Product Pathways - Chromatin Regulation / Epigenetics
Tri-Methyl-Histone H3 (Lys36) (D5A7) XP® Rabbit mAb #4909
PhosphoSitePlus® protein, site, and accession data: H3
| Applications | Reactivity | Sensitivity | MW (kDa) | Isotype |
|---|---|---|---|---|
| W ChIP | H M R Mk (Hm) (C) (Dm) (X) (Z) (B) | Endogenous | 17 | Rabbit IgG |
Applications Key:
W=Western Blotting
ChIP=Chromatin IP
Reactivity Key:
H=Human
M=Mouse
R=Rat
Hm=Hamster
Mk=Monkey
C=Chicken
Dm=D. melanogaster
X=Xenopus
Z=Zebrafish
B=Bovine
Species cross-reactivity is determined by western blot. Species enclosed in parentheses are predicted to react based on 100% sequence homology.
Protocols
Specificity / Sensitivity
Tri-Methyl-Histone H3 (Lys36) (D5A7) XP® Rabbit mAb detects endogenous levels of histone H3 only when tri-methylated on Lys36. The antibody does not cross-react with non-methylated, mono-methylated, or di-methylated Lys36. In addition, the antibody does not cross-react with histone H3 methylated at Lys4, Lys9, Lys27 or histone H4 methylated at Lys20.
Source / Purification
Monoclonal antibody is produced by immunizing animals with a synthetic peptide corresponding to the amino terminus of histone H3 in which Lys36 is tri-methylated.
Western Blotting
Western blot analysis of extracts from various cell lines using Tri-Methyl-Histone H3 (Lys36) (D5A7) XP® Rabbit mAb.
ELISA
Tri-Methyl Histone H3 (Lys36) (D5A7) XP® Rabbit mAb specificity was determined by peptide ELISA. The graph depicts the binding of the antibody to pre-coated tri-methyl histone H3 (Lys36) peptide in the presence of increasing concentrations of various competitor peptides. As shown, only the tri-methyl histone H3 (Lys36) peptide competed away binding of the antibody.
Chromatin IP
Chromatin immunoprecipitations were performed with cross-linked chromatin from 4 x 106 HeLa cells and either 10 μl of Tri-Methyl-Histone H3 (Lys36) (D5A7) XP® Rabbit mAb or 2 μl of Normal Rabbit IgG #2729 using SimpleChIP® Enzymatic Chromatin IP Kit (Magnetic Beads) #9003. The enriched DNA was quantified by real-time PCR using SimpleChIP® Human γ-Actin Promoter Primers #5037, SimpleChIP® Human γ-Actin Intron 3 Primers #5047, SimpleChIP® Human GAPDH Promoter Primers #4471, and SimpleChIP® Human GAPDH Intron 2 Primers #4478. The amount of immunoprecipitated DNA in each sample is represented as signal relative to the total amount of input chromatin, which is equivalent to one.
Background
The nucleosome, made up of four core histone proteins (H2A, H2B, H3, and H4), is the primary building block of chromatin. Originally thought to function as a static scaffold for DNA packaging, histones have now been shown to be dynamic proteins, undergoing multiple types of post-translational modifications, including acetylation, phosphorylation, methylation, and ubiquitination (1). Histone methylation is a major determinant for the formation of active and inactive regions of the genome and is crucial for the proper programming of the genome during development (2,3). Arginine methylation of histones H3 (Arg2, 17, 26) and H4 (Arg3) promotes transcriptional activation and is mediated by a family of protein arginine methyltransferases (PRMTs), including the co-activators PRMT1 and CARM1 (PRMT4) (4). In contrast, a more diverse set of histone lysine methyltransferases has been identified, all but one of which contain a conserved catalytic SET domain originally identified in the Drosophila Su(var)3-9, Enhancer of zeste, and Trithorax proteins. Lysine methylation occurs primarily on histones H3 (Lys4, 9, 27, 36, 79) and H4 (Lys20) and has been implicated in both transcriptional activation and silencing (4). Methylation of these lysine residues coordinates the recruitment of chromatin modifying enzymes containing methyl-lysine binding modules such as chromodomains (HP1, PRC1), PHD fingers (BPTF, ING2), tudor domains (53BP1), and WD-40 domains (WDR5) (5-8). The discovery of histone demethylases such as PADI4, LSD1, JMJD1, JMJD2, and JHDM1 has shown that methylation is a reversible epigenetic marker (9).
- Peterson, C.L. and Laniel, M.A. (2004) Curr. Biol. 14, R546-R551.
- Kubicek, S. et al. (2006) Ernst Schering Res. Found Workshop, 1-27.
- Lin, W. and Dent, S.Y. (2006) Curr. Opin. Genet. Dev. 16, 137-142.
- Lee, D.Y. et al. (2005) Endocr. Rev. 26, 147-170.
- Daniel, J.A. et al. (2005) Cell Cycle 4, 919-926.
- Shi, X. et al. (2006) Nature 442, 96-99.
- Wysocka, J. et al. (2006) Nature 442, 86-90.
- Wysocka, J. et al. (2005) Cell 121, 859-872.
- Trojer, P. and Reinberg, D. (2006) Cell 125, 213-217.
Application References
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For Research Use Only. Not For Use In Diagnostic Procedures.
