Archived Publications and Posters Display: ASC DESC Sort By Title Date Ordering Tandem Mass Spectrometry Analysis of Ex Vivo Amyloid Fibril and Tissue Samples Zhenning Hong,1Giuseppe Infusini,1 Lawreen H. Connors,2 Martha Skinner,2 Catherine E. Costello1,2 1Mass Spectrometry Resource and 2Amyloid Treatment and Research Program, Boston University School of Medicine, Boston, MA USA Download View Details Evaluation of Pressure Cycling Treatment on Barocycler’ NEP3229 for Extraction of Low-Template Forensic DNA Samples Harris County Institute of Forensic Sciences 1885 Old Spanish Trail Houston, TX 77054 Download Details Mechanical Loading-Induced TGF-β1 Mediates Cartilage Degradation Caused by Upregulation of HTRA1/DDR2 Li, YF;1§ Li, Y;2* Xu, L;1* Servais, J;1 Frank, E;2 Lazarev, A;3 Olsen, BR;1 Grodzinsky, AJ;2 Medici, D;1,41Harvard School of Dental Medicine and Harvard Medical School, Boston, MA, 2MIT, Cambridge, MA, 3 Pressure BioSciences, Inc, 4BIDMC, Boston, MA Download View Details Pressure Cycling Technology Sample Preparation System (PCT SPS) Improves Quantification of Pathogen DNA in Plants and Soil Patricia Okubara1, Chunqin Li2, Kurtis Schroeder1, and Nathan Lawrence21 USDA ARS, Root Disease & Biological Control Research Unit, Pullman, WA2 Pressure BioSciences, Inc., West Bridgewater, MA Download View Details Processing Bacillus Vegetative Cells and Spores Using Pressure Cycling Technology (PCT) Bioterrorism remains an ever-present threat to the world. Rapid detection systems are critical to civilian security and to reducing casualties on the battlefield. Most research activities to date in counter-bioterrorism have focused on the development of critical amplification, identification, and detection systems. However, sample preparation is an equally critical aspect of rapid identification and detection of bioterror agents, but the enhancement of such systems lags well behind the development of amplification, identification, and detection systems. Download View Details Start Prev 12 13 14 15 16 17 18 19 20 21 Next End