RNA Miniprep using 2-Butoxyethanol

by A. Untergasser (contact address and download at www.untergasser.de/lab)
Version: 1.0 - Print Version (.PDF)

ATTENTION: This is a low priced protocol. Use it preferably!
It works well, but it takes three days and involves many toxic chemicals.

  1. Add 1% beta-mercaptoethanol to the extraction buffer
  2. Grind max. 125 mg tissue into a fine powder
  3. Transfer grinded powder into a eppi
  4. Add 1 ml of extraction buffer and vortex well
    Careful, pressure may build up!
  5. Spin for 10 min at top speed
  6. Transfer top phase to a fresh eppi
  7. Add 500 µl chloroform and vortex well
  8. Spin for 5 min at top speed
  9. Transfer top phase to a fresh eppi
  10. Add 500 µl phenol / chloroform and vortex well
  11. Spin for 10 min at top speed
  12. Transfer top phase to a fresh eppi
  13. Add 500 µl chloroform and vortex well
  14. Spin for 5 min at top speed
  15. Transfer top phase to a fresh eppi
  16. Add 40 µl 3 M NaAc and 1 ml 96% EtOH and vortex well
  17. Store at -80 °C until frozen
  18. Spin for 5 min at top speed at 4 °C
  19. Remove supernatant and add 500 µl 70% EtOH to wash
  20. Spin for 5 min at top speed
  21. Remove supernatant and add 500 µl RNA resuspension buffer
  22. Incubate at 65 °C to dissolve pellet
  23. Add 200 µl 2-Butoxyethanol an mix well
  24. Incubate on ice for at least 3 hours.
  25. Spin for 10 min at max. speed at 4 °C
  26. Transfer supernatant to a fresh eppi
  27. Add 300 µl 2-Butoxyethanol and mix well
  28. Incubate on ice over night.
    .
  29. Spin for 10 min at max. speed at 4 °C
  30. Discard the supernatant and add 500 µl 70% EtOH
  31. Spin for 5 min at max. speed at 4 °C
  32. Discard the supernatant and let pellet briefly dry
  33. Dissolve in 1 ml water (and transfer to an eppi)
  34. Precipitate RNA by adding 335 µl 8 M LiCl
  35. Incubate at 4 °C over night
    .
  36. Spin for 30 min at max. speed at 4 °C
  37. Discard the supernatant and add 100 µl 70% EtOH
  38. Spin for 5 min at max. speed
  39. Discard the supernatant and dissolve in 200 µl water
  40. Add 20 µl 3 M NaAcetate (pH 5.2) and 500 µl 96% ethanol
  41. Spin for 5 min at max. speed
  42. Store at -80 °C until frozen
  43. Spin for 30 min at top speed at 4 °C
  44. Remove supernatant and add 100 µl 70% EtOH to wash
  45. Spin for 5 min at top speed
  46. Remove supernatant and redissolve 50 µl water
  47. Incubate at 65 °C to dissolve pellet

Buffers and Solutions

RNA Extraction Buffer

Prepare in a 1 liter bottle:

Triisopropylnaphtalene Sulfonic Acid 5.56 g 1%
p-Aminosalicylic Acid 30 g 6%
1 M Tris-HCl (pH 8.0) 50 ml 100 mM
0.5 M EGTA (pH 8.0) 50 ml 50 mM
NaCl 2.9 g 100 mM
SDS 5 g 1%
Polyvinylpyrolidone (PVP) (M.W. 40,000) 5 g 1%
Polyvinylpolypyrolidone (PVPP) 15 g 3%
add water to 500 ml    

Autoclave for 15 min, then add:

chloroform 500 ml  

The extraction buffer is a mess. The PVPP will not dissolve, the chloroform will always separate and it has a brown color. The best is to put it on a magnetic stirrer and use it from there. It has a cacao color and can be pipetted with 1 ml pipettes were the tip was cut off. Always add beta-mercaptoethanol fresh.

Before use add Mercaptoethanol:
for 50 ml Buffer add 250 µl Mercaptoethanol
for 30 ml Buffer add 150 µl Mercaptoethanol
for 10 ml Buffer add 50 µl Mercaptoethanol
for 5 ml Buffer add 25 µl Mercaptoethanol
for 1 ml Buffer add 5 µl Mercaptoethanol

RNA Resuspension Buffer

Boric Acid 0.78 g 25 mM
1 M Tris-HCl (pH 7.6) 25 ml 50 mM
0.5 M EGTA (pH 8.0) 1.3 ml 1.25 mM
NaCl 2.9 g 100 mM
add water to 500 ml    


Required Solutions and Chemicals

- 3 M Natriumacetate (NaAc) solution (pH 5.2)
- 2-Butoxyethanol (2BE)
- 8 M Lithiumchloride (LiCl)

Commented Protocol:

1. Add 1% beta-mercaptoethanol to the extraction buffer

Because the extraction buffer always separates it is the best to put it on a magnetic stirrer and use it from there. It can be pipetted with 1 ml pipettes were the tip was cut off. Always add beta-mercaptoethanol fresh.

2. Grind max. 125 mg tissue into a fine powder

This is best done in a mortar for big amounts with liquid nitrogen or in a cap-shaker for smaller amounts.

3. Transfer grinded powder into a eppi

4. Add 1 ml of extraction buffer and vortex well

Careful, pressure may build up!

5. Spin for 10 min at top speed

The chloroform is already in the extraction buffer.

6. Transfer top phase to a fresh eppi

7. Add 500 µl chloroform and vortex well

8. Spin for 5 min at top speed

9. Transfer top phase to a fresh eppi

10. Add 500 µl phenol / chloroform and vortex well

Just mix phenol and chloroform 1:1 and mix well before use. It also separates after some time.

11. Spin for 10 min at top speed

12. Transfer top phase to a fresh eppi

13. Add 500 µl chloroform and vortex well

14. Spin for 5 min at top speed

15. Transfer top phase to a fresh eppi

16. Add 40 µl 3 M NaAc and 1 ml 96% EtOH and vortex well

This step precipitates all nucleic acids. The pellet has a brown color.

17. Store at -80 °C until frozen

18. Spin for 5 min at top speed at 4 °C

19. Remove supernatant and add 500 µl 70% EtOH to wash

20. Spin for 5 min at top speed

21. Remove supernatant and add 500 µl RNA resuspension buffer

22. Incubate at 65 °C to dissolve pellet

Pipetting up and down can help as well.

23. Add 200 µl 2-Butoxyethanol an mix well

In this first step we precipitate polysaccharides at a low 2-BE concentration.

24. Incubate on ice for at least 3 hours.

The publication incubates for more than 30 min, it seems both is working.

25. Spin for 10 min at max. speed at 4 °C

It will form a brown pellet containing the sugars.

26. Transfer supernatant to a fresh eppi

27. Add 300 µl 2-Butoxyethanol and mix well

In this second step we precipitate nucleotides at a high 2-BE concentration.

28. Incubate on ice over night.

.

The publication incubates for more than 30 min and I extended it up to 24 hours, it seems as if both is working.

29. Spin for 10 min at max. speed at 4 °C

It will form a brown pellet containing the nucleotides.

30. Discard the supernatant and add 500 µl 70% EtOH

31. Spin for 5 min at max. speed at 4 °C

The pellet does not look different.

32. Discard the supernatant and let pellet briefly dry

Not too long, over dried nucleotides are difficult to dissolve in water.

33. Dissolve in 1 ml water (and transfer to an eppi)

34. Precipitate RNA by adding 335 µl 8 M LiCl

35. Incubate at 4 °C over night

.

Lithiumchlorid precipitates RNA, the timing seems to be critical as well. The majority should be precipitated after four hours.

36. Spin for 30 min at max. speed at 4 °C

It will form a brown pellet containing the nucleotides.

37. Discard the supernatant and add 100 µl 70% EtOH

38. Spin for 5 min at max. speed

It will form a brown pellet containing the nucleotides.

39. Discard the supernatant and dissolve in 200 µl water

40. Add 20 µl 3 M NaAcetate (pH 5.2) and 500 µl 96% ethanol

41. Spin for 5 min at max. speed

It will form a brown pellet containing the nucleotides.

42. Store at -80 °C until frozen

43. Spin for 30 min at top speed at 4 °C

44. Remove supernatant and add 100 µl 70% EtOH to wash

45. Spin for 5 min at top speed

46. Remove supernatant and redissolve 50 µl water

47. Incubate at 65 °C to dissolve pellet

Pipetting up and down can help as well.

Known Issues:

References and Comments:

This protocol should allow to extract RNA from difficult tissues, which are rich on sugars and phenolic compounds. I got the protocol from J. Schaart and tried it out for strawberry roots. I got great RNA, but still the qPCR had some problems. If you have problems extracting RNA, give it a try, but it is a very labor intensive protocol.
The magic step is the precipitation of sugars with 2-BE. Alternatively you could use your own extraction buffer and just add the 2-BE steps to your protocol. Good luck!

How to cite this page in publications:

This document can be cited like this:

Untergasser A. “RNA Miniprep using 2-Butoxyethanol” Untergasser's Lab. Summer 2008. (include here the date when you accessed these page).
<http://www.untergasser.de/lab/protocols/miniprep_rna_butoxyethanol_long_v1_0.htm>.

It is heavily based on the following publication. Maybe you prefer to cite the original paper:

Schultz DJ, Craig R, Cox-Foster DL, Mumma RO, Medford JI.
RNA Isolation from Recalcitrant Plant Tissue.
Plant Molecular Biology Reporter, 310-316, 12 (4) 1994.

Please Do Not Reprint This Article:

This article is copyrighted. Please do not reproduce this article in whole or part, in any form, without obtaining my written permission.