Reverse transcription and amplification experiments with low abundance nucleic acids
Reverse transcription and amplification experiments with low abundance nucleic acids
This method uses only one recombinant enzyme, rTth DNA polymerase, which allows for simultaneous reverse transcription and amplification in a single reaction, thus eliminating the need for two different buffer systems.
Operation method
one-step method
Materials and Instruments
Nucleic Acids Move 1. Pretreat slides with peroxidase, proteinase K and DNAase. For more product details, please visit Aladdin Scientific website.
dNTP MnCl2 MgCl2 BSA rTth DNA polymerase
Water bath Incubator
2. Configure the one-step reaction system as follows (total volume 100 μl)
(1) 0.5 μl 100 μmol/l forward primer (final concentration 0.5 μmol/l)
(2) 0.5 μl 100 μmol/l reverse primer (final concentration 0.5 μmol/l)
(3) 6 μl 3 mmol/l 4dNTP mixture (final concentration 0.12 mmol/l)
(4) 2 μl 10 mmol/l MnCl2 (final concentration 0.2 mmol/l)
(5) 10 μl 25 mmol/l MgCl2 (final concentration 2.5 mmol/l)
(6) 2 μl 10×rTth transcription buffer (final concentration 0.2×)
(7) 8 μl 10× chelation buffer (final concentration 0.8×)
(8) 10 μl 1.7 mg/ml BSA (final concentration 0.17 mg/ml)
(9) 2 μl 2.5 U/ml rTth DNA polymerase (final concentration 9.05 U/ml)
(10) 29 μl DEPC-treated water
3. Add 8 μl (if using 3-well slides) or 12-20 μl (if using single-well slides) of in situ PCR amplification system to each well with a 20 μl pipette tip, which covers the entire surface of the well.
4. Place a 20 mm × 60 mm coverslip on each slide and carefully seal the edges of the coverslip with nail polish.5. On a 92°C heating block, warm the slide for 90 s. Then transfer to a thermal cycler.
6. Replace the in situ PCR reaction system with the one-step reaction system prepared in step 2.
7. Perform reverse transcription according to the following temperature cycling program:
(1) 1 cycle: 15 min, 70°C
(2) 3 min, 92°C
(3) 15 min, 70°C
(4) 3 min, 92℃
(5) 15 min, 70℃
8. Perform in situ PCR according to the following temperature cycling program:
(1) 29 cycles: 1 min, 93°C (denaturation)
(2) 1 min, 53°C (annealing)
(3) 1 min, 72°C (extension)
(4) Final step: indeterminate, 4°C (maintenance)
9. Remove the slide from the thermal cycler, immerse it in 100% ethanol for ≥5 min to dissolve the nail polish, and use a razor or other knife to skid the coverslip and scrape off the nail polish residue so that a new coverslip can be placed flat during the hybridization/detection step.
10. incubate slides on a 92°C heating block for 1 min, then soak in 2×SSC for 5 min at room temperature. slides can be stored at 4°C for 2-3 weeks.
