Begin by preparing a polymerized page gel sandwich. Remove the clamps and paper tape layers, and slowly remove the comb. Thoroughly rinse the wells with distilled water.
Place the gel sandwich correctly in the vertical electrophoresis apparatus. Fill the top and bottom reservoirs with TBE buffer. Warm up the plates by performing a pre-run of the gel electrophoresis for at least 30 minutes at 50 watts.
Meanwhile, re-suspend the dried samples in five microliters of denaturing gel loading buffer. Next, use a small syringe filled with TBE buffer to flush the urea out of the wells of the gel. Now load the samples into the clean wells, taking note of the odor of loading.
Run the gel for two hours at 50 watts or until the bromophenol blue dye has run down 2/3 of the gel. After electrophoresis, turn off the power supply, carefully remove the glass sandwich, and clean the glass plates. Place the gel in a gel imager to detect the fluorescence of the FAM-labeled oligonucleotide bands.
After one, four, and 15 hours of incubation, either five or 50 Micromolar Bsep 1 reacted with two micromolar samples of G4 TBA, single-stranded TBA, and double-stranded TBA. Controls were loaded for each set of samples. The G4 TBA substrate showed only one alkylation adduct due to the availability of only G8 for alkylation and subsequent stranded cleavage.
Multiple adducts and bands of cleavage products were observed in single and double-stranded TBA, because all guanines were susceptible to Bsep reaction. Probing reaction and tris buffer resulted in inefficient chemical mapping due to the presence of undesired nucleophiles, causing reduced proprioactivity. The G4 TBA samples showed only the formation of adduct without stranded cleavage.
For the single and double-stranded TBA, only a 24-hour incubation led to DNA fragmentation, comparable to the 15-hour fragmentation without Tris.
