61. Purdue Cancer Center - Shared Resources - Nuclear Magnetic Resonance The nuclear magnetic resonance (NMR) shared resource provides a broad spectrum of NMR instrumentation and scientific expertise for cancer research. http://www.cancer.purdue.edu/shared_resources/nmr.php

text-only version printer-friendly version Nuclear Magnetic Resonance Shared Resource Director: Carol B. Post E-mail: cbp@purdue.edu Facility Director: Klaas Hallenga Department: Chemistry/Medicinal Chemistry Phone: Building/Room: WTHR, Room 365B General Information and services The nuclear magnetic resonance (NMR) shared resource provides a broad spectrum of NMR instrumentation and scientific expertise for cancer research. The resource maintains medium and high-field spectrometers housed across campus for easy access by all Cancer Center researchers. NMR spectroscopy plays a central role across many areas of cancer research. The resource serves research projects in structural biology as well as synthesis and analysis of complex natural products and synthetic molecules. The Facility provides training and access to a number of NMR spectrometers, ranging from walk-on use of 200-, 300-, and 500-MHz multinuclear spectrometers to week-long use of 500- and 600-MHz multinuclear spectrometers with gradient capabilities. Researchers are taught to operate the instruments by expert staff members, and data can be processed either by off-line computers available in the resource or by electronic transfer to user-owned computers.

62. Nuclear Magnetic Resonance: Definition And Much More From Answers.com nuclear magnetic resonance n. ( Abbr. NMR ) The absorption of electromagnetic radiation of a specific frequency by an atomic nucleus that is placed. http://www.answers.com/topic/nuclear-magnetic-resonance

showHide_TellMeAbout2('false'); Business Entertainment Games Health ... More... On this page: Dictionary Medical WordNet Wikipedia Mentioned In Or search: - The Web - Images - News - Blogs - Shopping nuclear magnetic resonance Dictionary nuclear magnetic resonance n. Abbr. NMR The absorption of electromagnetic radiation of a specific frequency by an atomic nucleus that is placed in a strong magnetic field, used especially in spectroscopic studies of molecular structure and in medicine to measure rates of metabolism. Medical nuclear magnetic resonance n. Abbr. NMR ) The absorption of electromagnetic radiation of a specific frequency by an atomic nucleus that is placed in a strong magnetic field, used especially in spectroscopic studies of molecular structure and in medicine to measure rates of metabolism. WordNet Note: click on a word meaning below to see its connections and related words. The noun nuclear magnetic resonance has one meaning: Meaning #1 resonance of protons to radiation in a magnetic field Synonyms: NMR proton magnetic resonance Wikipedia nuclear magnetic resonance Pacific Northwest National Laboratory's high magnetic field (800 MHz) NMR spectrometer being loaded with sample.

63. Department Chemistry At McMaster: Nuclear Magnetic Resonance Lab This instrument is used for solution state NMR including high and low temperature NMR Information BioMagResBank A repository for data from NMR http://www.chemistry.mcmaster.ca/facilities/nmr/

Nuclear Magnetic Resonance Laboratory Optical Spectroscopy and EPR Facility Glass Blowing Shop McMaster Regional Centre for Mass Spectrometry Nuclear Magnetic Resonance Laboratory ... McMaster Analytical X-Ray Diffraction Facility (MAX) McMaster Quick Links Nuclear Magnetic Resonance Laboratory Dr Donald W. Hughes Dr A.D. Bain Dr Laura Harrington Steve Kornic Application Specialist, Assistant Professor Faculty Advisor to the Facility Research Scientist and Promotions Coordinator Instrument Specialist Contact Information Check out our newest brochure! The Nuclear Magnetic Resonance (NMR) Facility was established in 1986 with funding provided by NSERC and McMaster University. The Facility is equipped with seven NMR Spectrometers including the recently acquired Bruker AV 600 and AV 700 funded by CFI. The Facility is highly regarded in the Canadian chemical community for its versatility in the types of samples ( organic, inorganic, biochemical, geological, industrial, forestry, agricultural and biomedical materials

64. NMR Group : UKC School Of Physical Sciences University of Kent at Canterbury, nuclear magnetic resonance Group, UKC Functional Material Group. This page uses frames, but your browser doesn t support http://www.kent.ac.uk/physical-sciences/nmr/

Nuclear Magnetic Resonance Group This page uses frames, but your browser doesn't support them. Please follow these links Home page - an overview of some of the NMR at the University of Kent Index Bar - lots of links to more detail about us and our NMR research Foot Bar - links to related sites

65. UCLA-DOE Nuclear Magnetic Resonance (NMR) Core Facility Provides advanced nuclear magnetic resonance (NMR) spectrometers and related equipment for the study of macromolecular structure and dynamics in solution by http://www.doe-mbi.ucla.edu/Facilities/nmr.html

Facilities NMR UCLA-DOE Nuclear Magnetic Resonance (NMR) Core Facility Co-director: Robert Clubb 656 MBI rclubb@mbi.ucla.edu Co-director: Juli Feigon 256 MBI feigon@mbi.ucla.edu Manager: Robert Peterson 1429 Mol. Sci. peterson@mbi.ucla.edu Services Provided by the Core Facility Provides advanced nuclear magnetic resonance (NMR) spectrometers and related equipment for the study of macromolecular structure and dynamics in solution by experienced users. In this capacity the core facility primarily provides the research tools in which to perform detailed measurements on complex biological systems. Provides non-expert members of the DOE laboratory with access to NMR spectroscopy for more routine applications. These applications include: screening wild-type and mutated protein samples to determine their structural integrity, making small molecule binding affinity measurements, and temperature and denaturant studies of protein stability. Facilities and Equipment NMR Instrumentation. The facility contains three high field NMR spectrometers. All three spectrometers are equipped with multiple radiofrequency channels and three-axis field gradients and can perform almost all of the current, multi-dimensional, homo- and heteronuclear NMR experiments. The facility also contains various small equipment to enable the preparation of samples and the modification of solution conditions without the need to return to the main laboratories. This equipment includes a pH-meter, temperature controlled water bath, magnetic stirrer with heating plates, and pipetting equipment.

66. School Of Physics And Astronomy Alexa Browse nuclear magnetic resonanceAlexa web search a new kind of search engine. With traffic rankings, user reviews and other information about sites, Alexa is a web site discovery tool. http://www.nottingham.ac.uk/~ppzqsp/nmr.htm

Home University Sitemap Help On this page: Nuclear Magnetic Resonance Further Information: NMR Home Page Contacting us PhD Opportunities Postgraduate Info ... Safety Nuclear Magnetic Resonance Home Page Staff: Dr AJ Horsewill, Dr Helen Geen and Dr JR Owers-Bradley News: The School of Physics and Astronomy has recently been awarded a Basic Technology grant for the Production and Exploitation of Hyperpolarised Species for Medical and Materials Sciences. The activities in the field of Nuclear Magnetic Resonance in the school include: Quantum Molecular Tunnelling Basic Technology - Production and Exploitation of Hyperpolarised Species for Medical and Materials Sciences Solid State NMR Quantum Fluids ... Spin Dynamics in Solid Xenon Details of other NMR projects related to MRI can be found on the Magnetic Resonance Imaging and Spectroscopy website.

67. The Birth Of MRI - Magnetic Resonance Imaging - Stony Brook Chemistry Department The Stony Brook Department of Chemistry commemorates the first construction of an image by nuclear magnetic resonance by Prof. http://www.sunysb.edu/chemistry/news/mri.html

Home Faculty Research Graduate Program ... Brookhaven Celebrating of the Birth of MRI The Stony Brook Department of Chemistry commemorates the first construction of an image by Nuclear Magnetic Resonance by Prof. Paul Lauterbur at the University at Stony Brook thirty ago. Ths work led to the awarding of the 2003 Nobel Prize in Medicine to Professor Lauterbur. The instrument on which Lauterbur performed this critical experiment was a Varian A-60 NMR spectrometer capable of detecting protons at 60 MHz. That very same instrument is in a permanent display in the lobby of the Graduate Chemistry building. The ability to perform non-invasive imaging of the interior of living organisms using nuclear magnetic resonance is one of the most important medical discoveries of the twentieth century. Prof. Lauterbur left Stony Brook in 1985 to become the director of the Biomedical Magnetic Resonance Laboratory at the University of Illinois. While the MRI technique has become a commonplace diagnostic tool for the routine examination of soft tissues, research in this area of scientific endeavor continues to produce amazing results. The commemoration/dedication ceremony of the instrument display took place on Friday, April 26, 1996.

68. Magnetic Resonance Imaging Or MRI - Raymond Damadian - Paul Lauterbur The first successful nuclear magnetic resonance (NMR) experiment was made in 1946 independently by two scientists in the United States. http://inventors.about.com/library/inventors/bldamadian.htm

zJs=10 zJs=11 zJs=12 zJs=13 zc(5,'jsc',zJs,9999999,'') About Business Inventors Business ... Help zau(256,140,140,'el','http://z.about.com/0/ip/417/C.htm','');w(xb+xb+' ');zau(256,140,140,'von','http://z.about.com/0/ip/496/7.htm','');w(xb+xb); FREE Newsletter Sign Up Now for the Inventors newsletter! See Online Courses Search Inventors Magnetic Resonance Imaging ( MRI ) Raymond Damadian - MRI Scanner Paul Lauterbur Peter Mansfield Related History MRI Scanner Inventor Raymond Damadian Raymond Damadian invented the magnetic resonance imaging ( MRI ) scanner, intended as an apparatus and method for detecting cancer in tissue, which has revolutionized the field of diagnostic medicine. Raymond Damadian Magnetic resonance imaging inventor ( MRI ) Magnetic Resonance Imaging FAQs From Fonar Inc. a company founded by Raymond Damadian that now manufacturers magnetic resonance imaging or MRI equipment. Paul Lauterbur Peter Mansfield History of MRI The first successful nuclear magnetic resonance (NMR) experiment was made in 1946 independently by two scientists in the United States. MRI Reserach in Europe Like any history, the history of MR imaging has no real beginning. There is no exact date when somebody claimed to have invented an imaging method based upon the phenomenon of nuclear magnetic resonance.

69. Nuclear Magnetic Resonance, Biomolecular nuclear magnetic resonance, Biomolecular; Molecular Structure; is a set of second year lectures on nuclear magnetic resonance given at Imperial College, http://bioresearch.ac.uk/browse/mesh/D019906.html

low graphics Nuclear Magnetic Resonance, Biomolecular broader: Magnetic Resonance Spectroscopy other: Electron Spin Resonance Spectroscopy BioMagResBank : BMRB BioMagResBank (BMRB) is the publicly-accessible depository for NMR results from peptides, proteins, and nucleic acids. Based at the University of Wisconsin-Madison, the BMRB is recognised by the International Society of Magnetic Resonance and by the IUPAC-IUBMB-IUPAB Inter-Union Task Group on the Standardization of Data Bases of Protein and Nucleic Acid Structures Determined by NMR Spectroscopy. The BMRB database contains "NMR chemical shifts derived from proteins and peptides, reference data, amino acid sequence information, and data describing the source of the protein and the conditions used to study the protein." BMRB receives major support from the NIH National Library of Medicine and additional support from the NSF National Computational Science Alliance, and collaborates with the Research Collaboratory for Structural Bioinformatics and the European Bioinformatics Institute. Nuclear Magnetic Resonance, Biomolecular

70. Nuclear Magnetic Resonance (NMR) Oxford Instruments provides innovative business solutions to the scientific, industrial and chemical analysis and healthcare markets. http://www.oxford-instruments.com/SCNAPP668.htm

drawHeader('4', 'FFC800', 'image_superconductivity.jpg', 'superconductivity', ''); Nuclear magnetic resonance (NMR) Nuclear magnetic resonance (NMR) is a non-destructive, information rich technique, which has become a critical tool, for example in the field of proteomics, where it is used to elucidate the 3-D structure of proteins. The size and complexity of large biological molecules mean that scientists require high resolution and sensitivity in order to detail them atom-by-atom. High homogeneity and stability of the magnetic field is essential to achieve this. These attributes are also key to materials science where solid state NMR provides valuable data to elucidate the structure of inorganic materials, which are insoluble and cannot be crystallised. Oxford Instruments’ superconducting magnets can take you to the limits of NMR requirements. Room Temperature Shims for NMR Magnet Systems VectorShield™ - Ultra High Field Passive Shielding Solutions 900 MHz NMR Magnet 800 MHz NMR Magnet ... Oxford Instruments Superconductivity Ltd drawFooter('4','SCNAPP668_print.htm');

71. Jossey-Bass::Encyclopedia Of Nuclear Magnetic Resonance, 9 Volume Set The eight volume Encyclopedia of nuclear magnetic resonance published in 1996 has established itself as the professional modern reference work on NMR. http://www.josseybass.com/WileyCDA/WileyTitle/productCd-0470847840.html

By Keyword By Title By Author By ISBN By ISSN Shopping Cart My Account Help Contact Us ... NMR Spectroscopy Encyclopedia of Nuclear Magnetic Resonance, 9 volume set Related Subjects General Imaging General Spectroscopy Mass Spectrometry Related Titles More By These Authors Encyclopedia of Nuclear Magnetic Resonance, Volume 1, Historical Perspectives (Hardcover) NMR Spectroscopy Structure Elucidation by NMR in Organic Chemistry: A Practical Guide, 3rd Revised Edition (Paperback) by Eberhard Breitmaier Proton and Carbon NMR Spectra of Polymers, 5th Edition (Hardcover) by Quang Tho Pham, Roger Pétiaud, Hugues Waton, Marie-France Llauro-Darricades NMR Data Processing (Hardcover) by Jeffrey C. Hoch, Alan Stern Topics in Carbon-13, NMR Spectroscopy, Volume 4 (Hardcover) by George C. Levy (Editor) A Complete Introduction to Modern NMR Spectroscopy (Paperback) by Roger S. Macomber NMR Spectroscopy Encyclopedia of Nuclear Magnetic Resonance, 9 volume set David M. Grant (Editor), Robin K. Harris (Editor) ISBN: 0-470-84784-0 Hardcover 6490 pages December 2002 US $7,315.00

72. Nuclear Magnetic Resonance Facility--ISU Service Facilities The nuclear magnetic resonance Facility is supported by the Office of Biotechnology and the biochemistry, biophysics and molecular biology department. http://www.biotech.iastate.edu/service_facilities/nuclear_resonance.html

Animal Gene Transfer Facility Atomic Force Microscopy Facility Atmospheric Air Quality Laboratory Bessey Microscopy Facility ... Table of Contents Nuclear Magnetic Resonance Facility Location: 208 Molecular Biology Building Hours: 9 a.m. to 5 p.m. weekdays; other hours by appointment Contacts: 515-294-2139 Bruce Fulton, Manager Fax: E-Mail: bfulton@iastate.edu (Bruce Fulton) Web: www.public.iastate.edu/~bfulton/nmr_home.html The Nuclear Magnetic Resonance Facility is supported by the Office of Biotechnology and the biochemistry, biophysics and molecular biology department. A 500 MHz NMR spectrometer is available to researchers conducting re- search on biological macromolecules in solution. The facility operates a Bruker Avance DRX500 spectrometer with four RF channels and field gradients. The instrument is capable of performing a very broad range of modern multi-nuclear, multi-dimensional NMR experiments for structural studies of biomolecules. The facility also has computational resources for processing and analyzing NMR data and obtaining molecular structures. The facility will acquire and interpret NMR data as an analytical service. Consultation on the application of NMR methods to biological problems is available. The facility will provide training for researchers to operate the instrument and interpret data. Fees for Services* On Campus Instrument time (per hour) Operation time (per hour) Off Campus Instrument time (per hour) Operation time (per hour) * All prices subject to change.

73. Nuclear Magnetic Resonance Without A Magnet nuclear magnetic resonance Without a Magnet. NMR is also the phenomenon at the heart of Magnetic Resonance Imaging (MRI), one of the most powerful http://www.azom.com/details.asp?newsID=3261

74. Nuclear Magnetic Resonance Quantum Computers .Quantum Computers nuclear magnetic resonance Quantum Computers In the last few years, however, the development of computers based on nuclear magnetic resonance (NMR) http://www.qubit.org/research/NMR/

Nuclear Magnetic Resonance Quantum Computers Quantum computers have the potential to revolutionise many branches of science through their ability to tackle problems too large for any classical computer. While the theory of quantum computing is well understood, actually building a quantum computer has proved extremely difficult. Several approaches have been studied, but until recently it has only been possible to demonstrate the very simplest operations. In the last few years, however, the development of computers based on Nuclear Magnetic Resonance (NMR) spectroscopy has been extremely rapid. Researchers at IBM, MIT and Berkeley and in our laboratory in Oxford have recently demonstrated powerful quantum search algorithms using small NMR computers. The H and NMR computers are different from other quantum computers in one important respect. The NMR signal from a single molecule is far too weak to be detected, and so it is necessary to use a large number of identical copies to amplify the signal. This is not difficult as even a few milligrams of a chemical compound will contain the required number of molecules. It is however impossible to ensure that all the copies start the calculation in the same initial state, and so different copies will in effect perform different calculations, making it extremely difficult to extract the desired result. This inability to prepare NMR computers in a well defined initial state prevented their use for many years.

75. OUP Nuclear Magnetic Resonance Hore nuclear magnetic resonance spectroscopy is an enormously powerful and versatile physical method for investigating the structure and dynamics of molecules. http://www.oup.co.uk/isbn/0-19-855682-9

76. Nuclear Magnetic Resonance Facilities: Institute For NanoBioTechnology, JHU Associated Research Categories nuclear magnetic resonance Services and Instruments. Advanced biomolecular research structural studies of proteins, http://inbt.jhu.edu/nuclear-magnetic-resonance

home     contact research resources ... X-Ray Facilities First Annual Meeting of the American Academy of Nanomedicine (AANM): August 15-16, 2005, Baltimore, Maryland, USA. Abstract Submission Deadline: June 1, 2005, via online submission. more >> Microcosmos: To make big changes in the world, think small. Very small. (JHU School of Public Health) more >> Molecular Changes: The realms of materials science, biology, and physics join forces... (JHU Whiting School of Engineering) more >> New Light on the Cell: A KSAS biologist is developing an innovative microscope. (JHU Krieger School of Arts and Sciences) more >> Highlights Activity of Key Celluar Signal: A new tool easily reveals when and where a key cellular signal is active. (JHU School of Medicine) more >> Nuclear Magnetic Resonance Facilities Home Facilities Biomolecular NMR Center New Chemistry Building and Hunterian Building, Homewood and East Baltimore campuses

77. UCSC Biomedical Research Facilities - Nuclear Magnetic Resonance nuclear magnetic resonance Facility. The NMR facility is used to examine oligonucleotide, nucleic acid, peptide, and protein structure and folding. http://biomedical.ucsc.edu/NMR.html

Confocal Microscopy Facility Electron Microscopy and Digital Imaging Facility Electron Spin Resonance Facility Microarray Facility ... Proteomics Facility Nuclear Magnetic Resonance Facility The NMR facility is used to examine oligonucleotide, nucleic acid, peptide, and protein structure and folding. Many of these studies involve structures and biochemical mechanisms of cancer and anticancer therapies (including natural and synthesized products), as well as environmental toxins. It houses three high-resolution NMR spectrometers. A state-of-the-art Varian Unity500+ system includes a multinuclear, 3 channel, waveform generator, PFG, automated Z-axis gradient shimming, and inverse detection capabilities. The facility also houses Bruker AC250 and GN-300 systems. The Dept. of Chemistry and Biochemistry manages the facility. Click here for the NMR home page Research Faculty Laboratory Facilities Biocomputing Resources ... Training Programs Biomedical Research Website by William Sullivan and David M. States Last updated April 2, 2005

78. NMR & X-ray Crystallography Glossary LCNMR Liquid Chromatography - nuclear magnetic resonance Nuclear magnetic NMR nuclear magnetic resonance NMR spectroscopy makes it possible to http://www.genomicglossaries.com/content/nmr_email.asp

You are here Biopharmaceutical/ Genomics Glossary homepage/Search Evolving Terminology for Emerging Technologies Comments? Questions? Revisions? mchitty@healthtech.com Last revised September 08, 2005 View a Printer-Friendly Version of this Web Page! Registration policy has details Mr. Ms. Mrs. Dr. Prof. First: Last: Title: Dept.: Company: Address: City: State: Zip: Country: Email: Opt-out of Email YES NO Telephone: Would you like to receive CHI event updates via fax? Yes No Fax: document.FrontPage_Form1.interest.value = 'NMR PST'; Nuclear magnetic resonance (NMR) spectroscopy uses high magnetic fields and radio- frequency pulses to manipulate the spin states of nuclei — including 1H, 13C, and 15N — that have nonzero- spin angular momentum. For a molecule containing such nuclei, the result is an NMR spectrum with peaks whose positions and intensities reflect the chemical environment and nucleic positions within the molecule. As applied to protein- structure analysis, the accuracy now achievable with NMR spectroscopy is comparable to that obtained with X-ray crystallography. Nuclear Magnetic Resonance Spectroscopy, DOE Genomes to Life, US http://www.doegenomestolife.org/technology/nmrspectroscopy.html

79. Nuclear Magnetic Resonance Spectroscopy - RTI International nuclear magnetic resonance Spectroscopy RTI International - Advanced capabilities for measuring chemical compounds and isotopes. http://www.rti.org/page.cfm?nav=303

80. UConn Advance - November 15, 2004 - Nuclear Magnetic Resonance Facility Opens nuclear magnetic resonance Facility Opens by Lucinda Weiss. A new nuclear magnetic resonance (NMR) facility at UConn is providing powerful research tools http://www.advance.uconn.edu/2004/041115/04111501.htm

This is an archived article. For the latest news, go to the Advance Homepage For more archives, go to the Advance Archive/Search Page. November 15, 2004 Nuclear Magnetic Resonance Facility Opens by Lucinda Weiss A new Nuclear Magnetic Resonance (NMR) facility at UConn is providing powerful research tools for biologists, chemists, and pharmaceutical scientists, and supporting a growing collaboration in structural biology between the Storrs campus and the Health Center. The facility, which opened Nov. 4, is housed in the Chemistry Building and operated by the Biotechnology and Bioservices Center. It has three NMR spectrometers, ranging in magnetic field strength from 300 MHz to 600 MHz. Biologists use NMR instruments, which are likened to big superconducting magnets, to study the properties of molecules. With this technology they can see in high resolution and great detail the workings, three-dimensional structures, and dynamics of molecules ranging from small organic compounds to biological polymers, such as proteins and nucleic acids. Super High Resolution The NMR works by magnetizing the nuclei of atoms that have spin, a physical property that makes them behave like tiny bar magnets. Scientists can deduce their properties based on interactions in the strong magnetic field provided by the NMR instrument.

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