PCR – MicSat – used for automatic sequencers
1. 4.4 μl ddH2O
2. 0.8 μl 25mM MgCl2
3. 0.8 μl 10mM dNTPs
4. 1.0 μl 10x (NH4)2SO4 PCR Buffer (without MgCl2)
5. 1.0 μl 2μM primer1
6. 1.0 μl 2μM primer2 (fluorescently labeled)
Mix and add 9 μl of master mix to each reaction. Add 1 μl DNA (5-50 ng/μl).
1. 93°C for 120 sec. (hot start)
2. 93°C for 5 sec. (denature)
3. 50-60°C for 15 sec. (anneal – exact temperature depends on the primers)
4. 68°C for 60 sec. (extend)
5. 68°C for 30 min. (final extend)
6. 15°C forever (hold)
Repeat steps 2 – 4 35 times. The length of the last 68°C extension depends on the type of a microsatellite primer. It is there to make sure all primers have the terminal adenine added, and thus “microsat stutter” is reduced (see Brownstein et al. 1996). Annealing temperature depends on the primer used, and length of denaturation and annealing depends on the thermocycler.
The PCR product will need to be diluted before it can be resolved on an automatic sequencer. Depending on the strength of the reaction, 1:10 to 1:50 dilution will work. For loading on an automatic sequencer, 2 μl of the diluted product are added to 0.2 μl of GENESCAN 400HD size standards from ABI or equivalent such as MegaBACE ET400, and 7.8 μl of Hi-Di Formamide or Tween20. The PCR product does not have to be purified, but purification increases signal quality on an automatic sequencer, and removes the initial dye peak. Strong initial dye peaks will clog, and significantly shorten the life span of capillaries.
Brownstein, M. J., Carpten, J. D. & Smith, J. R. (1996). Modulation of non-templated nucleotide addition by Taq DNA Polymerase: primer modifications that facilitate genotyping. Biotechniques 20, 1004-1010.