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NMR Methodology (nmr + methodology)

Distribution by Scientific Domains
Chemistry50%
Medical Sciences33%

Selected Abstracts

Site-Specific Investigation of the Steady-State Kinetics and Dynamics of the Multistep Binding of Bile Acid Molecules to a Lipid Carrier Protein

CHEMISTRY - A EUROPEAN JOURNAL, Issue 37 2010
Dr. Clelia Cogliati
Abstract The investigation of multi-site ligand,protein binding and multi-step mechanisms is highly demanding. In this work, advanced NMR methodologies such as 2D 1H,15N line-shape analysis, which allows a reliable investigation of ligand binding occurring on micro- to millisecond timescales, have been extended to model a two-step binding mechanism. The molecular recognition and complex uptake mechanism of two bile salt molecules by lipid carriers is an interesting example that shows that protein dynamics has the potential to modulate the macromolecule,ligand encounter. Kinetic analysis supports a conformational selection model as the initial recognition process in which the dynamics observed in the apo form is essential for ligand uptake, leading to conformations with improved access to the binding cavity. Subsequent multi-step events could be modelled, for several residues, with a two-step binding mechanism. The protein in the ligand-bound state still exhibits a conformational rearrangement that occurs on a very slow timescale, as observed for other proteins of the family. A global mechanism suggesting how bile acids access the macromolecular cavity is thus proposed. [source]

NMR studies of chiral organic compounds in non-isotropic phases

CONCEPTS IN MAGNETIC RESONANCE, Issue 3 2008
Marek J. Potrzebowski
Abstract In this article, new applications and perspectives of one- and two-dimensional NMR spectroscopy for study of chiral organic compounds in the non-isotropic phases (solid state and liquid crystals) are presented. The review is organized into five sections. In the first part, theoretical background and short introduction to solid state NMR are shown. The second part presents how NMR isotropic chemical shift can be used for distinguishing of racemates and enantiomers. In the third section, the power of the ODESSA pulse sequence for investigation of racemates, enantiomers and establishing of enantiomeric excess are discussed. The fourth part shows the application of analysis of principal elements of chemical shift tensors obtained by means of 2D NMR techniques for searching of absolute configuration and conformational changes in the solid state. The final part presents recent achievements of chiral liquid crystals NMR methodology for study of chiral compounds. © 2008 Wiley Periodicals, Inc. Concepts Magn Reson Part A 32A:201,218, 2008. [source]

SEQUENCE AND STRUCTURAL ANALYSIS OF ,-CARRAGEENAN-DERIVED OLIGOSACCHARIDES BY TWO-DIMENSIONAL NUCLEAR MAGNETIC RESONANCE,

JOURNAL OF PHYCOLOGY, Issue 4 2010
Wei Zhang
,-Carrageenan was hydrolyzed with mild hydrochloric acid and separated into a series of oligosaccharides, the sequences and structures of which were investigated by double-quantum filtered correlation spectroscopy (DQF-COSY), total correlation spectroscopy (TOCSY), heteronuclear multiple-quantum coherence (HMQC), and heteronuclear multiple-bond correlation (HMBC) techniques, respectively. The chemical structures and conformations of the individual sugar residues were identified, as well as the sequential connectivity of the oligosaccharides. The interresidue nuclear Overhauser effects (NOEs)/rotating frame Overhauser effects (ROEs) revealed an ordered helical structure of the carrageenan oligosaccharide chains. Therefore, a general two-dimensional (2-D) NMR methodology for the unambiguous sequence and structure analysis of ,-carrageenan-derived oligosaccharides was established in this study. [source]

Combined use of nuclear magnetic resonance and infrared spectroscopy for studying recognition processes between amphenicolic antibiotics and albumin

MAGNETIC RESONANCE IN CHEMISTRY, Issue 7 2003
Silvia Martini
Abstract Biological reactions are mostly concerned with selective interactions between small ligands and macromolecular receptors. The same ligands may activate responses of different intensities and/or effects in the presence of different receptors. Many approaches based on spectroscopic and non-spectroscopic methods have been used to study interactions between small ligands and macromolecular receptors, including methods based on NMR and IR spectroscopic analysis of the solution behaviour of the ligand in the presence of receptors. In this work, we investigated the interaction between ovine serum albumin with two amphenicolic antibiotics [chloramphenicol (CAP) and thiamphenicol (TAP)], using a combined approach based on NMR and IR methodologies, furnishing complementary information about the recognition process occurring within the two systems. The two ligands, despite their similar structures, showed different affinities towards albumin. NMR methodology is based on the comparison of selective () and non-selective () spin,lattice relaxation rates of the ligands in the presence and absence of macromolecular receptors and and temperature dependence analysis. From these studies, the ligand,receptor binding strength was evaluated on the basis of the ,affinity index.' The derivation of the affinity index from chemical equilibrium kinetics for both the CAP,albumin and TAP,albumin systems allowed a comparison of the abilities of the two amphenicolic antibiotics to interact with the protein. IR methodology is based on the comparison of the ligand,protein ,complex' spectra with those of the non-interacting systems. On the basis of the differences revealed, a more thorough IR analysis was performed in order to understand the structural changes which occurred on both ligand and protein molecules within the interacting system. Copyright © 2003 John Wiley & Sons, Ltd. [source]

The apparent dependence of the diffusion coefficient of N-acetylaspartate upon magnetic field strength: evidence of an interaction with NMR methodology

NMR IN BIOMEDICINE, Issue 8 2003
David N. Guilfoyle
Abstract An inverse relationship between applied magnetic field strength and the apparent diffusion coefficient (ADC) of several important brain metabolites including N -acetyl- l -aspartate (NAA), choline and creatine, measured in vivo using proton magnetic resonance spectroscopy (MRS), has been reported. In this investigation, using phantom studies of NAA at magnetic field strengths of 3 and 7,T, these observations have been verified under controlled MRS conditions in vitro, and the ADC of NAA has been found to vary inversely with magnetic field strength, decreasing at a rate of 2.5%/T at 20°C. We have also assessed whether the effect is a function of a systemic bias in methodology, or if the effect is actually on the rate of molecular diffusion. This was done using an MRS-independent method for measurement of molecular diffusion in NAA phantoms at 0, 0.025 and 7,T applied magnetic field strengths. As a result, it has been demonstrated that the observed apparent magnetic field dependence of the ADC of NAA is a consequence of the NMR measurement and is apparently not a real effect on molecular diffusion. Copyright © 2003 John Wiley & Sons, Ltd. [source]

Simultaneous 19F NMR Screening of Prolyl Oligopeptidase and Dipeptidyl Peptidase IV Inhibitors

CHEMBIOCHEM, Issue 8 2010
Nessim Kichik
Abstract Prolyl oligopeptidase (POP) and dipeptidyl peptidase IV (DPP IV) are serine proteases that belong to the same family of enzymes. These peptidases are relevant because of their association with the pathophysiology of serious illnesses, such as type 2 diabetes (DPP IV), and those related to cognitive disorders (POP). Several NMR-based screening methods are being used to find and validate new hit scaffolds. In particular, 19F NMR-based screening methods have proven to be powerful tools for the discovery and development of new inhibitors. Here we present an accurate and reliable 19F NMR-based simultaneous assay that is used to screen for new selective POP and DPP IV inhibitors in compound mixtures. This activity assay consists of the simultaneous performance of POP and DPP-IV 19F NMR activity assays in the presence of their fluorine-containing substrates. Furthermore, the assays were conducted in the presence of 0.01,% v/v of Triton X-100, which is a detergent that disrupts micelle formation, thereby preventing unspecific aggregate-based inhibition. Finally, this 19F NMR methodology was applied to screen for ligands in plant extracts. Our results indicate that this method allows the simultaneous and accurate identification of selective POP and DPP IV inhibitors in these compound mixtures. [source]