Resource for the Development of Biomedical Accelerator Mass Spectrometry (AMS)

  • Schramm, Vern L. (PI)
  • Kenney, Ronald (PI)
  • Brown, T.O.M. (PI)
  • Dekant, Wolfgang (PI)
  • Garner, R. (PI)
  • Souza, Brian (PI)
  • Yang, Raymond (PI)
  • Moeller, Robert (PI)
  • Conaway, Carson (PI)
  • Langer, Robert D. (PI)
  • Dingley, Karen (PI)
  • Sandhu, Punam (PI)
  • Pesavento, James Joseph (PI)
  • Dugan, Lawrence (PI)
  • Wingate, Lisa (PI)
  • Vogel, John (PI)
  • Corcoran, Ethan Emmet (PI)
  • Hecht, Stephen (PI)
  • Molina, Luis (PI)
  • Smith, Martyn (PI)
  • Felton, James S. (PI)
  • Oberdorster, Gunter (PI)
  • White, I.A.N. (PI)
  • Lang, Nicholas Paul (PI)
  • Clifford, Andrew Joseph (PI)
  • Brown, Karen (PI)
  • Frisen, Jonas (PI)
  • Ognibene, T.E.D. (PI)
  • Hammock, Bruce (PI)
  • Murnick, Daniel (PI)
  • Eiserich, Jason (PI)
  • Phillips, Douglas (PI)
  • Bailey, George (PI)
  • Harlan, David (PI)
  • Henderson, Paul Thomas (PI)
  • Twiss, Jeffery (PI)
  • Miller, Joshua William (PI)
  • Bench, Graham (PI)
  • Degregorio, Michael (PI)
  • Thompkins, Elaine (PI)
  • Hah, Sang (PI)
  • Hinz, John (PI)
  • Haskell, Marjorie (PI)
  • Dashwood, Roderick (PI)
  • Coleman, Matthew (PI)
  • Chong-Xian, Pan (PI)
  • Allen, Lindsay (PI)
  • Lam, Kit (PI)
  • Dekant, Wolfgang (PI)
  • Piero, Anversa (PI)
  • Pett-Ridge, Jennifer (PI)
  • Malfatti, Michael A. (PI)
  • vander Griend, Donald James (PI)
  • Buchholz, Bruce (PI)
  • Dorner, Thomas (PI)
  • Bova, George Steven (PI)
  • Tisdale, John (PI)
  • Etminan, Nima (PI)
  • Burlingame, Alma (PI)
  • Shields, Peter G. (PI)
  • Felton, James S. (PI)
  • Proctor, Ivan (PI)
  • Hecht, Stephen (PI)
  • Smith Lewis, [No Value] (PI)
  • Kaye, Barry (PI)
  • Clifford Andrew, [No Value] (PI)
  • Hammock, Bruce (PI)
  • Vogel John, S. (PI)
  • Wyrobek, Andrew (PI)
  • Garner, R. (PI)
  • Smith, Martyn (PI)
  • Lang, Nicholas Paul (PI)
  • Eastmond, David (PI)
  • Vogel, John (PI)
  • Benet, Leslie (PI)
  • Turteltaub, Kenneth (PI)
  • Brown, T.O.M. (PI)
  • Garner, R. (PI)
  • Langer, Robert D. (PI)
  • Felton, James S. (PI)
  • White, I.A.N. (PI)
  • Ognibene, T.E.D. (PI)
  • Malfatti, Michael A. (PI)
  • Burlingame, Alma (PI)
  • Shields, Peter G. (PI)
  • Felton, James S. (PI)
  • Proctor, Ivan (PI)
  • Hecht, Stephen (PI)
  • Smith Lewis, [No Value] (PI)
  • Kaye, Barry (PI)
  • Clifford Andrew, [No Value] (PI)
  • Hammock, Bruce (PI)
  • Vogel John, S. (PI)
  • Wyrobek, Andrew (PI)
  • Garner, R. (PI)
  • Smith, Martyn (PI)
  • Lang, Nicholas Paul (PI)
  • Eastmond, David (PI)
  • Vogel, John (PI)
  • Benet, Leslie (PI)
  • Turteltaub, Kenneth (PI)

Project: Research project

Project Details

Description

DESCRIPTION (provided by applicant): The National Resource for Accelerator Mass Spectrometry (AMS) was established in 1999 to enable biomedical researchers to accurately quantify very low levels of radioisotopes while exploring fundamental issues in biology. In this renewal, we will expand our present capabilities by developing a fully integrated HPLC AMS to increase our capabilities for metabolic measurements which our collaborators require. We will develop methods to study biochemical pathways and cellular processes down to the level of the single cell. Finally we will develop and validate methods for the application of AMS in human translational research which is a growing area of demand by collaborators and service users. Throughout the tenure of the grant we will continue to provide a resource to the research community that will include service to investigators familiar with AMS, training of investigators in the technology and dissemination of the Resource. Towards these goals, our specific aims are to: 1.) Increase throughput of AMS through direct coupling to separatory instruments. 2.) Increase the value and information content of AMS measurements by combining molecular identities with quantitation of defined isolates for pathway analysis from very small cellular, animal, and human samples. 3.) Provide quantitation of biological systems using multiple isotopic tracers within sampled materials. 4.) Provide high throughput precision quantitation for collaborative and service clients. PUBLIC HEALTH RELEVANCE: This Center provides new technology for filling the unique niche of ultra-high sensitivity isotope quantitation in biomedical studies The technology is ideal for quantifying endpoints without perturbing the natural metabolism in model systems so that results are relevant and it allows studies to be done in humans to assure that models represent the human situation and for translational research. This technology supports over 60 funded investigators.
StatusFinished
Effective start/end date9/4/095/31/10

Funding

  • National Center for Research Resources

ASJC

  • Food Science
  • Microbiology (medical)
  • Infectious Diseases
  • Genetics
  • Molecular Biology
  • Obstetrics and Gynecology
  • Developmental Neuroscience
  • Health, Toxicology and Mutagenesis
  • Virology
  • Drug Discovery
  • Analytical Chemistry
  • Medical Laboratory Technology
  • Instrumentation
  • Radiation
  • Nutrition and Dietetics
  • Biophysics
  • Spectroscopy
  • Biochemistry
  • Oncology
  • Cancer Research
  • Biotechnology
  • Clinical Biochemistry
  • Toxicology
  • Cell Biology
  • Pathology and Forensic Medicine
  • Pharmacology
  • Medicine(all)
  • Biochemistry, Genetics and Molecular Biology(all)

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