IF-IC, DB
All
Transfected Only
Rabbit IgG
Product Information
Product Usage Information
Application | Dilution |
---|---|
Immunofluorescence (Immunocytochemistry) | 1:200 |
DNA Dot Blot | 1:1000 |
Storage
Specificity / Sensitivity
Species Reactivity:
All Species Expected
Source / Purification
Monoclonal antibody is produced by immunizing animals with 5-formyl-2'-deoxycytosine.
Background
Methylation of DNA at cytosine residues is a heritable, epigenetic modification that is critical for proper regulation of gene expression, genomic imprinting, and mammalian development (1,2). 5-methylcytosine is a repressive epigenetic mark established de novo by two enzymes, DNMT3a and DNMT3b, and is maintained by DNMT1 (3, 4). 5-methylcytosine was originally thought to be passively depleted during DNA replication. However, subsequent studies have shown that Ten-Eleven Translocation (TET) proteins TET1, TET2, and TET3 can catalyze the oxidation of methylated cytosine to 5-hydroxymethylcytosine (5-hmC) (5). Additionally, TET proteins can further oxidize 5-hmC to form 5-formylcytosine (5-fC) and 5-carboxylcytosine (5-caC), both of which are excised by thymine-DNA glycosylase (TDG), effectively linking cytosine oxidation to the base excision repair pathway and supporting active cytosine demethylation (6,7).
TET protein-mediated cytosine hydroxymethylation was initially demonstrated in mouse brain and embryonic stem cells (5, 8). Since then this modification has been discovered in many tissues, with the highest levels found in the brain (9). While 5-fC and 5-caC appear to be short-lived intermediate species, there is mounting evidence showing that 5-hmC is a distinct epigenetic mark with various unique functions (10,11). The modified base itself is stable in vivo and interacts with various readers including MeCP2 (11,12). The global level of 5-hmC increases during brain development, and 5-hmC is enriched at promoter regions and poised enhancers. Furthermore, there is an inverse correlation between levels of 5-hmC and histone H3K9 and H3K27 trimethylation, suggesting a role for 5-hmC in gene activation (12). Lower amounts of 5-hmC have been reported in various cancers including myeloid leukemia and melanoma (13,14).
- Hermann, A. et al. (2004) Cell Mol Life Sci 61, 2571-87.
- Turek-Plewa, J. and Jagodziński, P.P. (2005) Cell Mol Biol Lett 10, 631-47.
- Okano, M. et al. (1999) Cell 99, 247-57.
- Li, E. et al. (1992) Cell 69, 915-26.
- Tahiliani, M. et al. (2009) Science 324, 930-5.
- He, Y.F. et al. (2011) Science 333, 1303-7.
- Ito, S. et al. (2011) Science 333, 1300-3.
- Kriaucionis, S. and Heintz, N. (2009) Science 324, 929-30.
- Globisch, D. et al. (2010) PLoS One 5, e15367.
- Gao, Y. et al. (2013) Cell Stem Cell 12, 453-69.
- Mellén, M. et al. (2012) Cell 151, 1417-30.
- Wen, L. et al. (2014) Genome Biol 15, R49.
- Delhommeau, F. et al. (2009) N Engl J Med 360, 2289-301.
- Lian, C.G. et al. (2012) Cell 150, 1135-46.
Species Reactivity
Species reactivity is determined by testing in at least one approved application (e.g., western blot).
Applications Key
IF-IC: Immunofluorescence (Immunocytochemistry) DB: DNA Dot Blot
Cross-Reactivity Key
H: human M: mouse R: rat Hm: hamster Mk: monkey Vir: virus Mi: mink C: chicken Dm: D. melanogaster X: Xenopus Z: zebrafish B: bovine Dg: dog Pg: pig Sc: S. cerevisiae Ce: C. elegans Hr: horse GP: Guinea Pig Rab: rabbit All: all species expected
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