Immunoprecipitation (Stukenberg lab) and Small Molecules for Xenopus Research: Difference between pages

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Protocol submitted by VGP from Stukenberg lab protocols [http://www.xenbase.org/community/person.do?method=display&personId=1311&tabId=0]
==Important small molecule references==
*[http://www.xenbase.org/literature/article.do?method=display&articleId=35021 Database of Small Molecules by Feldman and Hogue 2006]
*[http://www.xenbase.org/literature/article.do?method=display&articleId=47903 Wnt/Notch by Myers and Krieg 2014]
*[http://www.xenbase.org/literature/article.do?method=display&articleId=970 Ubiquitin-proteasome by Salic and King 2005]


==Alphabetical List of Small Molecules With Literature References==


link to protocol page [http://people.virginia.edu/~djb6t/LabWeb/frogs.htm]
*[[11-cis retinal]]
*[[18alpha-glycyrretinic acid]]
*[[3,3,5-triiodothyronine (T3)]]
*[[5HT (seratonin)]]
*[[activin]]
*[[AG1296]]
*[[AG1879]]
*[[AGN193109]]
*[[alpha-amanitin]]
*[[anandamide]]
*[[apelin]]
*[[aphidicolin ]]
*[[AZD1480]]
*[[BAPTA-AM]]
*[[beta-xyloside]]
*[[bumetanide]]
*[[calcium ionophore]]
*[[CGP54626 ]]
*[[Chelerythrine]]
*[[chymostatin ]]
*[[concanamycin]]
*[[cycloheximide]]
*[[cyclopamine]]
*[[Cytochalasin B]]
*[[dexamethosone]]
*[[DHT(dihydrotestosterone)]]
*[[Ex-527]]
*[[forskolin]]
*[[fusicoccin]]
*[[gentamycin]]
*[[GM6001]]
*[[heptanol]]
*[[IBMX]]
*[[KT 5720]]
*[[lansoprazol]]
*[[LiCl]]
*[[Mg132]]
*[[mHip]]
*[[MMP-2 inhibitor II]]
*[[nicorandil]]
*[[nifedipine]]
*[[nocodazole]]
*[[NSC-87877]]
*[[o-phenanthroline]]
*[[olomoucine]]
*[[ouabain]]
*[[p-MPPI]]
*[[phaclofen]]
*[[PMA]]
*[[PP2]]
*[[primaquin]]
*[[propythiouracil]]
*[[retinoic acid]]
*[[RS67333]]
*[[RU486]]
*[[SB 203580]]
*[[sodium nitroprusside]]
*[[SP600125 ]]
*[[SU5402]]
*[[SU66056]]
*[[Suramin]]
*[[thyroxine (T4)]]
*[[TTNPB]]
*[[tunicamycin]]
*[[Y27632]]
*[[ZM 447439]]


==List of Molecules Affecting Specific Pathways==
===cAMP===
[[IBMX]]
===ERK/MAPK===
===JAK/STAT===
*[[AZD1480]]
===JNK===
[[SP600125]]


IP Protocol
===PDGF===
*[[AG1296]]
This protocol utilizes the coupling of Antibody to Protein A Coated beads using DMP.  This allows for elution of bound proteins and reuse of beads, if desired. 
===Retinoic Acid===
*[[AGN193109]]
*[[retinoic acid]]
*[[TTNPB]]
===Shh===
*[[cyclopamine]]
*[[mHip]]
===TGF-beta/BMP===
===Wnt===
*[[LiCl]]


Materials:
===Cytoskeletal Inhibitors===
*[[Cytochalasin B]]
===Epigenetics===
[[Ex-527]]
===Protease Inhibitors===
*[[chymostatin]]
*[[GM6001|GM6001 (MMP inhibitor)]]
*[[o-phenanthroline|o-phenanthroline(MMP inhibitor)]]


Bio-Rad Protein A Support


Control IgG (depending on antibody source; rabbit, mouse, etc..)
===Small Molecules Studied in Oocytes Found Via Textpresso===
*[http://www.xenbase.org/literature/article.do?method=display&articleId=42068 M119]
*[http://www.xenbase.org/literature/article.do?method=display&articleId=42068 GBG or GBetaGamma or G Protein Beta Gamma]
*[[LY-294002| LY-294002 inhibits PI3K and autophagy]]


PBSt (PBS + 0.1% Tween20)
===Textpresso Small Molecules to Research===
 
*[http://www.xenbase.org/literature/article.do?method=display&articleId=43038 importazole inhibits importin]
0.2 M Sodium Borate pH 9.0
 
0.1M Glycine, pH 2.5
 
Trichloroacetic Acid (TCA)
 
1% Deoxycholic acid (DOC)
Methods
 
1. Remove an appropriate amount of Protein A beads and wash 3 times with PBSt. You will need a minimum of 2 tubes of beads at this point, one for you’re your antibody of interest and one for control IgG.
 
2. Assuming you are using 10-100 µl of beads, add PBSt and antibody to a final volume of ~500µl. 
 
3. Mix the antibody/bead solution in the cold room for 1 hour to overnight.  
 
4. Wash the beads 3 times with PBSt
 
5. Wash the beads 2 times with 0.2M Sodium Borate pH9.0
 
6. With beads in Borate, prepare 20mM solution of dimethylpimilidate (DMP) in sodium borate (you will need a minimum of 10 fold excess volume of this solution relative to your starting bead bed volume, for example 50ul beads require a minimum of 500 µl of 20mM DMP solution).
 
7. Resuspend beads in at least a ten fold excess of Borate + 20mM DMP.  If I have less than 100µl of beads, I usually use 500-1000µl regardless.
 
8. Rotate at room temperature for 30 minutes.
 
9. Spin down beads and wash 2-3 times in 100mM Tris pH8. This step quenches the coupling reaction. 
 
10. Allow beads to rotate with tris for 2 hours at room temperature, or overnight in the cold room.
 
11. Wash beads 2-3 times in PBSt
 
12. Wash beads 3 times in 0.1M glycine pH2.5.  This step removes any unbound antibody. 
 
13. Wash beads back into PBSt 3 times. The glycine will effectively denature the antibodies bound to beads, so it is important to let them refold in PBSt for a minimum of several hours to overnight in the cold.  If not the IP can be very dirty.
 
14. Wash beads in buffer of choice prior to IP.  Spin down and remove excess buffer. 
 
15. Add solution you are IP-ing from to the beads, resuspend and incubate at either room temperature or in cold for a minimum of 1-2 hours.  The length of time for the IP depends on the quality of the antibody.  Also, things will get degraded faster (much faster) at room temperature.  I would recommend starting with 2-3 hours in the cold.
 
16. After the IP, wash the beads 3 times in buffer (PBSt works, although you can wash with higher salt to be more stringent). 
 
17. Elute the beads 3 times in 0.1M Glycine pH 2.5.  Transfer the supernatant after each elution into 1.0M Tris pH8.  Normally, I will elute with 3 times, each with 200-300µl of glycine, and put all three elutions into 300µl of 1M Tris (final volume of 1.2ml).
 
18. TCA precipitate samples by adding a 1:50 volume of 1% DOC and a 1:10 volume of TCA. Vortex quickly to mix. 
 
19. Store TCA precipitation on ice for 30 minutes to overnight (30 minutes is almost always sufficient). 
 
20. Spin in a cold benchtop centrifuge at high speed for 15 minutes.
 
21. Remove supernatant, add 500µl of acetome to pellet to remove salt and crap. 
 
22. Respin for 5-10 minutes on high speed.
 
23. Remove all supernatant and resuspend in sample buffer.  If sample buffer doesn’t stay blue, that is bad.

Revision as of 11:08, 2 June 2015

Important small molecule references

Alphabetical List of Small Molecules With Literature References

List of Molecules Affecting Specific Pathways

cAMP

IBMX

ERK/MAPK

JAK/STAT

JNK

SP600125

PDGF

Retinoic Acid

Shh

TGF-beta/BMP

Wnt

Cytoskeletal Inhibitors

Epigenetics

Ex-527

Protease Inhibitors


Small Molecules Studied in Oocytes Found Via Textpresso

Textpresso Small Molecules to Research

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