Nested polymerase chain reaction

Nested PCR

Nested Polymerase Chain Reaction (Nested PCR) is a modification of the polymerase chain reaction (PCR), designed to improve the specificity and sensitivity of the assay. This technique involves two sets of primers and two successive PCR reactions to amplify a target DNA sequence. Nested PCR is particularly useful in applications where the DNA sample is expected to have a lot of background noise or is very limited in quantity.

Overview[edit | edit source]

The principle of nested PCR is to use two sets of primers in two rounds of PCR to increase the specificity of the DNA amplification. The first round of PCR is carried out with one set of primers that flank the target sequence. The product of this reaction is then used as the template for the second round of PCR, which uses a second set of primers that anneal within the target sequence amplified in the first round. This two-step process significantly reduces the likelihood of non-specific amplification because only the target sequence that has been amplified in the first round can be amplified in the second round.

Procedure[edit | edit source]

1. First Round of PCR: A sample containing the target DNA is mixed with DNA polymerase, dNTPs (deoxynucleoside triphosphates), and the first set of primers. The mixture is then subjected to repeated cycles of denaturation, annealing, and extension to amplify the region of interest.
2. Second Round of PCR: A small amount of the PCR product from the first round is transferred to a new reaction mixture containing a second set of primers, which anneal to sequences within the first round product. This mixture undergoes additional cycles of PCR to further amplify the target sequence.

Applications[edit | edit source]

Nested PCR is used in various fields of biological and medical research, including:

• Pathogen Detection: For detecting low levels of bacterial, viral, or parasitic DNA in clinical samples.
• Genetic Research: In studies requiring the amplification of rare or highly degraded DNA samples.
• Forensic Science: For analyzing minute quantities of DNA in forensic samples.
• Molecular Cloning: To increase the specificity of cloning experiments.

Advantages[edit | edit source]

• Increased Specificity: The use of two sets of primers in separate reactions greatly reduces the chances of non-specific amplification.
• Higher Sensitivity: Nested PCR can amplify target sequences from very small amounts of DNA, making it ideal for samples where the DNA concentration is too low for conventional PCR.

Limitations[edit | edit source]

• Risk of Contamination: The need to open tubes after the first round of PCR increases the risk of cross-contamination.
• Time-Consuming: The process is more time-consuming than standard PCR due to the requirement of two rounds of amplification.
• Complexity: The design of two sets of primers and optimization of conditions for both rounds of PCR can be complex and challenging.

Conclusion[edit | edit source]

Nested PCR is a powerful technique for amplifying specific DNA sequences with high sensitivity and specificity. Despite its limitations, it remains a valuable tool in research and diagnostic laboratories for applications requiring the detection of low-abundance DNA targets.