41. Nuclear Magnetic Resonance Spectroscopy A summary of nuclear magnetic resonance spectroscopy, a technology which will be needed and used for the GenomicsGTL program. http://doegenomestolife.org/technology/nmrspectroscopy.shtml

Human Genome Project Information Genomics:GTL Microbial Genome Program home ... Glossary Related Imaging Technologies Mass Spectrometry Microarray Technologies: DNA, Proteins, and Beyond Phage Display ... Nuclear Magnetic Resonance Spectroscopy U.S. Department of Energy Office of Science Genomics:GTL Accelerating Discovery for Energy and Environment About GTL GTL Research User Facilities Impacts ... Enabling Technologies Nuclear Magnetic Resonance Spectroscopy Environmental Molecular Sciences Laboratory's 800-MHz NMR spectrometer at Pacific Northwest National Laboratory Click for larger image. Environmental Molecular Sciences Laboratory's 800-MHz NMR spectrometer at Pacific Northwest National Laboratory On the other hand, NMR historically has been limited in two important ways. First, protein-structure determination by NMR methods has been limited to relatively small proteins, that is, those smaller than about 40 kD. Second, data collection for a single protein structure typically has required weeks, as compared with the minutes or hours needed for X-ray crystallography. Recent advances on four fronts have significantly lessened these limitations, however. They are (1) development of instruments using higher magnetic fields and higher radio frequencies, thus improving sensitivity and resolution; (2) novel use of isotopic labeling, and (3) development of sophisticated experimental methods that can differentially manipulate nuclear spins, thus enabling studies of proteins up to 150 kD [K. Pervushin et al.

42. Practical Applications Of NMR Spectroscopy In Biochemistry. This course provides a graduate level introduction to the use of modern multidimensional NMR techniques for study of biopolymers in solution. Both classical and quantum descriptions of nuclear magnetic resonance are described, followed by a discussion of the fundamentals of data processing and biopolymer structure determination. http://stingray.bio.cmu.edu/~web/nmr/index_nmr.html

Course Announcement - Structural Biophysics 03-871 Practical Applications of NMR Spectroscopy in Biochemistry. Instructor: Gordon Rule Course Description: This course provides a graduate level introduction to the use of modern multi-dimensional NMR techniques to the study of the structure and dynamics of biological polymers. The intent of this course is to give the student a working knowledge of the applications of modern multi-dimensional NMR in Biology and Chemistry. This course is divided into roughly three parts: Classical Description of Magnetic Resonance Fundamentals of Data Acquisition and Processing Biopolymer Structure Determination Course Organization: The course grade will be determined from problem sets (20%), mid-term examination (40%) and final examination (40%). Prerequisites: There are no established prerequisites for this course. However, it would be useful if students have some exposure to the following: Introductory quantum mechanics (at the level of undergraduate Physical Chemistry) Simple Linear algebra (matrix manipulation, complex numbers)

43. Biological Nuclear Magnetic Resonance Biologically equipped 500MHz and 800MHz shielded NMR spectrometers with cryoprobe The NMR Opens in new window facility is available for screening of http://www3.imperial.ac.uk/portal/page?_pageid=90,358431&_dad=portallive&_schema

44. Year 2: NMR Spectroscopy Preamble What nuclear magnetic resonance Can Measure Principles of nuclear magnetic resonance A Collection of Identical Protons http://www.ch.ic.ac.uk/local/organic/nmr.html

Click Here for an Index search. Browse through the Global Instructional Chemistry pages. NMR Spectroscopy. Principles and Application. Six second year lectures given at Imperial College by Henry Rzepa http://www.ch.ic.ac.uk/local/organic/nmr.html Index of Lectures Pre-amble What Nuclear Magnetic Resonance Can Measure Principles of Nuclear Magnetic Resonance A Collection of Identical Protons ... Using The gNMR Spectral Simulation Program Information Sources about NMR Recommended text: R. M. Silverstein, G. C. Bassler and T. C. Morrill, Spectrometric Identification of Organic Compounds , 5th Ed., Wiley, 1991. Links to more NMR information NMR Home Page NMR Books Compilation of Educational NMR Software (version 1.1.1) ... Another Lecture Course in Organic Spectroscopy by William Jenks

45. Small Molecule NMR Conference The Small Molecule NMR Conference NMR Conference is dedicated to the study of small molecules by nuclear magnetic resonance. http://www.smashnmr.org

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46. Nuclear Magnetic Resonance - Wikipedia, The Free Encyclopedia nuclear magnetic resonance (NMR) is a physical phenomenon based upon the magnetic property NMR studies a magnetic nucleus, like that of a hydrogen atom, http://en.wikipedia.org/wiki/NMR

Nuclear magnetic resonance From Wikipedia, the free encyclopedia. (Redirected from NMR Pacific Northwest National Laboratory's high magnetic field (800 MHz) NMR spectrometer being loaded with sample. Nuclear magnetic resonance NMR ) is a physical phenomenon based upon the magnetic property of an atom's nucleus . NMR studies a magnetic nucleus, like that of a hydrogen atom, by aligning it with an external magnetic field and perturbing this alignment using an electromagnetic field . The response to the field (the perturbing), is what is exploited in NMR spectroscopy and magnetic resonance imaging NMR spectroscopy is one of the principal techniques used to obtain physical, chemical, electronic and structural information about a molecule . Also, NMR is one of the techniques that has been used to build quantum computers Contents History Uses of NMR Theory of nuclear magnetic resonance Nuclear spin and magnets ... edit History NMR was first described independently by Felix Bloch and Edward Mills Purcell in , (both of whom shared the Nobel Prize in physics in for their discovery). Purcell had worked on the development and application of

47. 1H NMR - Intro Tutorial and exercises on nuclear magnetic resonance. http://www.wfu.edu/~ylwong/chem/nmr/h1/

H NMR Spectroscopy for CHM 222L Professor: S. Bruce King Yue-Ling Wong NMR Intro No. of Diff. Hydrogens Integration Chemical Shift Splitting ... Web Resources Predict Spectrum I: **Select one:** Benzyl Alcohol Bromoethane t-Butyl Acetate 1,3-Dichloropropane Ethyl Acetate Ethylmethylketone Methylbenzene 2-Nitrosopropane 1,1,2-Trichloroethane Predict Spectrum II: **Select one:** Aspirin 1-Bromopentane 2-Chlorobutane Ethyl Acetate Ethyliodide Peak Assignments: **Select one:** Aspirin 1-Bromopentane 2-Chlorobutane Ethyl Acetate Ethyliodide quick review H NMR Intrepretation Tutorial Proton Nuclear Magnetic Resonance ( H NMR) Spectroscopy is a powerful method used in the determination of the structure of unknown organic compounds. During Chemistry 222 lab you will be using NMR extensively to help assign structures to two unknown organic compounds and this tutorial and exercises will hopefully help you solve your unknown. To remind you of some things that you probably already know about the basic workings of an NMR and interpreting NMR spectra: The H NMR spectrum of an organic compound provides information concerning: the # of different types of hydrogens present in the molecule the relative #'s of the different types of hydrogens the electronic environment of the different types of hydrogens

48. Solid-state NMR - Wikipedia, The Free Encyclopedia See also nuclear magnetic resonance or NMR spectroscopy articles for an account on discoveries in NMR and NMR spectroscopy in general. http://en.wikipedia.org/wiki/Solid-state_NMR

Solid-state NMR From Wikipedia, the free encyclopedia. Solid-state NMR SSNMR ) spectroscopy is a kind of nuclear magnetic resonance (NMR) spectroscopy, characterized by the presence of anisotropic (directionally dependent) interactions. Contents Introduction Nuclear spin interactions in the solid phase Chemical shielding J-coupling (scalar coupling) ... edit Introduction Basic concepts A nuclear spin can interact with a magnetic or electric field. Spatial proximity or a chemical bond between two atoms can give rise to interactions of the nuclear spins with each other. In general, these interactions are orientation dependent. In media with no or little mobility (e.g. crystals powders, large membrane vesicles, molecular aggregates), anisotropic interactions have a substantial influence on the behaviour of a system of nuclear spins. In contrast, in a classical solution-state NMR experiment, Brownian motion leads to an averaging of anisotropic interactions. In such cases, these interactions can be neglected on the time-scale of the NMR experiment. Examples of anisotropic nuclear interactions Two directionally dependent interactions commonly found in solid-state NMR are the chemical shift anisotropy (CSA) and the internuclear dipolar coupling . Many more such interactions exist, such as the anisotropic J-coupling in NMR, or in related fields, such as the g-tensor in EPR. In mathematical terms, all these interactions can be described using the same formalism.

49. Process NMR Associates - NMR Services And Consulting Consultants Offering Analytical NMR Testing and Online Process NMR Application Development. Commercial nuclear magnetic resonance spectroscopy services and consulting. http://www.process-nmr.com/index.html

Home Analytical NMR Services Process NMR Applications ... Directions We Accept MC/Visa/AmEx We also accept PayPal Process NMR Associates, LLC "Bringing NMR Online" Process analytical consulting company specializing in the application of nuclear magnetic resonance (NMR) spectroscopy in on-line applications in the refining, petrochemical, pharmaceutical, and food industries. Owns and operates a high field (300 MHz) analytical NMR service laboratory for multinuclear and multidimensional NMR studies, and operates a 200 MHz solid-state NMR spectrometer for multinuclear studies utilizing magic angle spinning and cross polarization techniques. Offering training programs tailored to develop and enhance small academic or industrial corporation NMR operations. Developers of a unique high field NMR chemometric database facilitating expansion of NMR analysis capabilities to yield physical and chemical properties for a broad range of materials. Over 40 years of experience in the field of Nuclear Magnetic Resonance Spectroscopy applied to all aspects of the petroleum, petrochemical and food industries. Services 300 MHz Liquid-State NMR Analysis - Multinuclear 1D and 2D - HETCOR, DEPT, COSY, HMQC, HMBC -

50. NMR - Nuclear Magnetic Resonance NMR nuclear magnetic resonance. Please note Support for this service has been stopped. Use. http//www.chemie.de/. instead. http://www.chemie.fu-berlin.de/chemistry/index/spectr/nmr/

NMR - Nuclear Magnetic Resonance Please note: Support for this service has been stopped. Use http://www.chemie.de/ instead. Subdirectories References Analysing 2D NMR Spectra [en] Anleitung zum Messen und Bearbeiten von NMR-Spektren (Bruker AM, AC) [de] Automatic Prediction of H-1 NMR Chemical Shifts (Renate Buergin Schaller) [en] Compilation of Educational NMR Software [en] ... Chemie.DE Chemistry Internet Information Service (under construction) Searchable Chemistry Index Top Level of Hierarchical Chemistry Index

51. Varian NMR Instruments A manufacturer of nuclear magnetic resonance instruments, including consoles, probes, and software. Requires registration for full use. http://www.varianinc.com/cgi-bin/nav?varinc/docs/nmr/index

52. ScienceSoft's NMR Software Site Automated optimization and analysis of multidimensional nuclear magnetic resonance spectra using NMRanalyst (FRED), AssembleIt, LockIt, and ShimIt. http://www.sciencesoft.net/

ScienceSoft NMRanalyst AssembleIt 3D NMR ShimIt ... Site Map ScienceSoft's NMR Software Site Nuclear Magnetic Resonance (NMR) is a leading spectroscopic method for scientific and medical applications. After 50 years of development, the use of NMR spectrometers is largely automated. But the analysis and interpretation of acquired data remains to be done manually. ScienceSoft LLC develops software to automate the multidimensional NMR data analysis. Our best known product is NMRanalyst TM marketed by Varian, Inc. This Web site (1) describes our NMRanalyst AssembleIt TM FindIt ... TM , and ShimIt TM software, (2) explains our automated analysis technology, (3) supplies software documentation, and (4) provides software support . To purchase NMRanalyst or to obtain a free demo Windows NMRanalyst, please contact a Varian, Inc. sales representative Latest Developments AssembleIt's molecular skeleton determination from sensitive proton detected NMR is now applicable to larger molecules. With our new HMBC Weak threshold, our sample applications can be solved in one minute each.

53. JEOL USA nuclear magnetic resonance FacilityA description of courses available from the University of Arizona. http://www.jeol.com/nmr/nmr.html

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54. Nuclear Magnetic Resonance (nmr) Menu A very simple and very good guide to interpretation of proton spectra. Very Useful for one and all. http://www.chemguide.co.uk/analysis/nmrmenu.html#top

Understanding Chemistry NUCLEAR MAGNETIC RESONANCE MENU Background . . . An explanation of how an NMR spectrum arises, and the meaning of the term "chemical shift". Low resolution NMR spectra . . . How a low resolution NMR spectrum is used to identify where the hydrogen atoms in a molecule are. Read this before you go on to high resolution spectra. High resolution NMR spectra . . . Looks at the additional information which you can get from a high resolution NMR spectrum. Integrator traces . . . How to find the ratio of the numbers of differently placed hydrogen atoms from an integrator trace. Go to instrumental analysis menu . . . Go to Main Menu . . .

55. National Center For Nuclear Magnetic Resonance Of Macromolecules - English Versi NMR in Brazil, an extensive list of links. http://cnrmn.bioqmed.ufrj.br/en/

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56. Stanford Magnetic Resonance Laboratory (Stanford NMR Facility) Stanford Magnetic Resonance Laboratory (SMRL) is a nuclear magnetic resonance (NMR) spectroscopy facility and resource for the Stanford research community. http://smrl.stanford.edu/

HOME INSTRUMENTATION NMR TIME RESEARCH ... Location Nuclear Magnetic Resonance (NMR) Facility and Resource for the Stanford Research Community Announcing: Erice 2005 : 22 June - 3 July 2005 INTERNATIONAL SCHOOL OF STRUCTURAL BIOLOGY AND MAGNETIC RESONANCE 7th Course: Structure and Biophysics - New Technologies for Current Challenges in Biology and Beyond SMRL 800 MHz NMR Magnet Bio-X Structural Biology School of Medicine Stanford University Last Modified: " + document.lastModified + ""); // >

57. Nuclear Magnetic Resonance -- From Eric Weisstein's World Of Physics Bagguley, DMS Pulsed Magnetic ResonanceNMR, ESR, and Optics A Sanders, JKM and Constable, EC Modern NMR Spectroscopy A Workbook of Chemical Problems, http://scienceworld.wolfram.com/physics/NuclearMagneticResonance.html

Modern Physics Particle Physics Magnetic Resonance Nuclear Magnetic Resonance Nuclear Magnetic Resonance Spectroscopy References Abragam, A. The Principles of Nuclear Magnetism: The International Series of Monographs on Physics. Oxford, England: Oxford University Press, 1961. Bagguley, D. M.S. Pulsed Magnetic Resonance-NMR, ESR, and Optics: A Recognition of E. L. Hahn. Oxford, England: Oxford University Press, 1992. Goldman, M. Quantum Description of High-Resolution NMR in Liquids. Oxford, England: Oxford University Press, 1988. Hennel, J. W. and Klinowski, J. Fundamentals of Nuclear Magnetic Resonance. Harlow, Essex, England: Longman Scientific and Technical, 1993. Mallinson, J. C. The Foundations of Magnetic Recording, 2nd ed. Boston: Academic Press, 1993. Sanders, J. K. M. and Constable, E. C. Modern NMR Spectroscopy: A Workbook of Chemical Problems, 2nd ed. Oxford, England: Oxford University Press, 1993. Slichter, C. P. Principles of Magnetic Resonance, 3rd, enl. upd. ed. Berlin: Springer-Verlag, 1992. Weisstein, E. W. "Books about Nuclear Magnetic Resonance."

58. Nuclear Magnetic Resonance Spectroscopy -- From Eric Weisstein's World Of Physic nuclear magnetic resonance Spectroscopy. By applying a magnetic field, nuclear energy levels are split. By observing nuclear transitions in the microwave http://scienceworld.wolfram.com/physics/NuclearMagneticResonanceSpectroscopy.htm

Modern Physics Particle Physics Magnetic Resonance Modern Physics ... General Spectroscopy Nuclear Magnetic Resonance Spectroscopy By applying a magnetic field, nuclear energy levels are split. By observing nuclear transitions in the microwave and radio portions of the spectrum, the energy level structure can be determined. The amount of shielding for the nucleus of interest depends on its electronic environment, so atoms in different material have different NMR spectra. In practice, the sample is spun in order to avoid strong inhomogeneities. If the solid sample is tilted at the " magic angle " of 54.7°, perturbations from the spinning vanish. The sample is then bombarded with a pulse of radio waves by a transmitter coil, and the emitted intensity is measured as a function of time by the same coil. A fast Fourier transform is then performed on the data to get intensity as a function of frequency. NMR spectra have sharp lines in magnetically homogeneous environments. Typically, " spinning sidebands " are also present, but will be absent is the species being studied is chemically mobile and dynamically free to move randomly. NMR spectroscopy on material thought to be from nearly an impact crater conclusively indicates the presence of stishovite (a high

59. OCMS Facilities Guide: NUCLEAR MAGNETIC RESONANCE Core Facility 2 x 500 MHz NMR spectrometers; 2 x 600 MHz NMR spectrometers; 1 x 750 MHz NMR The NMR facility is used for the study of protein structure, function, http://www.ocms.ox.ac.uk/ocms/handbook/hbkNMR.html

OCMS Research OCMS Facilities FACILITIES available to OCMS researchers Welcome to OCMS: Admin, Seminars etc. NUCLEAR MAGNETIC RESONANCE Core Facility CONTACTS: Dr Jonathan Boyd (75185), email: jboyd@bioch.ox.ac.uk soffe@bioch.ox.ac.uk EQUIPMENT: 2 x 500 MHz NMR spectrometers 2 x 600 MHz NMR spectrometers 1 x 750 MHz NMR spectrometer TECHNIQUES / SERVICES AVAILABLE: The NMR facility is used for the study of protein structure, function, folding and dynamics. The spectrometers are equipped to collect all up to date experiments including 3-D datasets using 15N and 13C inverse detection techniques. No service facility is available as all machine time is allocated to projects by negotiation with Prof I D Campbell. HOW TO GET STARTED: Contact Prof Iain Campbell (75346) to discuss potential projects. RELATED SERVICES AVAILABLE: NMR Computing facility Small molecule NMR Solid State NMR Tony Watts Information updated 3/2/03. Please send any future amendments to Lindsay Battle , OCMS Information Officer.

60. Nuclear Magnetic Resonance (NMR) Basics From Varian, Inc. A simple guide to nuclear magnetic resonance (NMR) explaining how NMR Spectrometers work and what key components are needed for running an NMR Spectrometer. http://www.varianinc.com/cgi-bin/nav?corp/businesses/nmr/index&cid=NMJIPMFI

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