02516cam a22003495i 450000100090000000300090000900500170001800800410003502000150007602000180009104000430010908200190015210000370017124502750020826400360048326400100051930000470052933600260057633700280060233800270063049000440065750400520070150510820075365000270183565000520186265300210191465500170193570000330195294200120198599900170199795201520201415425479EG-ScBUE20251221110934.0080823t2006    ne a   f b    001 0 eng d  a1402034997  a9781402034992  aEG-ScBUEbengerdacEG-ScBUEdEG-ScBUE04222a547.7bRUL1 aRule, Gordon S.,939551eauthor.10aFundamentals of protein NMR spectroscopy /cby Gordon S. Rule, Department of Biological Sciences, Carnegie Mellon University, Pittsburgh, PA, U.S.A., and T. Kevin Hitchens, Pittsburgh NMR Center for Biomedical Research, Carnegie Mellon University, Pittsburgh, PA, U.S.A. 1aDordrecht : bSpringer,c[2006] 4cc2006  axxvi, 530 pages :billustrations ;c25 cm.  2rdacontentatextbtxt  aunmediated2rdamediabn  avolumebnc2rdacarrier0 aFocus on structural biology ;vvolume 5  aIncludes bibliographical references and index.
0 aNMR spectroscopy. -- Practical aspects of acquiring NMR spectra. -- Introduction to signal processing. -- Quantum mechanical description of NMR. -- Quantum mechanical description of a one pulse experiment. -- The density matrix & product operators. -- Scalar coupling. -- Coupled spins: density matrix and product operator formalism. -- Two dimensional homonuclear J-correlated spectroscopy. -- Two dimensional heteronuclear J-correlated spectroscopy. -- Coherence editing: pulsed-field gradients and phase cycling. -- Quadrature detection in multi-dimensional NMR spectroscopy. -- Resonance assignments: homonuclear methods. -- Resonance assignments: heteronuclear methods. -- Practical aspects of N-dimensional data acquisition and processing. -- Dipolar coupling. -- Protein structure determination. -- Exchange processes. -- Nuclear spin relaxation and molecular dynamics. -- Appendices: A. Fourier transforms ; B. Complex variables, scalars, vectors, and tensors ; C. Solving simultaneous differential equations: Laplace transforms ; D. Building blocks of pulse sequences. 7aMacromolecules.2BUEsh 7aNuclear magnetic resonance spectroscopy.2BUEsh  bPPhrmcMarch2016  vReading book1 aHitchens, T. Kevin,eauthor.  2ddccBB  c21410d21382  00102ddc40708ScientificaMAINbMAINc1STd2016-03-14ePurchaseg760.00h1l0o547.7 RULp000032039r2025-07-15 00:00:00v950.00w2016-03-14yBB