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प्रश्न
Give the steps in PCR or polymerase chain reaction with suitable diagrams.
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उत्तर
Polymerase Chain Reaction (PCR) is the process of in vitro amplification of the gene of interest using a PCR machine.
i. PCR can generate a billion copies of the desired segment of DNA or RNA, with high accuracy and specificity, in a few hours.
ii. The process of PCR is completely automated and involves automatic thermal cycles for denaturation and renaturation of double-stranded DNA.
iii. The device required for PCR is called a thermal cycler.
iv. Requirements for polymerase chain reaction:
- DNA containing the desired segment to be amplified
- several molecules of four deoxyribonuclueoside triphosphates (dNTPs)
- excess of two primer molecules
- heat-stable DNA polymerase and
- appropriate quantities of Mg++ ions.
Mechanism of PCR:
At the start of PCR, all the requirements are mixed together in ‘Eppendorf tube’ and the following operations are performed sequentially:
Step i: Denaturation
The reaction mixture is heated to a temperature (90–98oC) to separate two strands of desired DNA. This is called denaturation.
Step ii: Annealing
The mixture is allowed to cool (40–60oC) that permits the pairing of the primer to the complementary sequences in DNA. This step is called annealing.
Step iii: Primer extension / Polymerization
The temperature (70–75°C) allows thermostable Taq DNA polymerase to use single-stranded DNA as a template and adds nucleotides. This is called primer extension. It takes around two minutes duration.
v. One cycle takes around 3 to 4 minutes.
vi. To begin the second cycle, DNA is again heated to convert double-stranded DNA into single strands.
vii. In an automatic thermal cycler, the above three steps are automatically repeated 20-30 times. Thus, at the end of ‘n’ cycles, 2n copies of DNA segments are produced.
viii. The machine performs the entire operations automatically and precisely.
DNA replication through a polymerase chain reaction.
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| Column I (PCR steps) | Column II (Temperature) | ||
| i. | Polymerization | P. | 40 - 60°C |
| ii. | Denaturation | Q. | 70 - 75°C |
| iii. | Primer annealing | R. | 90 - 98°C |
| S. | 28 - 37°C |
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