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Contents
Overview
Electrophoresis permits assessment of RNA by size and amount. In general, electrophoresis of RNA is done as a step prior to Northern analysis. However, this protocol is for visualizing the RNA in the gel. Since this is a denaturing protocol, the RNA can be assessed both for quality and size.
Materials
Reagents
- RNAse free water (make lots for rinsing glassware and electrophoresis chambers)
- Add DEPC to final concentration of 0.1%.
- Incubate 1hr at 37°C.
- Autoclave for 15 mins at 15 psi.
- 10X BPTE electrophoresis buffer (The final pH of this 10x buffer is ~6.5.)
- 100 mM PIPES
- 300 mM Bis-Tris
- 10 mM EDTA
- HPLC grade or better DMSO
- Glyoxal
- Commercially available stock solutions of glyoxal contain both hydrated forms of glyoxal and oxidation products that can degrade RNA. These must be removed.
- Glyoxal reaction mixture (divide into small aliquots and store at -70°C)
- 6mL DMSO
- 2mL deionized glyoxal
- 1.2mL of 10X BPTE electrophoresis buffer
- 0.6mL of 80% glycerol
- RNA size marker
- RNA gel loading buffer
- 95% deionized formamide
- Purchase a distilled deionized preparation of formamide and store in small aliquots under nitrogen at -20°C.
- 0.025% (w/v) bromophenol blue
- 0.025% (w/v) xylene cyanol FF
- 5 mM EDTA (pH 8.0)
- 0.025% (w/v) SDS
- 95% deionized formamide
Equipment
- 37 °C incubator
- 55 °C water bath
- Ice water bath
- Electrophoresis apparatus
Procedure
Prepare RNase free water
- Add DEPC to final concentration of 0.1% to H2O
- Incubate 1hr at 37°C.
- Autoclave for 15 mins at 15 psi.
Prepare BPTE electrophoresis buffer
- Prepare 10X buffer by adding the following to 90 ml of distilled H2O
- 3 g of PIPES (free acid)
- 6 g of Bis-Tris (free base)
- 2 ml of 0.5 M EDTA
- Treat the solution with final concentration of 0.1% DEPC for 1 hour at 37°C
- Autoclave.
Dilute 10X buffer 10-fold with RNase free H2O.
Prepare glyoxal reaction mixture
- 6mL DMSO
- 2mL deionized glyoxal
- 1.2mL of 10X BPTE electrophoresis buffer
- 0.6mL of 80% glycerol
Divide into small aliquots and store at -70°C.
Prepare RNA gel loading buffer
- Mix the following
- 95% deionized formamide
- Purchase a distilled deionized preparation of formamide and store in small aliquots under nitrogen at -20°C.
- 0.025% (w/v) bromophenol blue
- 0.025% (w/v) xylene cyanol FF
- 5 mM EDTA (pH 8.0)
- 0.025% (w/v) SDS
- 95% deionized formamide
Denature RNA samples
- Mix 10 μL glyoxal reaction mixture with 1-2 μL RNA (up to 10 μg).
- Also mix 10 μL glyoxal reaction mixture with RNA size marker.
- Incubate RNA samples at 55°C for 1 hr.
- Chill RNA samples for 10 mins in ice water.
- Centrifuge 5 seconds to collect liquid at the bottom of the tubes.
Cast gel
Do this step during 1 hr denaturation of samples.
- Cast 1.5% agarose gel in 1X BPTE electrophoresis buffer.
- Use a comb with at least 4 extra lanes for size markers and running dyes.
- Place gel in chamber.
- Cover with 1X BPTE electrophoresis buffer to cover gel to a depth of 1mm.
Run gel
- Add 1-2μL RNA gel loading buffer to glyoxylated RNA samples
- Immediately load samples. Leave two outside lanes on each side empty.
- Load RNA size markers on outside lanes of gel.
- Electrophorese at 5V/cm.
Stain gel
- Prepare fresh 1:10,000 dilution in RNase free water of SYBR gold.
- Ensure pH is 7.0-8.5.
- Pour into staining tray.
- Place gel in plastic staining container.
- Shield from light.
- Agitate gently for 10-40 mins at room temperature.
- Image with Knight:Gel imager. (Place a clear ruler next to gel to more accurately assess length.)