17-408 Sigma-AldrichEZ-Magna ChIP™ A - Chromatin Immunoprecipitation Kit
Single day chromatin immunoprecipitation (ChIP) kit containing all necessary reagents to perform 22 individual chromatin immunoprecipitation (ChIP) reactions using magnetic A beads. Control primers included.
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Overview
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Catalogue Number | 17-408 |
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Description | EZ-Magna ChIP™ A - Chromatin Immunoprecipitation Kit |
Overview | Chromatin Immunoprecipitation (ChIP) is an important technique allowing the researcher to analyze in vivo interactions of proteins with genomic DNA. Any chromatin-associated or DNA binding protein can be analyzed with this technique, provided a good antibody to the protein exists. One can measure different proteins localized to a specific region of the genome, or the genome wide distribution of a specific protein. Another powerful application of this technique is to analyze changes in histone modifications that correlate with processes like transcription, mitosis or DNA repair. Features & Benefits: Faster: Magnetic protein A beads allow for the entire ChIP protocol to be done in as little as a day! All reagents to process your samples are included - you don't have to spend valuable time making them. Easier: Spin columns make DNA purification easier and more reliable - no more messy phenol-chloroform extractions. Greater Reproducibility: Positive and negative control antibodies and PCR primers are included to help validate your results and to troubleshoot your experiments. |
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Materials Required but Not Delivered | Magna Grip™ Rack 8 well (Cat.# 20-400) Now Available! or similar magnetic rack. |
Background Information | Chromatin Immunoprecipitation (ChIP) is a powerful technique for mapping the in vivo distribution of proteins associated with chromosomal DNA. These proteins can be histone subunits and post-translational modifications or other chromatin associated proteins such as transcription factors, chromatin regulators, etc. Additionally, ChIP can be used to identify regions of the genome associated with these proteins, or conversely, to identify proteins associated with a particular region of the genome. ChIP methodology often involves protein-DNA and protein-protein cross-linking, fragmentation of the cross-linked chromatin, and subsequent immunoprecipitation of chromatin with an antibody specific to a target protein. The DNA fragments isolated in complex with the target protein can be identified by a variety of methods including PCR, DNA microarray and DNA sequencing. Standard or quantitative PCR can be performed to verify whether a particular DNA sequence (the gene or region of the genome) is associated with the protein of interest. The combination of ChIP and promoter or genomic tiling microarrays (ChIP-chip) allows genome-wide identification of DNA-binding sites for chromatin-associated proteins with precise resolution. Alternatively, high-throughput sequencing of libraries constructed from immunoprecipitated chromosomal DNA (ChIP-Seq) is a powerful alternative to ChIP-chip in mapping the protein-DNA interactions across mammalian genomes. |
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HS Code | 3002 15 90 |
Presentation | Two boxes containing all necessary reagents to perform 22 individual chromatin immunoprecipitation (ChIP) reactions. Supplied buffers are sufficient to generate chromatin from up to five 15 cm plates of cultured cells, each plate providing up to 10 chromatin preparations (varies with cell and assay type). |
Quality Level | MQ100 |
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Material Size | 22 assays |
Material Package | Kit capacity: 22 chromatin immunoprecipitation assays |
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Catalogue Number | GTIN |
17-408 | 04053252010897 |
Documentation
EZ-Magna ChIP™ A - Chromatin Immunoprecipitation Kit MSDS
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EZ-Magna ChIP™ A - Chromatin Immunoprecipitation Kit Certificates of Analysis
References
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Shifts in podocyte histone H3K27me3 regulate mouse and human glomerular disease. Majumder, S; Thieme, K; Batchu, SN; Alghamdi, TA; Bowskill, BB; Kabir, MG; Liu, Y; Advani, SL; White, KE; Geldenhuys, L; Tennankore, KK; Poyah, P; Siddiqi, FS; Advani, A J Clin Invest 128 483-499 2018 Show Abstract | 29227285 |
Therapeutic potential of GSK-J4, a histone demethylase KDM6B/JMJD3 inhibitor, for acute myeloid leukemia. Li, Y; Zhang, M; Sheng, M; Zhang, P; Chen, Z; Xing, W; Bai, J; Cheng, T; Yang, FC; Zhou, Y J Cancer Res Clin Oncol 144 1065-1077 2018 Show Abstract | 29594337 |
The Human Cytomegalovirus Strain DB Activates Oncogenic Pathways in Mammary Epithelial Cells. Kumar, A; Tripathy, MK; Pasquereau, S; Al Moussawi, F; Abbas, W; Coquard, L; Khan, KA; Russo, L; Algros, MP; Valmary-Degano, S; Adotevi, O; Morot-Bizot, S; Herbein, G EBioMedicine 30 167-183 2018 Show Abstract | 29628341 |
Restoring Tip60 HAT/HDAC2 Balance in the Neurodegenerative Brain Relieves Epigenetic Transcriptional Repression and Reinstates Cognition. Panikker, P; Xu, SJ; Zhang, H; Sarthi, J; Beaver, M; Sheth, A; Akhter, S; Elefant, F J Neurosci 38 4569-4583 2018 Show Abstract | 29654189 |
Myeloid-Specific Gene Deletion of Protein Phosphatase 2A Magnifies MyD88- and TRIF-Dependent Inflammation following Endotoxin Challenge. Sun, L; Pham, TT; Cornell, TT; McDonough, KL; McHugh, WM; Blatt, NB; Dahmer, MK; Shanley, TP J Immunol 198 404-416 2016 Show Abstract | 27872207 |
Early growth response-1-mediated down-regulation of drebrin correlates with loss of dendritic spines. Cho, C; MacDonald, R; Shang, J; Cho, MJ; Chalifour, LE; Paudel, HK J Neurochem 142 56-73 2016 Show Abstract | 28369888 |
Epigenetic mechanisms underlying NMDA receptor hypofunction in the prefrontal cortex of juvenile animals in the MAM model for schizophrenia. Gulchina, Y; Xu, SJ; Snyder, MA; Elefant, F; Gao, WJ J Neurochem 143 320-333 2016 Show Abstract | 28628228 |
miR-130b directly targets ARHGAP1 to drive activation of a metastatic CDC42-PAK1-AP1 positive feedback loop in Ewing sarcoma. Satterfield, L; Shuck, R; Kurenbekova, L; Allen-Rhoades, W; Edwards, D; Huang, S; Rajapakshe, K; Coarfa, C; Donehower, LA; Yustein, JT Int J Cancer 141 2062-2075 2016 Show Abstract | 28748534 |
Tip60 HAT Action Mediates Environmental Enrichment Induced Cognitive Restoration. Xu, S; Panikker, P; Iqbal, S; Elefant, F PLoS One 11 e0159623 2015 Show Abstract | 27454757 |
Ubiquitin-specific Protease-7 Inhibition Impairs Tip60-dependent Foxp3+ T-regulatory Cell Function and Promotes Antitumor Immunity. Wang, L; Kumar, S; Dahiya, S; Wang, F; Wu, J; Newick, K; Han, R; Samanta, A; Beier, UH; Akimova, T; Bhatti, TR; Nicholson, B; Kodrasov, MP; Agarwal, S; Sterner, DE; Gu, W; Weinstock, J; Butt, TR; Albelda, SM; Hancock, WW EBioMedicine 13 99-112 2015 Show Abstract | 27769803 |
Brochure
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Data Sheet
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FAQ
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How should I resuspend my pellet prior to PCR? | You should resuspend your pellet in water and not TE as the EDTA found in the TE may interfere with PCR. |
How many PCR reactions can be done with this kit? | There are enough primers and PCR buffer for 4 reactions per IP assuming a 20 microliter volume and assuming the primers are at the recommended concentration as stated in the manual. |
Is there ever a time when I do not need to cross-link Histones? | In native ChIP, Histone H3 and Histone H4 do not need to be crosslinked as they are very tightly associated. Histone H2A and Histone H2B are not as tightly associated, but will still work in native ChIP. |
From where are the primer sequences derived for the kit? | The primer sequences are based on the Human GAPDH promoter. The GenBank number is NT_009759.15, using nts:6497145-6498136. |
What were your conditions for PCR? | Please see the manual for The EZ ChIP Kit (Catalog #17-371) for more information. |
If I wanted to quantitate my immunoprecipitated DNA, how would I do so? | DNA purified from ChIP experiments can be quantitated by PCR, providing the amplifying oligos meet specific criteria. Oligos should be 24 mers, with a GC content of 50% (+/- 4) and a Tm of 60.0C (+/- 2.0). You must be certain that the PCR reactions are within the linear range of amplification. Generally it takes time to achieve this. Too much input DNA will affect your results, so set up several tubes for each experiment to optimize the input DNA. Generally, this is about 1/25th to 1/100th for yeast, approximately 1/10 for mammalian cells, but depends on the amount of antibody and input chromatin. Also, do not use more than 20 cycles, making sure that dNTP's always remain in excess. Also, include each reaction a control primer (to compare your experimental band against-make sure the sizes are sufficiently different to allow proper separation-75 base pairs is usually OK) set to a region of the genome that should not change throughout your experimental conditions. Also PCR from purified input DNA (no ChIP) and include no antibody control PCR's as well. PCR products should be no more than 500 base pairs and should span the area of interest (where you think you will see changes in acetylation or methylation of histones). All PCR products should be run on 7-8% acrylamide gels and stained with SYBR Green 1 (Molecular Probes) at a dilution of 1:10,000 (in 1X Tris-borate-EDTA buffer, pH 7.5) for 30 minutes-no destaining is required. Quantitation is carried out subsequent to scanning of the gel on a Molecular Dynamics Storm 840 or 860 in Blue fluorescence mode with PMT voltage at 900 with ImageQuant software. This has distinct advantages over ethidium bromide staining. SYBR Green is much more sensitive, and illumination of ethidium stained gels can vary across the gel based on the quality of UV bulbs in your in your light box. For further info, see Strahl-Bolsinger et al. (1997) Genes Dev. 11: 83-93. A radioactive quantitation m |
I am not getting amplification with input DNA. What did I do wrong? | Your input DNA sample should be taken just prior to adding the antibody. It is considered the starting material. If you are not seeing amplification with your input DNA, either you have not successfully reversed the cross links or the PCR is not working for reasons other than the kit. |
Do you have any tips for sonication? | Keep cells on ice throughout the procedure - even during sonication. Be sure that you don't sonicate for to long (more than 30 seconds could cause sample overheating and denaturation). |
Why is more DNA is precipitated in my no-antibody control than for my test sample? | To eliminate banding in your negative controls you can do several things: A) Pre-clear the 2ml diluted cell pellet suspension with 80 microliters of Salmon Sperm DNA/Protein A Agarose-50% Slurry for 30 minutes at 4ºC with agitation. You could try to preclear the lysate longer or with more clearings. B) Titrate your input DNA, to see when the bands in the NFA disappear. C) Use an alternative lysis procedure: Resuspend cell pellet in 200 microliters of 5mM Pipes pH 8.0, 85mM KCl, 0.5% NP40 containing protease inhibitors. Place on ice for 10 minutes. Pellet by centrifugation (5 minutes at 5000 rpm). Resuspend pellet in 200 microliters of 1% SDS, 10mM EDTA, 50mM Tris-HCl, pH 8.1 containing protease inhibitors. Incubate on ice for 10 minutes. D) Block the Salmon Sperm DNA Agarose prior to use in 1-5% BSA and Chip dilution buffer (mix at room temperature for 30 minutes). After incubation, spin the agarose and remove the 1% BSA/ChIP assay buffer supernatant. Wash once in ChIP assay buffer and continue. |
What is 'Input DNA', and why no 'Output DNA'? | Input DNA is DNA obtained from chromatin that has been cross-link reversed similar to your samples. It is a control for PCR effectiveness. Output DNA is the DNA from each of your ChIP experiments. |