One common variation involves direct versus indirect detection. Procedures vary widely for the detection step of a western blot experiment. Whatever system is used, the intensity of the signal should correlate with the abundance of the antigen on the membrane. Fluorescent blotting is a newer technique and is growing in popularity as it affords the potential to multiplex (detect multiple proteins on a single blot). Alternatively, fluorescently tagged antibodies can be used, which require detection using an instrument capable of capturing the fluorescent signal. However, digital imaging instruments based on charge-coupled device (CCD) cameras are becoming popular alternatives to film for capturing chemiluminescent signal. The light output can be captured using film. The most sensitive detection methods use a chemiluminescent substrate that produces light as a byproduct of the reaction with the enzyme conjugated to the antibody. Chromogenic substrates produce a precipitate on the membrane resulting in colorimetric changes visible to the eye. ![]() Often the secondary antibody is complexed with an enzyme, which when combined with an appropriate substrate, will produce a detectable signal. Most commonly, the transferred protein is then probed with a combination of antibodies: one antibody specific to the protein of interest (primary antibody) and another antibody specific to the host species of the primary antibody (secondary antibody). ![]() Next, the membrane is blocked to prevent any nonspecific binding of antibodies to the surface of the membrane. Subsequently, the separated molecules are transferred or blotted onto a second matrix, generally a nitrocellulose or polyvinylidene difluoride (PVDF) membrane. The first step in a western blotting procedure is to separate the macromolecules in a sample using gel electrophoresis.
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