Powers Lab UC Davis 9/01
Note: Protocol is designed for 50 ml of cells grown to mid log (OD600 ~ 0.5-0.7). This will provide enough RNA for several Northern blots. In general, however, this is not a sufficient amount to continue with Poly A mRNA isolation, where a minimum of 250 ml of culture is recommended.
Following experiment, pellet cells
in 50 ml plastic conical centrifuge tubes
Discard media and quick-freeze cells in liquid nitrogen. Store at -80°C
until ready for RNA prep.
Thaw 50 ml tubes on ice
Add 10 ml of AE Buffer to each tube
[AE Buffer= 50 mM NaOAc (pH 5.5), 10 mM EDTA]
Add 1 ml 10% SDS and 10 ml water-saturated phenol to each tube
Vortex 1 minute, place in 65°C bath for 10 minutes, revortex 30 seconds
Spin tubes in clinical centrifuge at 4,000 rpm for 10 minutes
[Also spin phase lock tubes at the same time (Eppendorf, 50 ml Phase Lock Gel,
Heavy)]
Pour contents of tube into pre-spun phase lock tube (aqueous and organic phases
will mix-this is okay), discard pellet
Add 10 ml chloroform. Mix by inverting gently several times (Do Not Vortex).
Spin tubes in clinical centrifuge 10 minutes
Pour aqueous contents of tube into new 50 ml falcon tube, discard organic phase
Add 1/10 volume 3M NaOAc pH 5.5 (~1.2 ml)
Add equal volume of isopropanol (~13 ml); mix
Store -20°C for 2 hours to overnight.
Spin cells in SS-34 type rotor that will accept conical centrifuge tubes (or
transfer contents to conventional centrifuge tubes) at 10K rpm for 20 minutes.
Discard supernatant and wash pellets with 10 ml 70% EtOH
Dry pellets under vacuum
Resuspend pellets in ~100 µl RNase free H2O (concentration should be in
the range of 2-10 mg/ml)
Store RNA at -80°C
Overview: the protocol is broken into 4 basic steps: 1. Outline of all equipment and reagents used, 2. Sample prep and running the gel, 3. Transfer of RNA to nylon membrane, and 4. Probing the blot.
Equipment and reagents used:
Gel Box: Model H4 Horizon
Gel Electrophoresis Apparatus
Life Technologies Cat. No. 11025-012
Gel Combs: 1.0 mm thick 15
tooth comb
Life Technologies Cat. No. 11953-072
(note: I think this particular comb makes all of the
difference in the quality of the resulting bands on the blot)
Power supply: BioRad Powerpac 300 or equivalent
| 10X E Buffer | For 1 liter |
| 0.2M MOPS | 41.9 grams |
| 0.05M NaOAc | 6.8 grams |
| 0.005 M EDTA | 10 ml of 0.5M EDTA stock |
| Adjust pH to 7.0 |
Sample denaturation mix
323 µl formamide
113 µl formaldehyde
65 µl 10X E Buffer
0.5 µl Ethidium Bromide
| Loading Mix | For 10 ml |
| 50% glycerol | 5 ml glycerol |
| 0.3% XC dye | 0.03 g XC |
| 0.3% BPB dye | 0.03 g BPB |
| 1 mM
EDTA 20 µl 0.5 M EDTA stock H2O to 10 ml |
| 20X SSC | ||
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For 2 liters
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| 70 grams NaCl | ||
| 35 grams Na Citrate | ||
| Church Buffer | ||
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0.5M Na2HPO4
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add 70.5 grams
to 850 ml of H2O
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adjust pH with
H3PO4 to 7.2
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add 2 ml of
0.5M EDTA,
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70g SDS
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then adjust
volume up to 1 liter
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(note: must
adjust pH before adding SDS)
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Duralon-UV membrane (Stratagene,
Cat No. 420101)
Ready-to-go DNA labeling beads -dCTP (Amersham Pharmacia)
a-labeled dCTP High specific activity (> 4000 Ci/mmol)
Quick spin G-50 sephadex TE spin columns (Boehringer, Cat. No. 1523-023)
The gel:
Combine 250 ml H2O and 5.25 grams agarose in 500 ml flask
Heat in microwave until agarose is dissolved
Add stir bar and place on stir plate in a fume hood
Combine 35 ml 10X E Buffer and 65 ml formaldehyde in a 100 ml glass graduated
cylinder and mix
Add to agarose slowly and let cool until flask can be held with gloved hands
Pour into gel tray that comes with gel box (combs are inserted and ends are taped to prevent leaks). Let solidify ~30 minutes
Sample prep:
Combine:
15 µl Sample denaturation mix
6 µl RNA (10-20 µg RNA and H2O to volume)
Heat 15 minutes 55°C, then
sit on ice for 2 minutes
Add 2 µl of Loading Mix
Gel running:
Set up gel in gel box and add 2 liters of 1X E Buffer
Load Samples
Run at 100 V for 3-5 hours
Gel Transfer |
| When finished,
take a picture of gel on UV lightbox Soak gel for 5-10 minutes in 10X SSC Also soak Nylon membrane (cut to fit gel) in 10X SSC |
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| Set up standard
capillary blot transfer apparatus, using 10X SSC and paper towels (I do this in the gel box by placing a glass plate over the box- this will take 1 liter of 10X SSC) |
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The order of
items, from bottom to top, is:
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| Gel
box with 1 liter 10X SSC Glass plate Long piece of Whatmann paper to act as wick (ends are in buffer and center is over glass plate) Gel, turned upside down and with wells removed Plastic wrap around edges of gel, to prevent buffer flow around gel Nylon membrane Two pieces of wet Whatman paper (cut to size of gel/membrane) One dry piece of Whatman paper ~10 cm stack of paper towels Small stack of books/catalogues to act as weight |
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| Transfer
overnight (8-12 hours) Wash membrane briefly in 2X SSC Cross link RNA to membrane with UV crosslinking apparatus (i.e., Stratagene Stratalinker) Wash further in 2X SSC |
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Hybridization with Labeled Probe |
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membranes in 10 ml of Church Buffer in hybridization tubes Pre-hybridize at 65°C for > 2 hours in circulating hybridization oven Prepare labeled probe using Ready-to-go DNA labeling beads according to directions provided (Note: the amount of DNA probe is approximately 1/10-1/5 of a 100 µl PCR Reaction. I generate probe using genomic DNA and primers from Research Genetics. PCR product is cleaned up using Qiagen PCR purification kit) Following labeling of probe, G-50 column is used to remove unincorporated label. Add probe to hybridization tube and incubate overnight at 65°C. Wash membrane extensively with 2X SSC at room temperature. Place in seal-a-meal bag and expose to Phosphoimager screen. |