Bulk Segregant Mapping Protocols
ISOLATION OF INTACT GENOMIC DNA
Isolate genomic DNA from embryos using our genomic DNA isolation protocol.
BULK SEGREGANT ANALYSIS
All the mixes should be scaled up by the amount necessary for the number of samples to be analyzed. Programs have been set up on the Beckman robot to aliquot the primers, set up the PCR reactions and to add loading buffer.
I. Preparation of Primers for PCR
For each PCR reaction, 0.2 µl of each primer (20 µM stock) will be used in a 10 µl reaction volume. For easier distribution of the primers, they should first be diluted as follows:
To each well of a 96-deep well block add 460 µl of MilliQ water. Then, to the appropriate well, add 20 µl of the forward and 20 µl of the reverse primer assigned to that position. When the primers are then aliquoted, 5 µl of each primer mix will be added which is equivalent to 0.2 µl of the undiluted stock.
II. Primer Setup
The robot will be used to aliquot the primers from 96-well blocks. The bulk segregant will be done on four sets of pools at a time to help in interpretation of the results (only one of the -/- pools would be expected to lack a band unless the mutations were linked).
Using the program BULKPRIM, 5 µl of the primers from column A1 to H1 will be aliquoted into columns A1-H4 of two plates (one for WT pools, the other for -/- pools); similarly, column A2 to H2 will be aliquoted into columns A5-H8 and column A3 to H3 will be aliquoted into columns A9-H12 of two plates. Once the analysis has been done on these primer sets, it will be repeated for the primer sets in all wells of plates I and II.
III. Pooling of DNA
Combine 2 µl of the concentrated DNA from 24 WT embryos into a single 1.5µl tube (WT pool).
Combine 2 µl of the concentrated DNA from 24 mutant (-/-) embryos into a single 1.5µl tube (-/- pool).
Add 850ul of water to dilute each pool to a final volume of 900 µl. This should provide more pooled DNA than actually required for the bulk segregant analysis. Keep the diluted DNA at -20C for short term storage. Remember to record which embryos were pooled to for the analysis (eg. -/- pool = A1-A12+B1-B12).
IV. Reaction Setup
To each of the wells, a pre-mix containing the DNA and rxn components will be added.
Component |
Per Reaction |
Single Pool Mix |
|---|---|---|
10X PCR buffer A |
1.0 µl |
26.0 µl |
20 mM dNTPs |
0.1 µl |
2.6 µl |
DNA pool |
2.5 µl |
65.0 µl |
dH2O |
1.35 µl |
35.1 µl |
Taq DNA polymerase (Fisher) |
0.05 µl (0.25 U) |
1.3 µl |
Total |
10 µl |
260 µl (for 1 plate/1 pool) |
For each analysis, 8 pool mixes will be made as shown above (1WT + 1 -/- for 4 mutations = 8). Depending on the number of plates per mutant to be analyzed, scale up the mixes accordingly.
Using the robot and program BULKPLS, 5 µl of the appropriate mix will be added to the aliquoted primers, as follows:
WT pool A to A1-H1, A5-H5, A9-H9
WT pool B to A2-H2, A6-H6, A10-H10
WT pool C to A3-H3, A7-H7, A11-H11
WT pool D to A4-H4, A8-H8, A12-H12
Similarly, for the -/- plate, add as follows:
-/- pool A to A1-H1, A5-H5, A9-H9
-/- pool B to A2-H2, A6-H6, A10-H10
-/- pool C to A3-H3, A7-H7, A11-H11
-/- pool D to A4-H4, A8-H8, A12-H12
The mixes should be made in individual 1.5 µl screw cap tubes and arranged on the robot as follows:
WT pool 1 |
WT pool 2 |
WT pool 3 |
WT pool 4 |
-/- pool 1 |
-/- pool 2 |
-/- pool 3 |
-/- pool 4 |