MS Proteomics Core/BCM/CPRIT 2016
Sample Preparation Protocols
1. Immuno-Precipitation
1-1. Cell Fractionation Procedure:
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Decant the media from the plate.
Wash the cells with warm 1X PBS once.
Trypsinize the cells at 37oC.
Harvest cells (Spin at 1000Xg for 2min).
Wash the cells once or twice with cold PBS.
Measure the packed cell volume (PCV).
Add 10 PCV volume of ice cold hypotonic buffer (containing 1X protease inhibitor and 1X
phosphotase inhibitor)
8. Incubate on ice for 10min.
9. Spin the cells at 1000Xg for 2min and discard the supernatant.
10. Add 2 volume of ice cold hypotonic buffer (containing 1X protease inhibitor and 1X
phosphotase inhibitor)
11. Break the swollen cells using a dounce homogenizer.
12. Monitor the cells by trypan blue by phase microscopy to check for completeness of cell
lysis. (More than 95% cells have to be broken, but the nucleus must be visible intact. If
less than 95% cells broken, then repeat step 7 and keep monitoring)
13. Spin at 3000Xg for 10min and collect the supernatant. The supernatant is the Cytosolic
fraction.
14. For Nuclear Extract, add 2 volumes of NETN (containing 1X protease inhibitor and 1X
phosphotase inhibitor) to the pellet.
15. Sonicate the above pellet (30sec bust, 59 sec off, repeat 6 times)
16. Spin the nuclear and cytosolic fraction at 100,000Xg for 20min at 4oC.
17. Remove and store the supernatant in -80 oC.
18. For Membrane fraction, add 2 volumes of NETN containing 1X protease inhibitor and
1X phosphotase inhibitor to the 100,000X g pellet from cytosolic fraction and sonicate for
30sec bust, 59 sec off, repeat 6 times. Spin the sonicated lysate at 100,000Xg for 20 min
at 4oC. Remove supernatant and save in -80 oC.
19. For Chromatin binding fraction, add 1 volumes of NETN containing 600mM KCl, 1X
protease inhibitor and 1X phosphotase inhibitor to the 100,000X g pellet from nuclear
extraction fraction and sonicate for 30sec bust, 59 sec off, repeat 6 times. Spin the
sonicated lysate at 100,000Xg for 20 min at 4oC. Remove supernatant and save in -80
o
C.
1-2. Immuno-precipitation:
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Thaw the cytosolic/nuclear extract at 37oC.
Spin at 200,000Xg for 20min at 4oC and then transfer supernatant to fresh tube.
Add 5 µg of antibody to the above supernatant.
Incubate for 2 hour at 4oC, rocker shaking.
Spin at 100,000Xg for 15min at 4oC. Collect the supernatant
Add 30µl of protein A bead slurry to the above supernatant.
MS Proteomics Core -BCM 2016
7. Incubate the above beads for 1hour at 4oC, inverted rotation.
8. Spin at 1000Xg for 1min and then discard the supernatant.
9. Wash the beads with 1ml NETN buffer three times, quickly. (NETN: 50mM Tris pH 7.3,
170mM NaCl, 1mM EDTA, 0.5% NP-40)
10. Spin at 1000Xg for 1min and then discard any supernatant.
11. Add 15µl of 2X SDS loading dye to the beads.
12. Heat samples for 8-10 min at 90C.
13. Briefly spin the samples with the beads and keep it on ice.
1-3. In-gel Digestion:
1. Load samples onto NuPage 10% Bis-Tris Midi-gel (Cat. No. WG1201BX10)
2. Run up to 1/4th using MOPS buffer (Cat. No. NP0001) at constant of 80V
3. Fix gels and stain with Commassie blue.
4. Destain the gel and keep the gel in water.
5. Scan the gel and then cut gel slices depend on protein size
6. De-stain each band completely
7. Incubate gel slices in water (can keep in water O/N or change twice with 1 hr gap)
8. Dehydrate gel with 75%ACN(1hr)
9. Change pH of gel basic using 50mM ammonium bicarbonate( ABC) soln (30min*2)
10. Remove ABC soln and add 100ng/ul Trypsin(GenDepot) to each tube
11. Incubate at 37 C for over night
12. Acidify the digest by adding 20ul of 2% FA, stand for 4-5 min
13. Extract peptide from gel by adding 200ul of 100% ACN, shake (10-15min), and
centrifuge at top speed (Table-top) collect the supernatant in new tubes.
14. Vacuum-dry the samples.
2. Proteome Profiling
2-1. Cell Preparation and in-solution digestion:
1. Prepare 60mm dish or 100mm dish cells at one or two days prior of experiment day
- Cell density must around 70-90% confluent at the time of harvest
2. Harvest cells with trypsin
- Collect detached cells with 10 ml of warmed fresh culture medium to neutralize trypsin
3. Count cell number
4. Transfer 2X10^5 cells to fresh Eppendorf tube (100K per one machine run)
4. Wash collected cells with PBS at 500 xg for 1 min
5. Lysis the cells with triple repeat of freeze-thaw in lysis buffer (proteinase comparable
buffer)
6. Spin the tube to collect lysate and chill to room temperature
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MS Proteomics Core -BCM 2016
7. Measure protein concentration (using 1ul of lysate)
8. Add 1/1000 of MS grade Trypsin (100ng trypsin for 1ug total protein)
9. Incubate 12 hrs at 37°C with constant shake
10. Spin down at maximum speed of table top centrifuge
11. Add 200 ul of 50% ACN + 0.5% Acetic acid
12. Vortex for 1 min
13. Spin down at 10k xg for 1 min using table top centrifuge
14. Remove 200 ul supernatant and transfer to a new tube
15. Add 200 ul of 80% ACN + 0.1% FA to the pellet
16. Vortex for 1 min
17. Spin down at 10k xg for 1 min using table top centrifuge
18. Take 200 ul supernatant and combine with 50% ACN extract
19. Vacuum dry
*This protocol for whole cell lysate, but protein profiling is possible for almost of sample type what you can
prepare. If you want to profile specific cell fraction or organelle, consult core-director.
2-2. Tissue sample preparation and in-solution digestion:
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Measure weight of an Eppendorf tube per sample and label
Put fresh or frozen tissue into thermo-resistant tube.
Snap freeze with LN2, tissue must be kept frozen before step 7.
Grind the tissue using ceramic pestle
Repeat step 3-4 until tissue grind well
Transfer ground tissue to weight-labeled Eppendorf tube
Measure weight again and calculate ground tissue weight
Same as steps 5-19 in above
2-3. Small Reverse phase peptide fractionation (sRP):
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Dissolve dried tryptic peptide (sample) with 150ul of pH10 buffer
Condition the sRP column with 150 ul of binding buffer (pH10 buffer), twice.
Load dissolved sample (tryptic peptide) onto the sRP column and take eluent
Wash the sRP column with 150 ul of pH10 buffer twice
Elute with 150 ul of various concentration of ACN (pH10) solutions
Vacuum-Dry the fractions
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