Conifer RNA prep: Difference between revisions
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==Materials Required for Total RNA Extraction from Douglas-fir Needles== | ==Materials Required for Total RNA Extraction from Douglas-fir Needles== | ||
''Modified | ''Modified Urea/LiCl buffer* (8 M Urea, 3 M LiCl, 1% polyvinylpyrrolidone K-60, 5 mM DTT (add just before use, 1M stock). Modified from Tai et al., 2004, Plant Molecular Biology Reporter 22:93a-93e. | ||
'''Extraction buffer, 50 ml: Add in this order…''' | '''Extraction buffer, 50 ml: Add in this order…''' | ||
• | • 18.75 mL 8 M LiCl solution | ||
• | • 24 grams Urea | ||
• | • 4.5 mL 11% PVP K-60 stock solution | ||
• | • Add water up to 49.5 mL, mix well (heating to 50C may help) | ||
''---- just before use, add:'' | |||
• 0.5 mL of 1 M Dithiothreitol | |||
'''8 M LiCl: ''' | |||
• Sigma Lithium Chloride Solution, L7026 | |||
• | |||
'''Tubes: ''' | '''Tubes: ''' | ||
Line 37: | Line 28: | ||
'''Zymo supplies''' | '''Zymo supplies''' | ||
• Zymo-spin IIC column (1), collection tube (1), 1. | • Zymo-spin IIIC Column (1), Zymo-spin IIC column (1), collection tube (1), 1.5m L tube (1), RNA Lysis Buffer, RNA Prep Buffer, RNA Wash Buffer (with EtOH added) | ||
'''Reagents and Materials''' | '''Reagents and Materials''' | ||
• | • DEPC Water, 10% PVP K-60, 1 M DTT, 100% EtOH, 70% EtOH, RNA Storage Solution, Dry Ice flakes or chips (about 5 lbs), water ice. | ||
==Method for Total RNA Extraction from Douglas-fir Needles== | |||
1. Samples (100 mg-200 mg) should be placed in a Fast-Prep grinding tube containing two ceramic beads (with or without garnet – doesn’t matter) | |||
2. Add flaked dry ice to the 24 position Fast-Prep teflon grind adaptor. Grind tissues using two pulses of 20 seconds each, angular momentum of 4. Make sure that the tissue stays frozen and that it is ground to a fine powder. | |||
3. After grinding, add 1.4 mL of COLD (4°C) Urea/LiCl RNA Extraction Buffer to each tube. Shake vigorously or Fast-Prep for 10 additional seconds, until the ground dried tissue is completely resuspended. | |||
4. Place the tubes in the centrifuge; spin at 1000g x 10 min at 4°C to pellet the cellular debris. | |||
5. Transfer 1.0 mL of supernatant to a clean 1.5 mL RNase-free tube. | |||
6. Incubate supernatant mixture overnight on ice in the 4°C refrigerator. | |||
''---- Day 2 ---'' | |||
7. Centrifuge solution at 20,000g x 30 min, 4°C. | |||
8. Discard the supernatant carefully. Rinse the pellet in 200 μl of 70% ethanol, then re-centrifuge at 20,000g x 5 minutes, room temperature. | |||
9. Discard the supernatant carefully. Let the pellet briefly air dry for 10 minutes. | |||
10. Thoroughly resuspend the RNA/debris pellet in 400 μl of '''Zymo RNA Lysis buffer''', then resume the Zymo process at step 4. | |||
''---- For simplicity, here is the '''Zymo''' process ---'' | |||
11. Transfer all 400 μl of the RNA/RNA Lysis buffer into a '''Zymo-Spin IIIC''' column in a collection tube and centrifuge at 8000g x 30 seconds. Save the flow-through. | |||
12. Add 0.8 volumes (320 μl) of 100% ethanol to the sample/flow-through and mix well. | |||
13. Transfer the mixture to a '''Zymo-Spin IIC''' column in a collection tube. Centrifuge at > 12000g x 30 seconds. Discard flow through. | |||
14. Add 400 μl of '''Zymo RNA Prep Buffer''' to the column. Centrifuge at > 12000g x 60 seconds. Discard flow through, and replace '''Zymo-Spin IIC''' column back into the same collection tube. | |||
15. Add 800 μl '''Zymo RNA Wash Buffer''' to the column. Centrifuge at > 12000g x 30 seconds. Discard flow through, and replace '''Zymo-Spin IIC''' column back into the same collection tube. Repeat the wash with 300 μl '''RNA Wash Buffer'''. | |||
16. Centrifuge the '''Zymo-Spin IIC''' column at > 12000g x 2 minutes in the empty collection tube to ensure complete removal of the wash buffer. | |||
17. Carefully remove the '''Zymo-Spin IIC''' column from the collection tube and place into an RNase free tube. Add 25 μl of '''RNA Storage Solution''' (Ambion) directly to the column; let stand one minute. | |||
18. Centrifuge the '''Zymo-Spin IIC''' column at 10000g x 30 seconds to elute RNA. | |||
19. Estimate RNA concentration using Qubit. | |||
20. If DNA needs to be removed, treat with '''DNA-free Turbo''' kit (Ambion). | |||
'''return to [[Cronn_Lab:Protocols]] page''' |
Latest revision as of 12:20, 1 November 2011
Materials Required for Total RNA Extraction from Douglas-fir Needles
Modified Urea/LiCl buffer* (8 M Urea, 3 M LiCl, 1% polyvinylpyrrolidone K-60, 5 mM DTT (add just before use, 1M stock). Modified from Tai et al., 2004, Plant Molecular Biology Reporter 22:93a-93e.
Extraction buffer, 50 ml: Add in this order…
• 18.75 mL 8 M LiCl solution
• 24 grams Urea
• 4.5 mL 11% PVP K-60 stock solution
• Add water up to 49.5 mL, mix well (heating to 50C may help)
---- just before use, add:
• 0.5 mL of 1 M Dithiothreitol
8 M LiCl:
• Sigma Lithium Chloride Solution, L7026
Tubes: • Fast-Prep grinding tubes (1 per sample, 2 beads each) • 2 mL centrifuge tube (1 per sample) • 1.5 mL centrifuge tube (2 per sample)
Zymo supplies • Zymo-spin IIIC Column (1), Zymo-spin IIC column (1), collection tube (1), 1.5m L tube (1), RNA Lysis Buffer, RNA Prep Buffer, RNA Wash Buffer (with EtOH added)
Reagents and Materials • DEPC Water, 10% PVP K-60, 1 M DTT, 100% EtOH, 70% EtOH, RNA Storage Solution, Dry Ice flakes or chips (about 5 lbs), water ice.
Method for Total RNA Extraction from Douglas-fir Needles
1. Samples (100 mg-200 mg) should be placed in a Fast-Prep grinding tube containing two ceramic beads (with or without garnet – doesn’t matter)
2. Add flaked dry ice to the 24 position Fast-Prep teflon grind adaptor. Grind tissues using two pulses of 20 seconds each, angular momentum of 4. Make sure that the tissue stays frozen and that it is ground to a fine powder.
3. After grinding, add 1.4 mL of COLD (4°C) Urea/LiCl RNA Extraction Buffer to each tube. Shake vigorously or Fast-Prep for 10 additional seconds, until the ground dried tissue is completely resuspended.
4. Place the tubes in the centrifuge; spin at 1000g x 10 min at 4°C to pellet the cellular debris.
5. Transfer 1.0 mL of supernatant to a clean 1.5 mL RNase-free tube.
6. Incubate supernatant mixture overnight on ice in the 4°C refrigerator.
---- Day 2 ---
7. Centrifuge solution at 20,000g x 30 min, 4°C.
8. Discard the supernatant carefully. Rinse the pellet in 200 μl of 70% ethanol, then re-centrifuge at 20,000g x 5 minutes, room temperature.
9. Discard the supernatant carefully. Let the pellet briefly air dry for 10 minutes.
10. Thoroughly resuspend the RNA/debris pellet in 400 μl of Zymo RNA Lysis buffer, then resume the Zymo process at step 4.
---- For simplicity, here is the Zymo process ---
11. Transfer all 400 μl of the RNA/RNA Lysis buffer into a Zymo-Spin IIIC column in a collection tube and centrifuge at 8000g x 30 seconds. Save the flow-through.
12. Add 0.8 volumes (320 μl) of 100% ethanol to the sample/flow-through and mix well.
13. Transfer the mixture to a Zymo-Spin IIC column in a collection tube. Centrifuge at > 12000g x 30 seconds. Discard flow through.
14. Add 400 μl of Zymo RNA Prep Buffer to the column. Centrifuge at > 12000g x 60 seconds. Discard flow through, and replace Zymo-Spin IIC column back into the same collection tube.
15. Add 800 μl Zymo RNA Wash Buffer to the column. Centrifuge at > 12000g x 30 seconds. Discard flow through, and replace Zymo-Spin IIC column back into the same collection tube. Repeat the wash with 300 μl RNA Wash Buffer.
16. Centrifuge the Zymo-Spin IIC column at > 12000g x 2 minutes in the empty collection tube to ensure complete removal of the wash buffer.
17. Carefully remove the Zymo-Spin IIC column from the collection tube and place into an RNase free tube. Add 25 μl of RNA Storage Solution (Ambion) directly to the column; let stand one minute.
18. Centrifuge the Zymo-Spin IIC column at 10000g x 30 seconds to elute RNA.
19. Estimate RNA concentration using Qubit.
20. If DNA needs to be removed, treat with DNA-free Turbo kit (Ambion).
return to Cronn_Lab:Protocols page