New England Biolabs has called upon its 35 years of expertise in enzymology to develop a suite of validated reagents for epigenetics research. This line of easy-to-use EpiMark® kits simplifies DNA methylation and hydroxymethylation detection and analysis, as well as ChIP, histone and nucleosome analysis. Independently applicable, individual epigenetics reagents also complement the EpiMark® kits. NEB's methylation- and hydroxymethylation- sensitive or dependent enzymes, DNA methyltransferases and DNA controls are all useful for mapping DNA modifications and methylating DNA at specific sites for gene expression studies. Our protein methyltransferases and recombinant histones perform efficiently in protein modification and characterization studies. Our range of modified and unmodified genomic DNAs can be used as controls for detection of DNA methylation. Our series of human DNA (cytosine-5) methyltransferase (DNMT) antibodies are ideally suited for Western blots and immunoprecipitation.
Our complete Epigenetics suite is expertly designed for optimized research and discovery.
EpiMark® is a registered trademark of New England Biolabs, Inc.
Epigenetics includes these subcategories:
FAQs for Epigenetics
Protocols for Epigenetics
The Epigenetics brochure provides information on these unique solutions to study DNA and histone modifications. NEB offers a suite of validated products for epigenetics research.
Epigenetics - Expanding on Genomic Foundations
- Epigenetics Brochure
- EpiMark® Methylated DNA Enrichment Kit Troubleshooting Guide
Other Tools & Resources
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- Stroud, H., et al. 2011. 5-Hydroxymethylcytosine is associated with enhancers and gene bodies in human embryonic stem cells Gen. Biol.. , PubMedID: 21689397 , DOI:
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- Zhang, J. et al. 2011. Cyclophosphamide perturbs cytosine methylation in jurkat-T Cells through LSD1-mediated stabilization of DNMT1 Protein Chem. Res. Toxicol.. 24(11), PubMedID: 22007908, DOI:
- 2011. Comparitive characterization of the PvuRts11 family and application in mapping genomic 5-hydroxymethylcytosine Nucl. Acids Res.. 39, PubMedID: 21813453, DOI: 10.1093/nar/gkr607
- Marx V. 2016. Genetics: profiling DNA methylation and beyond Nature Methods. 13, PubMedID: , DOI: 10.1038/nmeth.3736
- Wee E., Ngo T., Trau M. 2015. A simple bridging flocculation assay for rapid, sensitive and stringent detection of gene specific DNA methylation Sci Rep. 5, PubMedID: 26458746, DOI: 10.1038/srep15028
- Page A., Paoli P., Salvador E., White S., French J., Mann J. 2015. Hepatic Stellate Cell Transdifferentiation Involves Genome-Wide Remodeling of the DNA Methylation Landscape J Hepatol. , PubMedID: 26632634, DOI: 10.1016/j.jhep.2015.11.024
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- Gong, H. wt al. 2012. Near-infrared fluorescence imaging of mammalian cells and xenograft tumors with SNAP-tag PLoS ONE. 7, PubMedID: 22479502, DOI:
- Sexton T, Kurukuti S, Mitchell JA, Umlauf D, Nagano T, Fraser P 2012. Sensitive detection of chromatin coassociations using enhanced chromosome conformation capture on chip Nat Protoc. 7(7), PubMedID: 22722369, DOI: 10.1038/nprot.2012.071
- Gu, L.Q., et al. 2012. Detection of miRNAs with a nanopore single-molecule counter Expert Rev. Mol. Diagn.. 12, PubMedID: 22845478, DOI:
- Grant, T.J., et al. 2012. Antiproliferative small-molecule inhibitors of transcription factor LSF reveal oncogene addiction to LSF in hepatocellular carcinoma Proc. Natl. Acad. Sci. USA. 109, PubMedID: 22396589, DOI:
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Publications related to Epigenetics
Types of Histone Modifications
Types of DNA Modifications
- Kim, J.K., Samaranayake, M. and Pradhan S. (2009) Cell. Mol. Life Sci. 66, 596-612. PMID: 18985277
- Vanyushin, B.F. (2006) Curr. Top. Microbiol. Immunol. 301, 67-122. PMID: 16570846
- Mosher, R.A., Melnyk, C.W. (2010) Trends Plant Sci. 15, 204-210. PMID: 20129810
- Lyko, F., Beisel, C., Marhold, J., Paro, R. (2006) Curr. Top. Microbiol. Immunol. 310, 23-44. PMID: 16909905
- Selker, E.U., Freitag, M., Kothe, G.O., et al. (2002) Proc. Natl. Acad. Sci. U S A. 99, Suppl 4, 16485-16490. PMID: 12189210
- Kriaucionis, S. and Heintz, N. (2009) Science 324, 929-930. PMID: 19372393
- Tahiliani, M., Koh, K. P., Shen, Y., et al. (2009) Science 324, 930-935. PMID: 19372391
- Ehrlich, M., Wilson, G.G., Kuo, K.C., And Gehrke, C.W. (1987) J. Bacteriol. 169, 939-943. PMID: 3029036
- Svadbina, I.V., Zelinskaya, N.V., Kovalevskaya, N.P., Zheleznaya, L.A. and Matvienko, N.I. (2004) Biochem. (Moscow) 69, 299-305. PMID: 15061697
- Ratel, D., Ravanat, J-L., Berger, F. and Wion D. (2006) Bioessays 28, 309-315. PMID: 16479578
- Marinus, M.G. and Casadesus, J. (2009) FEMS Microbiol. Rev. 33, 488-503. PMID: 19175412
ChIP-Seq Library Construction Workflow
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If all cells are created from the same genetic material, why are there so many different cell types? Listen to Sriharsa Pradhan, Senior Scientist, RNA Biology at NEB, as he describes how DNA is methylated and how this affects the path of reading the DNA code the same way an obstruction would derail a train off its tracks.