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What Is ELISA or Enzyme-Linked Immunosorbent Assay?

The Importance of ELISA in BioTech

Hjem By Application Laboratory Analytical Applications UV/VIS-applikationer What Is ELISA or Enzyme-Linked Immunosorbent Assay?

ELISA stands for "Enzyme-Linked Immunosorbent Assay." It is a laboratory technique to detect and measure specific proteins or antibodies in a sample. ELISA assays have a broad range of applications in research, clinical diagnosis, and drug discovery. They are commonly employed to detect and measure antibodies in blood, saliva, or other bodily fluids, as well as proteins that play a role in disease or cellular signaling pathways. They are also frequently used to evaluate the quality and purity of recombinant proteins and other biologics during their production.

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ELISA Principle

ELISA works on the principle of antigen-antibody interactions, where an antibody specific to the target antigen is used to capture and detect it.

It is a laboratory technique used to detect and measure the presence of specific proteins, such as antibodies, hormones, and antigens, in a sample. The sample, whether serum, saliva, or urine, is placed on a solid surface, such as a microplate, where it binds to a target-specific antibody. Any unbound material is washed away, and a secondary antibody linked to an enzyme is added. The enzyme binds to the captured antigen, and any unbound secondary antibodies are washed away. A substrate is then added, which reacts with the enzyme and produces a detectable signal, usually a color change. The intensity of the signal is directly proportional to the amount of the target antigen present in the sample.

It is a highly sensitive and specific technique in research, clinical diagnostics, and quality control applications. It can accurately detect a wide range of target molecules, including proteins, antibodies, hormones, and drugs.

Types of ELISA

Direct ELISA (antigen-coated plate; screening antibody)

In Direct ELISA, the process involves coating a microplate with the antigen and then adding the target antibody sample. The antibodies specific to the antigen bind to the coated surface, following which a secondary antibody labeled with an enzyme is added. The enzyme produces a signal that is proportional to the number of antigen-specific antibodies in the sample.

Direct ELISA is widely used as a screening test to detect specific antibodies in clinical and research settings. It is a simple and quick method to identify the presence or absence of the target antigen.


Indirect ELISA (antigen-coated plate; screening antigen/antibody)

Indirect ELISA is a widely used technique in research and clinical settings to detect and measure specific antibodies. The process involves coating a microplate with the antigen of interest, followed by the addition of a sample containing the target antibodies. The antibodies that bind specifically to the antigen are then detected using a secondary antibody labeled with an enzyme.

This secondary antibody is specific to the target antibody and produces a signal that allows for the detection and quantification of the target antibody in the sample. Indirect ELISA is highly sensitive and specific, and can detect multiple antibodies in a single sample. It is particularly useful as a screening tool for large populations in epidemiological studies.


Sandwich ELISA (antibody-coated plate; screening antigen)

In Sandwich ELISA, a microplate is utilized as a stable surface to which a capture antibody is coated that specifically binds to the antigen of interest. Then, the sample is added to the plate, and the antigen binds to the capture antibody. After washing away any unbound material, a detection antibody labeled with an enzyme is added, which binds to a different part of the antigen, forming a "sandwich" complex. The enzyme present on the detection antibody then generates a signal proportional to the amount of antigen bound to the plate, enabling the detection and quantification of the target antigen in the sample.

Sandwich ELISA is commonly used in research and clinical settings to detect and quantify the presence of specific antigens. It is highly sensitive and specific. The advantage of Sandwich ELISA is that it can detect multiple antigens in a single sample and can be used to detect different isoforms or forms of a protein in a complex sample.


Competitive ELISA (screening antibody)

In Competitive ELISA, the antigen of interest is attached to a microplate, and a labeled antigen is introduced into the sample. The labeled antigen competes with the antigen in the sample for binding to a limited number of specific antibodies. After washing away unbound material, the amount of labeled antigen bound to the antibodies is inversely proportional to the antigen concentration in the sample.

Competitive ELISA is a popular technique used in both research and clinical settings to detect and measure small molecules such as drugs, hormones, or metabolites with high sensitivity and specificity. One advantage of Competitive ELISA is that it doesn't require a capture or detection antibody, making it useful for detecting antigens that are not immunogenic or do not have specific antibodies available.

How does an ELISA assay work?

An ELISA assay, also known as an enzyme-linked immunosorbent assay, is a laboratory method that helps detect the presence of antigens or antibodies in a sample. This technique involves a plate coated with a specific antigen, which captures the corresponding antibody present in the sample.

To begin the process, the sample is added to a plate where the antigen is immobilized. A primary antibody is then added, which will bind to the antigen. After that, a secondary antibody linked to an enzyme is introduced, which will bind to the primary antibody. When a substrate is added, the enzyme can produce a color or light signal, indicating the presence of the antigen or the antibody of interest.

ELISA assays are commonly used in medical research, diagnosis, and drug development. They are highly sensitive and specific and can detect small amounts of antigens or antibodies in a sample.

What do ELISA assays measure?

ELISA assays are used to detect and measure the presence of specific antigens or antibodies in a given sample. These biomolecules can originate from a variety of sources like viruses, bacteria, or other foreign substances. ELISA  assays are commonly used in clinical, research, and industrial settings to detect and quantify these biomolecules.

ELISA assays are a commonly used tool for diagnosing infectious diseases such as HIV, hepatitis B and C, and Lyme disease. They are also used in research to detect and measure various biomolecules, including hormones, cytokines, and growth factors. Moreover, ELISA assays are widely used in the food industry to detect contaminants, allergens, and other substances that may be present in food products.

What does a positive ELISA assay mean in results?

A positive ELISA assay indicates the presence of specific antigens or antibodies in the sample being tested. This positive result indicates that the patient or sample has either been exposed or is currently infected with a particular pathogen. Additionally, it could also mean that the individual has produced a specific immune response to a certain antigen.

It's important to note that a positive ELISA assay doesn't always mean that the patient or sample is currently infected with the pathogen. This is because the presence of antibodies can last long after the infection. The result may also indicate past exposure to the pathogen or cross-reactivity with other antigens.

How can the ELISA assay be used to detect disease?

The ELISA assay detects specific antigens or antibodies in a patient's blood or other bodily fluids, which helps healthcare providers diagnose diseases such as HIV, Lyme disease, and hepatitis B and C. By coating a plate with a specific antigen or antibody, adding the patient sample, and detecting the presence of antigen-antibody complexes with an enzyme-linked antibody, the ELISA assay can provide a quick and accurate diagnosis.

How long does an Elisa assay take?

The time needed to finish an ELISA assay can vary depending on a few factors, such as the complexity of the assay, the type of sample being tested, and the throughput of the lab performing the assay.

Typically, an ELISA assay may take several hours to complete, with most assays requiring at least 2-3 hours of incubation time. However, some assays may require overnight or multiple incubation and washing steps.

What are the factors that can affect the accuracy and reliability of ELISA results?

The accuracy and reliability of ELISA results can be affected by various factors such as the quality of reagents used, the specificity and sensitivity of the assay, incubation time and temperature, sample handling and storage, instrumentation and measurement, and interference from other substances. To ensure accurate and reliable results, it is important to optimize these factors and follow the assay protocol.

What are the best practices for ELISA sample preparation and handling?

Here are some best practices for handling and preparing ELISA samples to ensure accurate results:

  1. Sample Collection: Use appropriate methods to collect samples and store them under the recommended conditions. The type of sample and its preparation will depend on the target analyte.
  2. Sample Dilution: Dilute the samples based on the expected concentration of the target analyte. Over-diluting or under-diluting the sample can lead to inaccurate results.
  3. Sample Homogenization: Before testing, homogenize the samples well to ensure an even distribution of the target analyte. This is especially important for solid samples.
  4. Sample Stability: Process the samples as soon as possible after collection to minimize degradation of the target analyte. If immediate processing is not possible, store the samples at the recommended conditions.
  5. Sample Cleanliness: Ensure that the samples are free of any contaminants or interfering substances that could affect the accuracy of the assay. Also, clean any sample handling equipment appropriately to avoid contamination.
  6. Sample Volume: Add a consistent and appropriate amount of sample to the assay. Adding too much or too little sample can lead to inaccurate results.

By following these best practices, you can maintain the integrity of the samples and maximize the accuracy and reliability of ELISA results.

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