Polymerase chain reaction, application of PCR in clinical diagnostics, RT-PCR and use of this technique.: Difference between revisions
No edit summary |
No edit summary |
||
| Line 7: | Line 7: | ||
** This is performed at the temperature of 90 degree celsius | ** This is performed at the temperature of 90 degree celsius | ||
** The separated stands of DNA serve as template for amplification. | ** The separated stands of DNA serve as template for amplification. | ||
** This process is important to enable the next step in the process, the hybridization of the primers. | |||
*'''Annealing''': Primers and deoxynucleoside triphosphate are added in excess to the sample of DNA, where in they anneal to the complementary sequences on the strands DNA | *'''Annealing''': Primers and deoxynucleoside triphosphate are added in excess to the sample of DNA, where in they anneal to the complementary sequences on the strands DNA | ||
**This process is performed at temperatures that fall in the range between 50-70 degrees celsius | **This process is performed at temperatures that fall in the range between 50-70 degrees celsius | ||
| Line 12: | Line 13: | ||
****These primer determine the location of the target sequences on the DNA strands as well the length of target DNA fragment. | ****These primer determine the location of the target sequences on the DNA strands as well the length of target DNA fragment. | ||
***To prevent the quantity of primer and deoxynucleoside limiting the process of PCR, they are added in excess. | ***To prevent the quantity of primer and deoxynucleoside limiting the process of PCR, they are added in excess. | ||
*'''Elongation''' : With the action of the DNA polymerase, the target sequences are amplified. | *'''Elongation''': With the action of the DNA polymerase, the target sequences are amplified. | ||
**DNA polymerase used in this process is derived from Thermophilic bacteria , organism able to sustain high temperatures | **DNA polymerase used in this process is derived from Thermophilic bacteria , organism able to sustain high temperatures | ||
**Thus the DNA polymerase extracted from them are able to withstand the temperatures used within this process | **Thus the DNA polymerase extracted from them are able to withstand the temperatures used within this process | ||
This three step process is repeated for 20-40 cycles and with each cycle the products exponentially rise. Thus the samples of DNA required are significantly low, another reason why this method is popular method within the field of medicine and outside. | This three step process is repeated for 20-40 cycles and with each cycle the products exponentially rise. Thus the samples of DNA required are significantly low, another reason why this method is popular method within the field of medicine and outside. | ||
Depending on the use of PCR, some may use the method Gel electrophoresis with ethimidium bromide visualization | Depending on the use of PCR, some may use the method Gel electrophoresis with ethimidium bromide. It serves to help visualization of DNA products to separate the DNA fragments through the gel | ||
== References == | == References == | ||
Revision as of 21:03, 2 April 2025
Polymerase Chain reaction is method of amplifying specific sequences of DNA. It is a method that popular used in the field of medicine due to sensitivity, specificity and how quickly it yields result.
Mechanisms of PCR
Three main steps of PCR:
- Denaturation: DNA is denatured at a temperature of 90 degrees celsius. The double stranded helical DNA is separated into two separated strands
- This is performed at the temperature of 90 degree celsius
- The separated stands of DNA serve as template for amplification.
- This process is important to enable the next step in the process, the hybridization of the primers.
- Annealing: Primers and deoxynucleoside triphosphate are added in excess to the sample of DNA, where in they anneal to the complementary sequences on the strands DNA
- This process is performed at temperatures that fall in the range between 50-70 degrees celsius
- Primer: a short oligonucleomers that is complementary to the target sequence that needs to the amplified
- These primer determine the location of the target sequences on the DNA strands as well the length of target DNA fragment.
- To prevent the quantity of primer and deoxynucleoside limiting the process of PCR, they are added in excess.
- Primer: a short oligonucleomers that is complementary to the target sequence that needs to the amplified
- This process is performed at temperatures that fall in the range between 50-70 degrees celsius
- Elongation: With the action of the DNA polymerase, the target sequences are amplified.
- DNA polymerase used in this process is derived from Thermophilic bacteria , organism able to sustain high temperatures
- Thus the DNA polymerase extracted from them are able to withstand the temperatures used within this process
This three step process is repeated for 20-40 cycles and with each cycle the products exponentially rise. Thus the samples of DNA required are significantly low, another reason why this method is popular method within the field of medicine and outside.
Depending on the use of PCR, some may use the method Gel electrophoresis with ethimidium bromide. It serves to help visualization of DNA products to separate the DNA fragments through the gel
References
Rodwell, V.W. et al. (2018) Harper’s Illustrated Biochemistry 31. 31st edn. New York: McGraw-Hill Medical. Pg 1071 - 1074
Polymerase chain reaction (PCR) (n.d) Khan Academy. Available at: https://www.khanacademy.org/science/ap-biology/gene-expression-and-regulation/biotechnology/a/polymerase-chain-reaction-pcr#:~:text=PCR%20is%20used%20in%20many%20research%20labs%2C%20and%20it%20also,the%20case%20of%20prenatal%20testing). (Accessed: 02 April 2025).
Khehra, N., Padda, I.S. and Swift., C.J. (2023) Polymerase chain reaction (PCR), StatPearls [Internet]. Available at: https://www.ncbi.nlm.nih.gov/books/NBK589663/ (Accessed: 02 April 2025).
PCR technique and its applications in biology and medicine (2023) MyBioSource Learning Center. Available at: https://www.mybiosource.com/learn/pcr-technique-and-its-applications-in-biology-and-medicine/ (Accessed: 02 April 2025).
Murray, P.R., Rosenthal, K.S. and Pfaller, M.A. (2016) Medical microbiology. 8th edition. Philadelphia, PA: Elsevier. Page 23 - 25
