Team:Hawaii/Protocols/Plasmid prep
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* Add 1 μl RNase after step 12. Incubate at 55C for 30-90 min. (Re: SC) | * Add 1 μl RNase after step 12. Incubate at 55C for 30-90 min. (Re: SC) | ||
+ | * Add 1 μl RNase after step 7. Incubate at 55C for 60 min. ''-GK'' | ||
==Large Scale Prep== | ==Large Scale Prep== |
Revision as of 05:32, 13 August 2008
Contents |
Miniprep Protocol
1. Grow single colony of E. coli at 37C overnight in 5 ml LB w/ antibiotic selection.
2. Microcentrifuge 1.5 ml cells for 20 sec at 16,000g. Discard supernatant.
3. Resuspend pellet in 100 μl GTE solution.
- 50 mM glucose
- 10 mM EDTA
- 25 mM Tris-HCl (pH 8.0)
4. Let sit for 5 min. at room temperature.
5. Add 200 μl NaOH/SDS solution.
- 0.2 M NaOH
- 1% SDS
6. Mix by inverting the tube a few times.
7. Incubate on ice for 5 min.
- Incubate no more than 5 min. to allow for maximum release of plasmid DNA while minimizing genomic DNA release and overexposure to denaturing conditions.
8. Add 150 μl potassium acetate solution.
- Precipitation of cellular debris may be enhanced by using chilled KOAc.
9. Invert a few times to mix.
10. Incubate on ice for 5 min.
11. Microcentrifuge for 3 min. at 16,000g.
12. Transfer supernatant to a new tube.
13. Add 0.8 ml 95% ethanol.
14. Incubate for 2 min. at room temperature.
15. Microcentrifuge for 1 min. at 16,000g at room temperature. Remove supernatant.
16. Wash pellet w/ 1 ml 70% ethanol. Aspirate to dry (dry in hood).
17. Resuspend pellet in 30 μl TE buffer.
Reference: Short Protocols in Molecular Biology
- Add 1 μl RNase after step 12. Incubate at 55C for 30-90 min. (Re: SC)
- Add 1 μl RNase after step 7. Incubate at 55C for 60 min. -GK
Large Scale Prep
- Innoculate 5mL LB containing selective agent with a colony of plasmid bearing E. coli. Grow at 37C with vigorous shaking over night.
- Inoculate 500mL LB containing selective agent with ~1mL of over night culture. Grow at 37C with vigorous shaking until OD600~4.0 is reached (saturation).
- use baffled 2L flask
- for this prep, we used a 300mL culture.
- Centrifuge 10 minutes at maximum 894 rcf (maximum rcf for our centrifuge), 4°C. Use 50mL aliquots.
- The protocol recommends using 6,000 x g.
- The 300mL prep is divided into 6 50mL tubes.
- Combine 3 tubes by resuspending in 4mL of GTE solution. Incubate 10 minutes at room temperature.
- For one variation (latter called Prep 1), add 50ug/mL Rnase solution (20uL).
- Add 10mL NaOH/SDS solution, mix (gently) by inverting 4 times. Incubate on ice for 10 minutes.
- Solution should become homogeneous and clear. This prep was not clear, but proceeded with protocol.
- Add 7.5mL potassium acetate, mix (gently)by inverting 4 times. Incubate on ice for 10 minutes.
- A white precipitate forms.
- Centrifuge for 15 minutes at 894 rcf, 4°C.
- Recommended to spin at 20,000 x g for 10 minutes.
- Centrifuge until a good pellet forms. Some material will be floating, remove as much as possible with pipette tip.
- Decant supernatant to a new tube.
- Do this step with a pipette and avoid the white precipitate.
- For one variation (latter called Prep 2), add 50ug/mL Rnase solution (20uL).
- Add 0.6 volume of isopropanol. Mix by inversion, let stand 5-10 minutes at room temperature.
- For a 21.5mL prep (total volume up to this point) add 12.9mL isopropanol.
- Centrifuge 15 minutes at 894 rcf at room temperature. Discard supernatant.
- Recommended to spin at 15,000 x g.
- Centrifuge until really good pellet forms. Avoid the pellet!
- Wash pellet with 2mL 70% ethanol.
- Centrifuge for 5 minutes at 894 rcf at room temperature. Aspirate ethanol.
- Recommended to spin at 15,000 x g briefly.
- Centrifuge until really good pellet forms.
- Dry pellet in the hood.
- Recommended to dry the pellet under vacuum.
- Resuspend in 100uL TE, lightly vortex.
- Recommended to store indefinitely at 4°C (but does not specify if buffer is needed).
- Heat at 65°C for 30 minutes.
- The product was cloudy so taking extra purification step.
- Centrifuge 10 minutes at 894 rcf, room temperature.
- Aspirate clear liquid, avoiding pellet.
- Wash pellet with 100uL TE, centrifuge, aspirate and combine with product.
- Check the concentration of the plasmid using a spectrophotometer (need protcol).
- Verify presence of plasmid DNA by first using a restriction digest, followed by gel electrophoresis.
UV Spectroscopy for the Quantification of Plasmid DNA
- used to asses purity and concentration of nucleic acids
- A260 measurements are quantitative for relatively pure nucleic acid preps in microgram quantities
- Cannot be used to discriminate between RNA and DNA
- Ratio of A260/A280 indicates purity, as protein absorbs at 280nm.
- A325 indicates particulates in solution or dirty cuvette
- A230 for contaminants containing peptide bonds or aromatic moieties such as protein and phenol
NanoDrop Protocol
- Turn on computer, select spec icon, choose nucleic acids setting
- Pull up lever of spec (DON'T PULL with WIRE!), wash top and bottom with small amount of water.
- Blank with 2uL TE, click blank
- Load 2uL sample, click measure
- If results significant, can print. If not, repeat steps with a dilution of sample.