We believe that basic research and the cultivation of scientific knowledge is critical for us to stay connected with our customers and to drive scientific breakthroughs. At NEB, over 30 labs participate in research projects, which are aided by post-doctoral fellows and students in Masters and Ph.D. programs. NEB researchers have authored or co-authored over 1,200 publications (as of 1/19) many of which are in peer-reviewed journals. Further, NEB products have been used successfully in numerous publications by scientists throughout the world.
Use the filters below to search for publications by year, journal or keyword. This list may be sorted by clicking on any column header.
Search Our Publications
In addition to using the filters to search, this list may be sorted by clicking on the sort options. Titles in orange are linked to the full article text.
Use any combination of the facets and/or perform a keyword(s) search to narrow your results below.
Your search returned 2077 results.
|2014||Modular assembly of designer PUF proteins for specific post-transcriptional regulation of endogenous RNA||J Biol Eng||Abil Z, Denard CA, Zhao H||DNA Assembly and Cloning,Golden Gate Assembly|
|2015||A simple bridging flocculation assay for rapid, sensitive and stringent detection of gene specific DNA methylation||Sci Rep||Wee E., Ngo T., Trau M.||Epigenetics,DNA Enrichment|
|2019||Human MettL3 MettL14 complex is a sequence specific DNA adenine methyltransferase active on single strand and unpaired DNA in vitro||Cell Discov||Woodcock, C.B.l, Yu, D., Hajian, T., Li, J., Huang, Y., Dai, N., Corrêa, I.R., Jr., Wu, T., Vedadi, M., Zhang, X., Cheng, X||Epigenetics,DNA Methylation Analysis,Methylated DNA Analysis|
|2012||Sensitive detection of chromatin coassociations using enhanced chromosome conformation capture on chip||Nat Protoc||Sexton T, Kurukuti S, Mitchell JA, Umlauf D, Nagano T, Fraser P||Epigenetics,DNA Methylation Analysis,Restriction Enzymes for Epigenetics|
|2014||Analysis of hundreds of cis-regulatory landscapes at high resolution in a single, high-throughput experiment||Nat Genet||Hughes J.R., Roberts N., McGowan S., Hay D., Giannoulatou E., Lynch M., De Gobbi M., Taylor S., Gibbons R., Higgs D.R.||Epigenetics,DNA Methylation Analysis,Restriction Enzymes for Epigenetics|
|2015||GADD45a physically and functionally interacts with TET1Publication||Differentiation||Kienhöfer S., Musheev M., Stapf U., Helm M., Schomacher L., Niehrs C., Schäfer A.||Epigenetics|
|2015||Hepatic Stellate Cell Transdifferentiation Involves Genome-Wide Remodeling of the DNA Methylation Landscape||J Hepatol||Page A., Paoli P., Salvador E., White S., French J., Mann J.||Epigenetics|
|2015||Binding of 14-3-3 reader proteins to phosphorylated DNMT1 facilitates||Nucleic Acids Res||Estève P., Zhang G., Ponnaluri V., Kanneganti||Epigenetics|
|2014||Myogenic differential methylation: diverse associations with chromatin structure||Biology (Basel)||Chandra S, Baribault C, Lacey M, Ehrlich M||Epigenetics|
|2011||Hypomethylation of a LINE-1 Promoter Activates an Alternate Transcript of the MET Oncogene in Bladders with Cancer||PLoS Genet.||Wolff, E.M. et al.||Epigenetics|