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.
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Your search returned 2149 results.
|2012||In vitro RNA interference and immunofluorescence-based phenotype analysis in a human parasitic nematode, Brugia malayi||<em>Parasites and Vectors</em>||Landmann, F., Foster, J.M., Slatko, B.E. and Sullivan, W|
|1990||Field testing of monoclonal probe specific for infective larvae of human Brugian parasites.||Parasites: Molecular Biology, Drug and Vaccine Design||Carlow, C.K.S., Suwita, A., Bahang, Z., Purnomo, Partono, F., and Philipp, M.|
|2012||Drugs and targets to perturb the symbiosis of Wolbachia and filarial nematodes||<em>Parasitic Helminths: Targets, Screens, Drugs and Vaccines</em>||Taylor, M.J., Ford, L, Ford, Hoerauf, A., Pfarr, K., Foster, J.M., Kumar, S. and Slatko, B.E.|
|2012||Drugs and targets to perturb the symbiosis of Wolbachia and filarial nematodes||Parasitic Helminths: Targets, Screens, Drugs and Vaccines||Taylor, M.J., Ford, L, Ford, Hoerauf, A., Pfarr, K., Foster, J.M., Kumar, S. and Slatko, B.E.|
|2013||The molecular biology, immunology and chemotherapy of Wolbachia bacterial endosymbionts of filarial nematodes||Parasitic Namatodes: Molecular Biology, Biochemistry, Immunology||Foster, J.M., Hoerauf, A., Slatko, B.E. and Taylor, M.J.|
|2011||The Molecular Biology, Immunology and chemotherapy of Wolbachia bacterial endosymbionts of filarial nematodes||Parasitic Nematodes: Molecular Biology, Biochemistry & Immunology (Kennedy, M.and Harnett, W., eds.)||Foster, J.M., Hoerauf, A., Slatko, B.E.and Taylor, M.J.|
|2008||The Wolbachia endosymbiont of Brugia malayi has an active phosphoglycerate mutase: a candidate target for anti-filarial therapies||Parasitol. Res.||Foster, J.M., Raverdy, S., Ganatra, M.B., Colussi, P.A., Taron, C.H. and Carlow, C.K.S.|
|2004||The bacterial catalase from filarial DNA preparations derives from common pseudomonad contaminants and not from Wolbachia endosymbionts.||Parasitol.Res.||Foster, J., Baldo, L., Blaxter, M., Hendle-Duhrsen, K., Whitton, C., Slatko, B.and Bandi, C|
|2006||Cofactor-independent Phosphoglycerate Mutase is an essential gene in procyclic form Trypanosoma brucei.||Parasitol.Res.||Djikeng, A., Raverdy, S., Foster, J., Bartholomeu, D., Zhang, Y., El-Sayed, N.and Carlow, C.|
|2008||The Wolbachia endosymbiont of Brugia malayi has an active phosphoglycerate mutase: a candidate target for anti-filarial therapies.||Parasitol.Res.||Foster, J.M., Raverdy, S., Ganatra, M.B., Colussi, P.A., Taron, C.H.and Carlow, C.K.S.|