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''This protocol is in development.12:14, 21 August 2006 (EDT)''
==Overview==
==Overview==


Replace this sentence with a brief description of the protocol and its goal.
Chromatin Immunoprecipitation determines the ''in vivo'' chromatin binding sites of a transcription factor or other protein of interest. <br>
Use this protocol in conjunction with [[ChIP/Chip|ChIP-chip]] and/or [[ChIP/Gene-specific PCR|Gene-specific PCR]].  


==Materials==
==Materials==
''This protocol is in development. Need to add further info about reagents/equipment. ~ [[User:Cconboy|cmc]] 11:43, 22 August 2006 (EDT)''


===11% Formaldehyde Solution===
===11% Formaldehyde Solution===
per 50 ml:                          (Final concentration) <br>
per 50 ml:                          (Final concentration) <br>
14.9 ml of 37% Formaldehyde          (11%) <br>
*14.9 ml of 37% Formaldehyde          (11%) <br>
1 ml of 5M NaCl                      (0.1M) <br>
*1 ml of 5M NaCl                      (0.1M) <br>
100 µl of 0.5 M EDTA, pH 8          (1 mM) <br>
*100 µl of 0.5 M EDTA, pH 8          (1 mM) <br>
50 µl of 0.5 M EGTA, pH 8          (0.5 mM) <br>
*50 µl of 0.5 M EGTA, pH 8          (0.5 mM) <br>
2.5 ml of 1M Hepes, pH 8            (50 mM) <br>
*2.5 ml of 1M Hepes, pH 8            (50 mM) <br>


===2.5 M glycine (187.5 g/L)====
===2.5 M glycine (187.5 g/L)===
* Dissolve glycine in water with constant stirring <br>
* Dissolve glycine in water with constant stirring <br>
* Don’t adjust pH <br>
* Don’t adjust pH <br>
Line 21: Line 22:
===BSA/PBS Solution===
===BSA/PBS Solution===
per 100 mL: <br>
per 100 mL: <br>
10 mL of 10x PBS <br>
*10 mL of 10x PBS <br>
500 mg of BSA <br>
*500 mg of BSA <br>
90 mL of H20 <br>
*90 mL of H20 <br>
(good for at least a week)
**Dissolve the BSA in H2O before adding the PBS.
**Can make a liter, filter, aliquot by 200 mL, and store at 4°C. Good for months.


===Lysis Buffer 1 (LB1)===
===Lysis Buffer 1 (LB1)===
per 100 ml:                        (final concentration) <br>
per 100 ml:                        (final concentration) <br>
5 ml of 1M Hepes-KOH, pH 7.5     (50 mM) <br>
*5 ml of 1M Hepes-KOH, pH 7.5     (50 mM) <br>
2.8 ml of 5M NaCl     (140 mM) <br>
*2.8 ml of 5M NaCl     (140 mM) <br>
0.2 ml of 0.5M EDTA     (1 mM) <br>
*0.2 ml of 0.5M EDTA     (1 mM) <br>
10 ml of glycerol     (10%) <br>
*10 ml of glycerol     (10%) <br>
5 ml of 10% NP-40     (0.5%) <br>
*5 ml of 10% NP-40     (0.5%) <br>
0.25 ml of Triton X-100     (0.25%) <br>
*0.25 ml of Triton X-100     (0.25%) <br>


===Lysis Buffer 2 (LB2)===
===Lysis Buffer 2 (LB2)===
per 100 ml: (final concentration) <br>
per 100 ml: (final concentration) <br>
4 ml of 5M NaCl (200 mM) <br>
*4 ml of 5M NaCl (200 mM) <br>
0.2 ml of 0.5M EDTA (1 mM) <br>
*0.2 ml of 0.5M EDTA (1 mM) <br>
0.1 ml of 0.5M EGTA (0.5 mM) <br>
*0.1 ml of 0.5M EGTA (0.5 mM) <br>
1.0 ml of 1M Tris pH 7.5 (10 mM) <br>
*1.0 ml of 1M Tris pH 7.5 (10 mM) <br>


===Lysis Buffer 3 (LB3)===
===Lysis Buffer 3 (LB3)===
per 100 ml: (final concentration) <br>
per 100 ml: (final concentration) <br>
0.2 ml of 0.5M EDTA (1 mM) <br>
*0.2 ml of 0.5M EDTA (1 mM) <br>
0.1 ml of 0.5M EGTA (0.5 mM) <br>
*0.1 ml of 0.5M EGTA (0.5 mM) <br>
01.0 ml of 1M Tris-HCl, pH7.5 (10 mM) <br>
*1.0 ml of 1M Tris-HCl, pH7.5 (10 mM) <br>
2 mL of 5M NaCl (100 mM) <br>
*2 mL of 5M NaCl (100 mM) <br>
1 mL of 10% Na-Deoxycholate (0.1%) <br>
*1 mL of 10% Na-Deoxycholate (0.1%) <br>
500 mg of N-lauroyl sarcosine (0.5%) <br>
*500 mg of N-lauroyl sarcosine (0.5%) <br>
 
===Wash buffer (RIPA buffer)===
per 100ml:     (final concentration)<br>
*5ml of 1M Hepes, pH 7.6     (50 mM)<br>
*200µL of 0.5M EDTA     (1 mM)<br>
*7 ml of 10% DOC (Na deoxycholate)  (0.7%)<br>
*10 ml of 10% NP-40 (IPGEL)     (1%)<br>
*10 ml of 5M LiCl or 2.12g powder     (0.5 M)<br>
 
===Elution buffer===
*50mM Tris pH8
*1mM EDTA
*1% SDS
 
===Oligos for blunt end ligation===
* oJW102: 5’-GCGGTGACCCGGGAGATCTGAATTC
* oJW103: 5’-GAATTCAGATC
* Final buffer/concentrations for annealing:
** 50 mM Tris pH 7.5
** 50 mM  NaCl
** 17.5 µM each oligo
* After mixing, boil 5 minutes, and anneal slowly from a 100°C heat block to 25°C, then cool to 4°C overnight, aliquot, and freeze.
 
==Procedure==
===I.  Cell cross-linking===
* Use 5x107 – 1x108 cells (70-80% confluency for adhesion cells of 8-12 15 cm2 plates or 175 cm2 flasks) for each ChIP reaction. <br>


*Adherent cells:
*# Add 1/10 volume of fresh 11% formaldehyde solution to plates.
*# Swirl plates briefly and let them sit at RT for 10 min.
*# Add 1/20 volume of 2.5 M glycine to plates to quench formaldehyde.
*# Rinse cells twice with 5 ml 1X PBS.  Harvest cells using silicon scraper. 
*# Spin cells at 4k for 10’ at 4°C.
*# Transfer cells to 15ml conical tubes and spin 4k 10’ at 4°C.
*# Flash freeze cells in liquid nitrogen and store pellets at –80 °C.
* Suspension cells:
*# Add 1/10 volume of fresh 11% formaldehyde solution to flasks.
*# Swirl flasks briefly and let them sit at RT for 20 min.
*# Add 1/20 volume of 2.5 M glycine to flasks to quench formaldehyde.
*# Spin cells at 2500rpm for 10’ at 4°C.
*# Rinse cells with 100ml 1x PBS and spin cells at 2500rpm for 10’ at 4°C.
*# Rinse cells with 10ml 1x PBS and transfer to 15ml conical tubes and spin 4k 10’ at 4°C.
*# Flash freeze cells in liquid nitrogen and store pellets at –80 °C.


===II. Preblock and binding of antibody to magnetic beads===
* Keep beads on ice for all steps (or work at 4°C).
# wash 100 µL of Protein G Dynal magnetic beads (per reaction) in 1 ml fresh BSA/PBS
# collect the beads with magnet wash beads in 1.5 ml BSA/PBS 2 times, collect the beads with the magnet.
# Add 6-10 µg of Ab + 250µL of PBS/BSA.
# incubate 4 hr to O.N. on a rotating platform at 4°C.
# wash beads 3 times in 1.5 ml PBS/BSA.
# Resuspend in 100µL PBS/BSA.


===III. Cell Sonication===
* Note: Add protease inhibitors to all lysis buffers before use.  If using a protease inhibitor cocktail tablet from Complete, dissolve one tablet in 2 ml H2O for 25x solution.  Use 400uL per 10mL of buffer. Store in aliquots at -20°C.
#  Resuspend each tube of cells in 5-10 ml of Lysis buffer I. Rock at 4°C for 10’.  Then spin at 2500rpm in a table top centrifuge, 3 min at 4°C.
# Resuspend each tube of cells in 5-10 ml of  buffer 2.  Rock gently at 4°C for 5 min.  Pellet nuclei in tabletop centrifuge by spinning at 2500  rpm, 3 min at 4°C.
# Resuspend pellet in each tube in 3 ml buffer 3 and put into 15mL conical tube cut off at the 6.5mL mark.
# Sonicate the suspension using the automatic sonicator.
#* Appropriate sonication time needs to be determined for each cell type. For example, HepG2 cells: 6 cycles of 30 seconds with 1 minute intervals at power 7.0 (~40 watts).
# Add 1/10 volume of 10% Triton X-100. Transfer to 1.5 ml centrifuge tubes.  Spin out debris 14K, 4°C, 10 min.   
#  If you are using one tube of cells for more than one ChIP then you need to add more LB3 and 10% Triton X-100 so that the volume ends up being 3 mL of cells in LB3 with 300uL of Triton per ChIP.
# Save 50 µL (or at least 1/50 vol) of cell lysate from each sample as input control. Store at -20°C.
#* Don't forget this!!


List reagents, supplies and equipment necessary to perform the protocol here.  For those materials which have their own OWW pages, link to that page.  Alternatively, links to the suppliers' page on that material are also appropriate.


*equipment 1
===IV. Chromatin Immunoprecipitation===
*equipment 2
#Add 100 µL Ab prebound Dynal magnetic beads from step III.
#Rock 4°C 6 hrs to O/N.


==Procedure==
===V. Washing, eluting, and reverse cross-linking===
#Step 1
* Check that you have a waterbath or incubator at 65°C.
#Step 2
* Work in the cold room until step 6.
#*Step 2 has some additional information that goes with iti.e. Keep at 4&deg;C.
# Transfer IP reactions to centrifuge tubes
#Step 3
# Use the magnetic stand to precipitate the beads.
##Step 3 has multiple sub-steps within it.
# Wash 4-8 times with 1 mL wash buffer (Ripa buffer)
##Enumerate each of those.
#* 4 washes are sufficient for most antibodies.
# Wash once with 1 ml TE-plus-50 mM NaCl or 1 mL TBS.
# Spin 3k for 2-3 min and aspirate any residual TE/TBS.
# Add 200 µl of elution buffer.
# Elute DNA-protein complexes from beads at 65°C for 10-15 min with brief vortexing every 2 min.
# Spin down beads 14k for 1 min. Transfer all 200 µl of supernatant to a clean 1.5 mL tube.
#* Alternatively: pulse samples to pull beads off the lid, but leave beads in until after the reverse x-link incubation.
# Reverse x-link at 65°C. Min 6 hours, up to O/N.
#  Thaw input (wce) samples from step III(6), add 3 vol of elution buffer and reverse x-link in parallel with IP samples, 6 hrs - o/n.
 
===VI. RNase, Proteinase K===
# Remove beads from IP samples, if you didn't earlier.
# Add 1 vol of TE to IP and input (wce) fraction.
# Add RNase A so final is 0.2µg/µL (~8 µL/400 µL rxn).  Incubate 37°C 1-2hr.
# Add proteinase K so final is 0.2µg/µL (~4 µL/400 µL rxn). Incubate 55°C 1-2hr.
# Extract once w/ 1 vol of phenol.
# Extract once w/ 1 vol of phenol:chl:IA (made by mixing 1 vol of phenol w/ 1 vol of Chloroform:isoamyl alcohol).
# extract once w/ 1 vol of chl:IA.
#* Alternatively: extract 1x w/ 1 vol phenol:chl:IA using phaselock tubes
# add 20 µg (1 µL) of glycogen.
# Add 5M NaCl so final is 0.2M (10 µL/250 µL rxn).
# Add 2X volume of EtOH.
#* Optional: incubate samples at -20°C for 10 min.
# Precipitate DNA with a 10 min, 14K spin at 4°C. Wash pellet with 500 µL 75% EtOH.
# Dry and resuspend pellets in 60 µL 10mM Tris HCl pH 8.
# Normalize the input/wce fraction to 100 ng/µL using the Nanodrop.
 
===VII. T4 DNA Polymerase Fill-in===
# To 60 µL of IP sample, and 200 ng (=2 µL) of the normalized input (wce) diluted to 60 µL, add:
#*10 µL of 10X T4 DNA pol buffer (or NEB Buffer 2)
#* 0.5 µL of BSA (NEB 10mg/ml)
#* 0.4 µL of 25mM dNTP mix
#* 0.2 µL of T4 DNA pol (NEB 3U/µL)
#* 28.9 µL of H2O
#* final volume =100uL (add 39.8 uL of mix per sample.)
#Incubate 12°C 20 min in water bath.
# Add 12 µl 3 M NaOAc and 1.0 µL  glycogen.
# Extract 1x with 120 µL phenol:chl:IA.
# Precipitate with 300 µL EtOH.
# Spin and wash with 500 µL 75% EtOH.
# Dry pellet and resuspend in 25 µL H2O.
 
===VIII. Blunt-end ligation===
# Make at 4°C, 25 µL ligase mix per reaction:
#* 7.8 µL of H2O
#* 10 µL of 5X ligase buffer (Gibco)
#* 6.7 µL of annealed linkers (thaw at 4°C)
#* 0.5 µL of T4 DNA ligase
# add mix to 25 µL of sample.
# incubate 12°C O/N, cover with foil.
# Next day add 6µL of 3M NaOAc and 150 µL EtOH. (Optional incubation at -20°C.)
# Spin and wash with 200 µL 75% EtOH.
# Dry and resuspend pellet in 40 µL PCR reaction mix below.
 
===IX. Ligation mediated PCR (LM-PCR)===
* for PCR: use pellets from blunt ligation.
# Make PCR mix per rxn:
#* 35 µL of H2O
#* 4 µL of 10X Thermopol buffer
#* 0.5 µL of 25 mM dNTP mix
#* 0.5 µL of 100 µM oligo oJW102
# Dissolve pellet in mix above and start PCR program CHIPCHIP:
#* 55°C, 4’; 72°C, 3’; 95°C, 2’; 95°C, 30’’; 60°C, 30’’; 72°C, 1’; goto step 4 14 times; 72°C, 5’; 4°C, hold.
# During step 1 (55°C, 4’) add TAQ mix:
#* 8 µL of H2O
#* 1 µL of 10X ThermoPol buffer
#* 0.5 µL of TAQ (5U/µL)(Gibco)
# Dilute PCR product in 450uL of 10 mM Tris, pH 8.0.
# Take 10uL of diluted product and PCR again using PCR mix per rxn:
#* 25 µL of H2O
#* 4 µL of 10X Thermopol buffer
#* 0.5 µL of 25 mM dNTP mix
#* 0.5 µL of 100 µM oligo oJW102
# Start PCR program:
#* 55°C, 4’; 72°C, 3’; 95°C, 2’; 95°C, 30’’; 60°C, 30’’; 72°C, 1’; goto step 4 24 times; 72°C, 5’; 4°C, hold.
# During step 1 (55°C, 4’) add TAQ mix:
#* 8 µL of H2O
#* 1 µL of 10X ThermoPol buffer
#* 0.5 µL of TAQ (5U/µL)(Gibco)
# Clean up DNA using Qiagen kit or precipitation by adding 25µL of 7.5M NH4OAc and 300µL EtOH. (Optional incubation at -20°C.) Spin and wash pellet with 500 µL 75% EtOH. Redissolve in 50 µL H2O.
#  Normalize [DNA] to 100 ng/µL.
 
===Checkpoints===
# Sonication Fragment Size Verification
#* After sonication, the spread of size fragments can be checked by running 1 µL of input/wce control DNA on a 1% agarose gel.  Spread should extend no higher than 2 kb.  
#Product Size and Amount Verification
#* Remove 2 µL of PCR product and run it out on 2% agarose gel.  Product sizes should be around 250-350 bp.  Amount of IP PCR product should be roughly equal to input PCR product.  Check the concentration using the Nanodrop, expecting ~50-100 ng/µL.
 
===Detection===
* Continue with [[ChIP/Chip|ChIP-chip]] or [[ChIP/Gene-specific PCR|Gene-specific PCR]] to detect global or specific chromatin binding sites for your protein of interest.


==Notes==
==Notes==
#List troubleshooting tips here.
# This protocol will likely fail the first time you try it. Your LM-PCR product will contain no DNA. Don't lose heart. Try, try again. (Hard to pin down exactly what goes wrong between sonication and LM-PCR, but it seems that the blunting step is very sensitive. Most people get it to work by trying two or three times.) ~ [[User:Cconboy|cmc]] 16:25, 21 August 2006 (EDT)
#You can also link to FAQs/tips provided by other sources such as the manufacturer or other websites.
# '''Pour [[Etchevers:ChIP_francais|une recette similaire pour le ChIP en francais]], cliquer sur le lien.''' --[[User:Etchevers|Alethea]] 06:10, 17 October 2007 (CDT)
#Anecdotal observations that might be of use to others can also be posted here. 
 
Please sign your name to your note by adding <font face="courier"><nowiki>('''~~~~''')</nowiki></font> to the end of your tip.


==References==
==References==
'''Relevant papers and books'''
*[http://jura.wi.mit.edu/young_public/signaling/Protocols.html ChIP protocol], [http://web.wi.mit.edu/young/ Young Lab]
<!-- If this protocol has papers or books associated with it, list those references here. See the [[OpenWetWare:Biblio]] page for more information. -->
*[http://www.sciencemag.org/cgi/content/full/303/5662/1378] Odom DT et al."Control of pancreas and liver gene expression by HNF transcription factors." Science. 2004 Feb 27;303(5662):1378-81. PMID: 14988562
<biblio>
#Goldbeter-PNAS-1981 pmid=6947258
#Jacob-JMB-1961 pmid=13718526
#Ptashne-Genetic-Switch isbn=0879697164
</biblio>


==Contact==
==Contacts==
*Who has experience with this protocol?
*[[User:Cconboy|cmc]]
*[[User:Odom|odom]]

Latest revision as of 04:10, 17 October 2007

Overview

Chromatin Immunoprecipitation determines the in vivo chromatin binding sites of a transcription factor or other protein of interest.
Use this protocol in conjunction with ChIP-chip and/or Gene-specific PCR.

Materials

This protocol is in development. Need to add further info about reagents/equipment. ~ cmc 11:43, 22 August 2006 (EDT)

11% Formaldehyde Solution

per 50 ml: (Final concentration)

  • 14.9 ml of 37% Formaldehyde (11%)
  • 1 ml of 5M NaCl (0.1M)
  • 100 µl of 0.5 M EDTA, pH 8 (1 mM)
  • 50 µl of 0.5 M EGTA, pH 8 (0.5 mM)
  • 2.5 ml of 1M Hepes, pH 8 (50 mM)

2.5 M glycine (187.5 g/L)

  • Dissolve glycine in water with constant stirring
  • Don’t adjust pH

BSA/PBS Solution

per 100 mL:

  • 10 mL of 10x PBS
  • 500 mg of BSA
  • 90 mL of H20
    • Dissolve the BSA in H2O before adding the PBS.
    • Can make a liter, filter, aliquot by 200 mL, and store at 4°C. Good for months.

Lysis Buffer 1 (LB1)

per 100 ml: (final concentration)

  • 5 ml of 1M Hepes-KOH, pH 7.5 (50 mM)
  • 2.8 ml of 5M NaCl (140 mM)
  • 0.2 ml of 0.5M EDTA (1 mM)
  • 10 ml of glycerol (10%)
  • 5 ml of 10% NP-40 (0.5%)
  • 0.25 ml of Triton X-100 (0.25%)

Lysis Buffer 2 (LB2)

per 100 ml: (final concentration)

  • 4 ml of 5M NaCl (200 mM)
  • 0.2 ml of 0.5M EDTA (1 mM)
  • 0.1 ml of 0.5M EGTA (0.5 mM)
  • 1.0 ml of 1M Tris pH 7.5 (10 mM)

Lysis Buffer 3 (LB3)

per 100 ml: (final concentration)

  • 0.2 ml of 0.5M EDTA (1 mM)
  • 0.1 ml of 0.5M EGTA (0.5 mM)
  • 1.0 ml of 1M Tris-HCl, pH7.5 (10 mM)
  • 2 mL of 5M NaCl (100 mM)
  • 1 mL of 10% Na-Deoxycholate (0.1%)
  • 500 mg of N-lauroyl sarcosine (0.5%)

Wash buffer (RIPA buffer)

per 100ml: (final concentration)

  • 5ml of 1M Hepes, pH 7.6 (50 mM)
  • 200µL of 0.5M EDTA (1 mM)
  • 7 ml of 10% DOC (Na deoxycholate) (0.7%)
  • 10 ml of 10% NP-40 (IPGEL) (1%)
  • 10 ml of 5M LiCl or 2.12g powder (0.5 M)

Elution buffer

  • 50mM Tris pH8
  • 1mM EDTA
  • 1% SDS

Oligos for blunt end ligation

  • oJW102: 5’-GCGGTGACCCGGGAGATCTGAATTC
  • oJW103: 5’-GAATTCAGATC
  • Final buffer/concentrations for annealing:
    • 50 mM Tris pH 7.5
    • 50 mM NaCl
    • 17.5 µM each oligo
  • After mixing, boil 5 minutes, and anneal slowly from a 100°C heat block to 25°C, then cool to 4°C overnight, aliquot, and freeze.

Procedure

I. Cell cross-linking

  • Use 5x107 – 1x108 cells (70-80% confluency for adhesion cells of 8-12 15 cm2 plates or 175 cm2 flasks) for each ChIP reaction.
  • Adherent cells:
    1. Add 1/10 volume of fresh 11% formaldehyde solution to plates.
    2. Swirl plates briefly and let them sit at RT for 10 min.
    3. Add 1/20 volume of 2.5 M glycine to plates to quench formaldehyde.
    4. Rinse cells twice with 5 ml 1X PBS. Harvest cells using silicon scraper.
    5. Spin cells at 4k for 10’ at 4°C.
    6. Transfer cells to 15ml conical tubes and spin 4k 10’ at 4°C.
    7. Flash freeze cells in liquid nitrogen and store pellets at –80 °C.
  • Suspension cells:
    1. Add 1/10 volume of fresh 11% formaldehyde solution to flasks.
    2. Swirl flasks briefly and let them sit at RT for 20 min.
    3. Add 1/20 volume of 2.5 M glycine to flasks to quench formaldehyde.
    4. Spin cells at 2500rpm for 10’ at 4°C.
    5. Rinse cells with 100ml 1x PBS and spin cells at 2500rpm for 10’ at 4°C.
    6. Rinse cells with 10ml 1x PBS and transfer to 15ml conical tubes and spin 4k 10’ at 4°C.
    7. Flash freeze cells in liquid nitrogen and store pellets at –80 °C.

II. Preblock and binding of antibody to magnetic beads

  • Keep beads on ice for all steps (or work at 4°C).
  1. wash 100 µL of Protein G Dynal magnetic beads (per reaction) in 1 ml fresh BSA/PBS
  2. collect the beads with magnet wash beads in 1.5 ml BSA/PBS 2 times, collect the beads with the magnet.
  3. Add 6-10 µg of Ab + 250µL of PBS/BSA.
  4. incubate 4 hr to O.N. on a rotating platform at 4°C.
  5. wash beads 3 times in 1.5 ml PBS/BSA.
  6. Resuspend in 100µL PBS/BSA.

III. Cell Sonication

  • Note: Add protease inhibitors to all lysis buffers before use. If using a protease inhibitor cocktail tablet from Complete, dissolve one tablet in 2 ml H2O for 25x solution. Use 400uL per 10mL of buffer. Store in aliquots at -20°C.
  1. Resuspend each tube of cells in 5-10 ml of Lysis buffer I. Rock at 4°C for 10’. Then spin at 2500rpm in a table top centrifuge, 3 min at 4°C.
  2. Resuspend each tube of cells in 5-10 ml of buffer 2. Rock gently at 4°C for 5 min. Pellet nuclei in tabletop centrifuge by spinning at 2500 rpm, 3 min at 4°C.
  3. Resuspend pellet in each tube in 3 ml buffer 3 and put into 15mL conical tube cut off at the 6.5mL mark.
  4. Sonicate the suspension using the automatic sonicator.
    • Appropriate sonication time needs to be determined for each cell type. For example, HepG2 cells: 6 cycles of 30 seconds with 1 minute intervals at power 7.0 (~40 watts).
  5. Add 1/10 volume of 10% Triton X-100. Transfer to 1.5 ml centrifuge tubes. Spin out debris 14K, 4°C, 10 min.
  6. If you are using one tube of cells for more than one ChIP then you need to add more LB3 and 10% Triton X-100 so that the volume ends up being 3 mL of cells in LB3 with 300uL of Triton per ChIP.
  7. Save 50 µL (or at least 1/50 vol) of cell lysate from each sample as input control. Store at -20°C.
    • Don't forget this!!


IV. Chromatin Immunoprecipitation

  1. Add 100 µL Ab prebound Dynal magnetic beads from step III.
  2. Rock 4°C 6 hrs to O/N.

V. Washing, eluting, and reverse cross-linking

  • Check that you have a waterbath or incubator at 65°C.
  • Work in the cold room until step 6.
  1. Transfer IP reactions to centrifuge tubes
  2. Use the magnetic stand to precipitate the beads.
  3. Wash 4-8 times with 1 mL wash buffer (Ripa buffer)
    • 4 washes are sufficient for most antibodies.
  4. Wash once with 1 ml TE-plus-50 mM NaCl or 1 mL TBS.
  5. Spin 3k for 2-3 min and aspirate any residual TE/TBS.
  6. Add 200 µl of elution buffer.
  7. Elute DNA-protein complexes from beads at 65°C for 10-15 min with brief vortexing every 2 min.
  8. Spin down beads 14k for 1 min. Transfer all 200 µl of supernatant to a clean 1.5 mL tube.
    • Alternatively: pulse samples to pull beads off the lid, but leave beads in until after the reverse x-link incubation.
  9. Reverse x-link at 65°C. Min 6 hours, up to O/N.
  10. Thaw input (wce) samples from step III(6), add 3 vol of elution buffer and reverse x-link in parallel with IP samples, 6 hrs - o/n.

VI. RNase, Proteinase K

  1. Remove beads from IP samples, if you didn't earlier.
  2. Add 1 vol of TE to IP and input (wce) fraction.
  3. Add RNase A so final is 0.2µg/µL (~8 µL/400 µL rxn). Incubate 37°C 1-2hr.
  4. Add proteinase K so final is 0.2µg/µL (~4 µL/400 µL rxn). Incubate 55°C 1-2hr.
  5. Extract once w/ 1 vol of phenol.
  6. Extract once w/ 1 vol of phenol:chl:IA (made by mixing 1 vol of phenol w/ 1 vol of Chloroform:isoamyl alcohol).
  7. extract once w/ 1 vol of chl:IA.
    • Alternatively: extract 1x w/ 1 vol phenol:chl:IA using phaselock tubes
  8. add 20 µg (1 µL) of glycogen.
  9. Add 5M NaCl so final is 0.2M (10 µL/250 µL rxn).
  10. Add 2X volume of EtOH.
    • Optional: incubate samples at -20°C for 10 min.
  11. Precipitate DNA with a 10 min, 14K spin at 4°C. Wash pellet with 500 µL 75% EtOH.
  12. Dry and resuspend pellets in 60 µL 10mM Tris HCl pH 8.
  13. Normalize the input/wce fraction to 100 ng/µL using the Nanodrop.

VII. T4 DNA Polymerase Fill-in

  1. To 60 µL of IP sample, and 200 ng (=2 µL) of the normalized input (wce) diluted to 60 µL, add:
    • 10 µL of 10X T4 DNA pol buffer (or NEB Buffer 2)
    • 0.5 µL of BSA (NEB 10mg/ml)
    • 0.4 µL of 25mM dNTP mix
    • 0.2 µL of T4 DNA pol (NEB 3U/µL)
    • 28.9 µL of H2O
    • final volume =100uL (add 39.8 uL of mix per sample.)
  2. Incubate 12°C 20 min in water bath.
  3. Add 12 µl 3 M NaOAc and 1.0 µL glycogen.
  4. Extract 1x with 120 µL phenol:chl:IA.
  5. Precipitate with 300 µL EtOH.
  6. Spin and wash with 500 µL 75% EtOH.
  7. Dry pellet and resuspend in 25 µL H2O.

VIII. Blunt-end ligation

  1. Make at 4°C, 25 µL ligase mix per reaction:
    • 7.8 µL of H2O
    • 10 µL of 5X ligase buffer (Gibco)
    • 6.7 µL of annealed linkers (thaw at 4°C)
    • 0.5 µL of T4 DNA ligase
  2. add mix to 25 µL of sample.
  3. incubate 12°C O/N, cover with foil.
  4. Next day add 6µL of 3M NaOAc and 150 µL EtOH. (Optional incubation at -20°C.)
  5. Spin and wash with 200 µL 75% EtOH.
  6. Dry and resuspend pellet in 40 µL PCR reaction mix below.

IX. Ligation mediated PCR (LM-PCR)

  • for PCR: use pellets from blunt ligation.
  1. Make PCR mix per rxn:
    • 35 µL of H2O
    • 4 µL of 10X Thermopol buffer
    • 0.5 µL of 25 mM dNTP mix
    • 0.5 µL of 100 µM oligo oJW102
  2. Dissolve pellet in mix above and start PCR program CHIPCHIP:
    • 55°C, 4’; 72°C, 3’; 95°C, 2’; 95°C, 30’’; 60°C, 30’’; 72°C, 1’; goto step 4 14 times; 72°C, 5’; 4°C, hold.
  3. During step 1 (55°C, 4’) add TAQ mix:
    • 8 µL of H2O
    • 1 µL of 10X ThermoPol buffer
    • 0.5 µL of TAQ (5U/µL)(Gibco)
  4. Dilute PCR product in 450uL of 10 mM Tris, pH 8.0.
  5. Take 10uL of diluted product and PCR again using PCR mix per rxn:
    • 25 µL of H2O
    • 4 µL of 10X Thermopol buffer
    • 0.5 µL of 25 mM dNTP mix
    • 0.5 µL of 100 µM oligo oJW102
  6. Start PCR program:
    • 55°C, 4’; 72°C, 3’; 95°C, 2’; 95°C, 30’’; 60°C, 30’’; 72°C, 1’; goto step 4 24 times; 72°C, 5’; 4°C, hold.
  7. During step 1 (55°C, 4’) add TAQ mix:
    • 8 µL of H2O
    • 1 µL of 10X ThermoPol buffer
    • 0.5 µL of TAQ (5U/µL)(Gibco)
  8. Clean up DNA using Qiagen kit or precipitation by adding 25µL of 7.5M NH4OAc and 300µL EtOH. (Optional incubation at -20°C.) Spin and wash pellet with 500 µL 75% EtOH. Redissolve in 50 µL H2O.
  9. Normalize [DNA] to 100 ng/µL.

Checkpoints

  1. Sonication Fragment Size Verification
    • After sonication, the spread of size fragments can be checked by running 1 µL of input/wce control DNA on a 1% agarose gel. Spread should extend no higher than 2 kb.
  2. Product Size and Amount Verification
    • Remove 2 µL of PCR product and run it out on 2% agarose gel. Product sizes should be around 250-350 bp. Amount of IP PCR product should be roughly equal to input PCR product. Check the concentration using the Nanodrop, expecting ~50-100 ng/µL.

Detection

Notes

  1. This protocol will likely fail the first time you try it. Your LM-PCR product will contain no DNA. Don't lose heart. Try, try again. (Hard to pin down exactly what goes wrong between sonication and LM-PCR, but it seems that the blunting step is very sensitive. Most people get it to work by trying two or three times.) ~ cmc 16:25, 21 August 2006 (EDT)
  2. Pour une recette similaire pour le ChIP en francais, cliquer sur le lien. --Alethea 06:10, 17 October 2007 (CDT)

References

  • ChIP protocol, Young Lab
  • [1] Odom DT et al."Control of pancreas and liver gene expression by HNF transcription factors." Science. 2004 Feb 27;303(5662):1378-81. PMID: 14988562

Contacts

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