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Histone H3 (2meLys9) antibody
Human, Rat (Rattus)
Alternatives Western Blotting (WB), Immunocytochemistry (ICC)
|2 references available|
|Price||507.14 $ Plus shipping costs $45.00|
|Availability||Will be delivered in 2 to 3 Business Days|
|Description||Other names: HIST3H3, H3FT, Histone H3.1t, H3/g|
|Characteristics||Rabbit Monoclonal Antibody|
|Specificity||A synthetic (Dimethyl-K)-peptide corresponding to residues surrounding Lys9 of Histone H3 was used as immunogen. The antibody only detects Histone H3 dimethylated on Lysine 9. Predicted to cross-react with most species, based on sequence homology.|
|Molecular Weight||17 kDA|
Background: Changes in chromatin structure play a large role in the regulation of transcription in eukaryotes (1). The nucleosome is the primary building block of chromatin, and is made up of four core histone proteins (H2A, H2B, H3 and H4) (2). Various post-translational modifications, such as acetylation and methylation, of core histones serve as regulators of gene expression (2). Histone H3 is primarily acetylated at lysines 9, 14, 18, and 23 (3,4). Methylation also serves as a predominant form of post-translational modification of Histone H3, and has been linked to transcriptional regulation and epigenetic silencing via heterochromatin assembly (5). Lysines 4, 9 and 27 in the N-terminal tail of Histone H3 are the preferred sites of methylation.
|Synonyms||H3t, H3.4, H3/g, H3FT, MGC126886, MGC126888, Hist1, H3.2-221, DmelCG31613, CG31613, h3.2, h3/m, h3f2, h3fm, hist1h3g, H3F3, H3.3A, H3F3B, MGC87782, MGC87783, H3.3B, H3F3A, h3f3a, MGC52829, MGC86731, MGC165454, zgc:56193, zgc:86731, wu:fb58e10, FLJ35099, FLJ56780, FLJ56787, MGC131639, MGC89877, HIST1H3A|
|Application Notes||The suggested dilution is: WB: ~~ 1:1000 ICC: ~~ 1:100|
|Buffer||50 mM Tris-Glycine (pH 7.4), 0.15 M NaCl, 40% Glycerol, 0.01% sodium azide and 0.05% BSA.|
|Storage||Histone-H3 Antibody Dimethyl (K9) can be stored at -20°C for up to 12 months from time of receipt.|
|Research Area||Ubiquitin-related antibodies, Signaling, Phospho-specific antibodies, Protein Modifications, Transcription Factors, Chromatin, Cell Structure|
|Restrictions||For Research Use only|
Braunstein, Sobel, Allis et al.: "Efficient transcriptional silencing in Saccharomyces cerevisiae requires a heterochromatin histone acetylation pattern." in: Molecular and cellular biology, Vol. 16, Issue 8, pp. 4349-56, 1996 (PubMed).
Workman, Kingston: "Alteration of nucleosome structure as a mechanism of transcriptional regulation." in: Annual review of biochemistry, Vol. 67, pp. 545-79, 1998 (PubMed).