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Thermo Fisher Scientific is committed to antibody performance and specificity testing. To support this commitment, each Invitrogen antibody that is indicated for immunohistochemistry applications has been tested using a protocol similar to that provided below. These tests help confirm antibody performance and help ensure superior results when used in experiments.
Immunohistochemistry is a technique used to reveal the abundance, distribution, and localization of biomarkers within tissue. The biomarkers can be viewed directly using this technique, and the results offer insight into cell structure and mechanisms that are applicable for basic research.
The typical immunohistochemistry protocol for frozen sections that Invitrogen antibodies are subjected to is reproduced below. This protocol includes:
Note: Some of the steps in this protocol require optimization depending on the sample and antibody being used.
There are two detection methods for immunohistochemistry: colorimetric and fluorescent. Colorimetric detection involves the use of antibodies conjugated to an enzyme that produce a colored precipitate at the biomarker’s location. Fluorescent detection uses fluorescence-labeled antibodies, and results are visualized using fluorescence microscopy. Fluorescent detection also allows for the detection of multiple target antigens in the same tissue at the same time. Both detection methods can be used for direct or indirect immunohistochemistry.
Indirect is the most commonly used immunohistochemistry method. It provides greater signal amplification when the antigen is of low abundance, however there is potential for cross-reactivity from the secondary antibody. It is especially important when attempting indirect multiplexing to use primary antibodies raised in different species with different isotypes to reduce the change of cross-reactivity.
Note: From this point on, it is critical that the tissue does not dry out as this will result in high levels of background staining and difficulty interpreting staining results.
Optional: Nuclei can be counterstained using DAPI or DRAQ5. Ensure that you select a counterstaining agent that has a fluorescence emission spectrum that does not overlap with the emission spectrum of the other fluorophore(s) used in the experiment.
Direct detection is less common than indirect but has its own benefits. The benefits of direct detection include shorter sample staining times and the ability to use multiple antibodies raised in the same species.
Note: From this point on, it is critical that the tissue does not dry out as this will result in high levels of background staining and difficulty interpreting staining results.
Optional: Nuclei can be counterstained using DAPI or DRAQ5. Ensure that you select a counterstaining agent that has a fluorescence emission spectrum that does not overlap with the emission spectrum of the other fluorophore(s) used in the experiment.