Encyclopedia of Experiments
Biological Techniques
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Encyclopedia of Experiments Biological Techniques
The Circular Dichroism Spectroscopy Technique to Study DNA-Protein Interactions

The Circular Dichroism Spectroscopy Technique to Study DNA-Protein Interactions

Transcript

Collect the CD spectra in high-transparency quartz cuvettes. Use either rectangular or cylindrical cuvettes. To clean the cuvettes, wash them with water several times, then, take a scan of the water or buffer in the cuvette to check whether it is clean.

For the reactions, use PAGE-purified DNA oligonucleotides. For fast-cooling, heat the DNA at 94 degrees Celsius for 3 minutes on the heating block and immediately cool it on ice. For a slow-cooling, after heating the DNA at 94 degrees Celsius for 3 minutes, allow it to cool to room temperature at a rate of 1 degree Celsius per minute.

To record the baseline spectra, set up a total of 5 control reactions, one by one, in 1.5-milliliter centrifuge tubes. Keep the reaction volume at 300 microliters in all the reactions.

To record the CD spectra, set up a total of five experimental reactions one by one in 1.5-milliliter centrifuge tubes.

To record the scan, turn on the gas, and switch on the CD spectrometer. After 10 to 15 minutes, switch on the lamp, switch on the water bath, and set the holder temperature at 37 degrees Celsius.

Next, open the CD spectrum software and set the temperature to 37 degrees Celsius, the wavelength range at 180 to 300 nanometers, the time per point to 0.5 seconds, and the scan number to 5. Then, click on the Pro-Data Viewer, make a new file, and rename it with the details of the experiment and the date.

Next, mix the baseline and experimental reactions by pipetting, and carefully transfer the reaction mixes one by one to the cuvette, ensuring that there are no air bubbles.

If performing a time-course experiment, incubate the reactions at 37 degrees Celsius for the required time. Then, take the scan. Add EDTA to the buffer containing the DNA, ATP, magnesium, and protein to stop ATP hydrolysis. To completely inhibit the ATPase activity, increase the EDTA concentration and incubation time.

Subtract the baselines from the corresponding reactions in the software, and smoothen the data either in the CD spectrum software or in the data-plotting software. Then, plot a graph of wavelength against mean residue ellipticity and analyze the peaks.

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