into more bands.The image below shows a two-dimensional electrophoresis separation of proteins which is IEF followed by PAGE with SDS. The proteins were first separated by IEF on a very narrow gel strip. This strip was then positioned at top of a polyacrylamide gel with SDS for the second electrophoresis. The IEF gel is the very narrow strip on top and remainder of the image is the many separated proteins on the PAGE with SDS. | View Page |