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Sample

  • Lung

Supplied in the Kit:

MAGneat Tissue RNA Lysis Kit Contents
Lysis Buffer 27.5 mL
Binding Buffer 7.3 mL
MAGneat Magnetic Beads 1.65 mL
Wash Buffer 1 15 mL
Proteinase K 22 mg
RNase A 2.75 mg
DNA Elution Buffer 5.5 mL

To Be Supplied by User:

  • Phosphate-Buffered Saline
  • 100% Ethanol
  • 100% Isopropyl Alcohol
  • Molecular Grade Water
  • Magnetic Tube Rack, e.g. Magnetic Stand Assembly (MAGRACK8) shown in Appendix A.

Methods

Buffer Preparation

Enzyme Reconstitution

Proteinase K:

Figure 1: A sample after complete homogenization without any tissue chunks.
Figure 2: Magnetic beads separate to the back wall of the tubes, when placed in the magnetic rack.
Figure 3: Using pipette tips, carefully remove the supernatant. If needed, hold the tube to prevent the tube from moving/spinning.

RNase A:

Homogenization

  1. Add 500 μL of Lysis Buffer, 20 μL of proteinase K, and 10 μL of FoamBlocker into each lysis kit tube.
  2. Weigh up to 50 mg of tissue samples and transfer to the buffer-filled tubes.
  3. Set the Bullet Blender at speed 10, time 4 minutes and homogenize the samples. If using other homogenizer models, refer to the manufacturer's instructions for settings.
  4. Remove the tubes and visually inspect the samples to confirm complete homogenization (Figure 1).

Extraction

RNase Treatment & Binding:

  1. Prepare fresh microtubes in the tube rack with 200 μL of PBS.
  2. Transfer 320 µL of the homogenate to the new tubes containing PBS.
  3. Add 5 µL of RNase A to each sample and slide the tube rack onto the mixing base. Mix well by inversion and leave at room temperature for 10 minutes, mixing again halfway through the incubation.
  4. Centrifuge tubes at 13,000 x g for 5 minutes.
  5. Transfer 450 μL of supernatant into new microfuge tubes, being careful not to disturb the pellets or transfer any debris.
  6. Add 450 μL (or volume equal to the transferred supernatant from step 4) of Binding Buffer to the supernatant in each tube. Slide the tube rack onto the mixing base and inverse to mix the buffer with the homogenate.
  7. Vortex the MAGneat beads thoroughly making sure that there are no clumps in the tube.
  8. Slide the tube rack off the mixing base and add 30 μL of the beads to each sample tube. Mix tubes by inversion to resuspend the magnetic beads. Allow to stand for 5 minutes, mixing again halfway through.
  9. Slide the tube rack onto the magnetic stand and allow to sit for 1-2 minutes, until the magnetic beads separate from the homogenate (Figure 2).
  10. Using a pipette, discard the supernatant without disturbing the beads (Figure 3). Remove the tube rack from the magnetic stand.
Figure 4: With the tube rack in the mixing base, gently mix the tubes top down (upper panel). Mix until the beads are completely suspended.
Figure 5: Using the tip of a pipette, carefully remove all of the remaining Wash Buffer that has collected just below the magnetic bead pellet.

Washing:

  1. Add 700 µL of Wash Buffer 1 to the tubes and then place the tube rack in the mixing base. Mix thoroughly by inversion, ensuring all beads have been detached from the tube walls and evenly suspended (Figure 4).
  2. Remove the tube rack from the mixing base and place it on the magnetic stand. Allow the magnetic beads to separate.
  3. Using a pipette, discard the supernatant.
  4. Remove the tube rack from the magnetic stand. Add 700 µL of Wash Buffer 2, mix thoroughly by inversion to completely resuspend the beads.
  5. Transfer the tube rack to the magnetic stand and allow the magnetic beads to separate.
  6. Discard the supernatant.
  7. Repeat steps 4-6 for a total of 2 washes with Wash Buffer 2.
  8. Centrifuge samples at 2,000 x g for 3 minutes to collect the remaining Wash Buffer. Place the tubes on the tube rack.
  9. Use a 20 µL pipette to remove the remaining Wash Buffer from the tubes (Figure 5).
  10. Leave tube caps open to air dry the magnetic beads at room temperature for 5 minutes.

Elution:

  1. Add 100 µL of DNA Elution Buffer to each tube. Mix by tapping to ensure that the magnetic beads are completely resuspended.
  2. Incubate at 60°C for 5 minutes with caps closed.
  3. After incubation, place the tube rack back onto the magnetic stand to allow the beads to separate.
  4. Transfer the clear supernatant containing the gDNA into new, labeled microfuge tubes for downstream processing. Be careful not to transfer any magnetic beads.
  5. Analyze quality (OD260/OD280) and yield using a NanoDrop™ or other spectrophotometer and agarose gel (Data of gDNA is shown in Figure 6 and Table 1).
  6. Isolated DNA can be stored at 4°C for up to a week or at -20°C for long term storage.
Figure 6. Agarose Gel Data.
Table 1. NanoDrop™ Readings.
Tissue Yield: µg/mg Tissue OD260/280
Lung 1 0.9780 1.8100
Lung 2 0.7270 1.8200

Using the Magnetic Stand Assembly

Tube Rack:

Basic rack that holds up to eight 1.5 mL or 2 mL tubes during every step of procedure. No assembly required.

Magnetic Stand:

Contains a magnet. Place the tube rack onto the magnetic stand for the bead separation steps.

Mixing Base:

Has an overhang to retain tubes in the tube rack during rocking or inversion mixing. Place the tube rack into the mixing base during incubation, binding, and washing steps.