Search results for "MR Spectroscopy"

showing 10 items of 125 documents

Phosphorus NMR as a tool to study mineralization of organophosphonates—The ability of Spirulina spp. to degrade glyphosate

2007

Abstract A commercially available mixed culture of Spirulina spp. exhibited a remarkable ability to degrade the widely used organophosphorus herbicide glyphosate, that served as sole source of either phosphorus or nitrogen for cyanobacterial growth. 31P NMR analysis of spent media appeared to be an effective and simple technique to follow disappearance of the phosphonate and release of inorganic phosphate in biodegradation process(es).

CyanobacteriabiologyBioengineeringMineralization (soil science)Spirulina sppBiodegradationbiology.organism_classificationApplied Microbiology and BiotechnologyBiochemistryPhosphonatebiodegradationchemistry.chemical_compoundBiochemistrychemistryglyphosateEnvironmental chemistryGlyphosate31P NMROrganophosphonatesPhosphorus-31 NMR spectroscopy31 P NMRSpirulina spp.Glyphosate; Biodegradation; 31P NMR; Spirulina spp.BacteriaBiotechnologyEnzyme and Microbial Technology
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Structure of SNX9 SH3 in complex with a viral ligand reveals the molecular basis of its unique specificity for alanine-containing class I SH3 motifs

2021

Class I SH3 domain-binding motifs generally comply with the consensus sequence [R/K]x0PxxP, the hydrophobic residue 0 being proline or leucine. We have studied the unusual 0 = Ala-specificity of SNX9 SH3 by determining its complex structure with a peptide present in eastern equine encephalitis virus (EEEV) nsP3. The structure revealed the length and composition of the n-Src loop as important factors determining specificity. We also compared the affinities of EEEV nsP3 peptide, its mutants, and cellular ligands to SNX9 SH3. These data suggest that nsP3 has evolved to minimize reduction of conformational entropy upon binding, hence acquiring stronger affinity, enabling takeover of SNX9. The R…

DYNAMICSPROLINE-RICH PEPTIDESviruksetPROTEINSvirusesHTLV-1 GagLigandsEVOLUTIONARY CONSERVATIONalfaviruksetsrc Homology DomainsHIGH-AFFINITYretroviruksetDOMAINStructural BiologyBINDINGAnimalsHorsesMolecular Biologysoluviestintä11832 Microbiology and virologyAlanineBinding SitesPXXP MOTIFSisothermal titration calorimetrySH3solution NMR spectroscopyEEEV nsP3HIV-11182 Biochemistry cell and molecular biologyproteiinitCHEMICAL-SHIFTS3111 BiomedicinePeptidesSNX9Protein Binding
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Ruthenium Metallodendrimers Based on Nitrile‐Functionalized Poly(alkylidene imine)s

2005

The preparation of the first- and second-generation of nitrile-functionalized poly(alkylidene imine) dendrimers with the organometallic ruthenium complex [Ru(η5-C5H5)(PPh3)2Cl] peripherally attached is described. The reaction of N,N′-bis(cyanomethyl)piperazine (1), N,N′-bis[N′′,N′′′-bis(cyanoethyl)aminoethyl]piperazine (2), or N,N,N′,N′-tetrakis(cyanoethyl)ethylenediamine (3) with [Ru(η5-C5H5)(PPh3)2Cl] (4) in the presence of TlPF6 gives the new air-stable ruthenium metallodendrimers 5, 6, and 7, respectively. These stable metallodendrimers are easily prepared and represent a novel quantitative method to solidify and chromatographically purify the otherwise semi-liquid nitrile-functionalize…

DendrimersNitrileIminechemistry.chemical_elementEthylenediamineSandwich complexes.Mass spectrometryRutheniumRutheniumInorganic ChemistryFaculdade de Ciências Exatas e da Engenhariachemistry.chemical_compoundPiperazineN ligandschemistryDendrimerPolymer chemistryOrganic chemistry31p nmr spectroscopyEuropean Journal of Inorganic Chemistry
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1H, 13C and 17O NMR spectral study of chlorinated 3,4-dihydroxybenzaldehydes (protocatechualdehydes)

1995

Abstract Chlorinated 3,4-dihydroxybenzaldehydes have been studied by means of 1 H, 13 C and 17 O NMR spectroscopy. The 1 H and 13 C NMR spectral assignments are based on 2-dimensional 13 C- 1 H chemical shift correlation spectroscopy (COSY). The 17 O NMR measurements at natural isotope content in organic solvents are problematic owing to the poor solubility of the compounds and/or broadness of the resonance lines. In aqueous alkaline solutions, however, all protocatechualdehydes exhibit “easy-to-detect” 17 O NMR spectral characteristics. The 17 O NMR chemical shifts in the range of 140–480 p.p.m. are interpreted as arising from the different canonical structures of formyl substituted phenol…

Deuterium NMRChemistryCarbon-13 NMR satelliteAnalytical chemistryNuclear magnetic resonance spectroscopyNuclear magnetic resonance crystallographyFluorine-19 NMRCarbon-13 NMRAtomic and Molecular Physics and OpticsAnalytical ChemistryProton NMRPhysical chemistryPhosphorus-31 NMR spectroscopyInstrumentationSpectroscopySpectrochimica Acta Part A: Molecular and Biomolecular Spectroscopy
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13C and15N NMR study of substituted 1,2,4-triazines

1995

13C and 15N NMR spectra of eight substituted 1,2,4-triazines were measured and assigned. The assignments of the 13C NMR spectra were based on the substituent chemical shifts and nJ(C,H) coupling constants. 15N NMR chemical shifts generally showing well separated ranges were assigned by the proton coupled 15N NMR spectra. 15N NMR chemical shifts of N-4 in 3- and 5-methoxy or -thiomethyl-substituted 1,2,4-triazines were found to be related significantly (confidence level >99%) with the π-charge at N-4 calculated by a semi-empirical molecular orbital (AM1) procedure. For the 15N NMR chemical shifts of N-1 and N-2, no reliable correlations with the molecular electronic properties such as AM1 π-…

Deuterium NMRChemistryCarbon-13 NMR satelliteAnalytical chemistryProton NMRPhysical chemistryGeneral Materials ScienceTransverse relaxation-optimized spectroscopyPhosphorus-31 NMR spectroscopyGeneral ChemistryNuclear magnetic resonance spectroscopyFluorine-19 NMRCarbon-13 NMRMagnetic Resonance in Chemistry
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?-Phenylsulfonyl-N-arylacetamides (?-phenylsulfonylacetanilides):1H,13C and15N NMR spectral characterization

2000

Deuterium NMRChemistryNMR spectroscopy of stereoisomersCarbon-13 NMR satelliteAnalytical chemistryProton NMRPhysical chemistryGeneral Materials SciencePhosphorus-31 NMR spectroscopyTransverse relaxation-optimized spectroscopyGeneral ChemistryFluorine-19 NMRCarbon-13 NMRMagnetic Resonance in Chemistry
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Combined proton NMR wideline and NMR relaxometry to study SOM-water interactions of cation-treated soils

2013

Abstract Focusing on the idea that multivalent cations affect SOM matrix and surface, we treated peat and soil samples by solutions of NaCl, CaCl2 or AlCl3. Water binding was characterized with low field 1H-NMR-relaxometry (20 MHz) and 1H wideline NMR spectroscopy (400 MHz) and compared to contact angles. From 1H wideline, we distinguished mobile water and water involved in water molecule bridges (WaMB). Large part of cation bridges (CaB) between SOM functional groups are associated with WaMB. Unexpectedly, 1H NMRrelaxometry relaxation rates suggest that cross-linking in the Al-containing peat is not stronger than that by Ca. The relation between percentage of mobile water and WaMB water in…

Dewey Decimal Classification::500 | Naturwissenschaften::550 | GeowissenschaftenDewey Decimal Classification::500 | Naturwissenschaften::570 | Biowissenschaften BiologieDewey Decimal Classification::600 | Technik::630 | Landwirtschaft VeterinärmedizinAnalytical chemistrySoil organic matter (SOM); Low field 1H NMR relaxometry; 1H wideline NMR spectroscopy; Contact angle; Cation bridges; Water molecule bridges.TA Engineering (General). Civil engineering (General)soil organic matter (som)Low field H-1 NMR relaxometrystateContact angleNuclear magnetic resonancewater molecule bridgesddc:550ddc:630natural organic-mattercontact angleWater Science and TechnologyFluid Flow and Transfer Processeschemistry.chemical_classificationhumic substancesWater molecule bridges.Nuclear magnetic resonance spectroscopycation bridgesCation bridgemultiexponential decay datanuclear-magnetic-resonanceH-1 wideline NMR spectroscopyProton NMRWater bindingTC1-978Relaxometryuniform-penalty inversionlow field 1h nmr relaxometrySettore AGR/13 - Chimica AgrariaContext (language use)1h wideline nmr spectroscopyforest soilsCation bridgesddc:570sandy soilOrganic mattercontact-angleContact angleSoil organic matter (SOM)repellencyMechanical EngineeringHydraulic engineeringchemistrySoil waterWater molecule bridgesJournal of Hydrology and Hydromechanics
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Thermal, spectroscopic and crystallographic analysis of mannose-derived linear polyols

2018

The major diastereomer formed in the Barbier-type metal-mediated allylation of D-mannose has previously been shown to adopt a perfectly linear conformation, both in solid state and in solution, resulting in the formation of hydrogen-bonded networks and subsequent aggregation from aqueous solution upon stirring. Here, a comprehensive study of the solid state structure of both the allylated D-mannose and its racemic form has been conducted. The binary melting point diagram of the system was determined by differential scanning calorimetry analysis, and the obtained results, along with structure determination by single crystal X-ray diffraction, confirmed that allylated mannose forms a true rac…

DiffractionMaterials science010402 general chemistry01 natural sciencesDifferential scanning calorimetryNMR spectroscopycrystalsGeneral Materials SciencekalorimetriaNMR-spektroskopiata116x-ray crystallographyAqueous solution010405 organic chemistryDiastereomerGeneral ChemistryCondensed Matter Physicskiteet0104 chemical sciencessokerialkoholitCrystallographysugar alcoholsPolymorphism (materials science)Melting pointEnantiomerSingle crystalcalorimetryröntgenkristallografia
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Carbonyl Hypoiodites as Extremely Strong Halogen Bond Donors

2021

Abstract Neutral halogen‐bonded O−I−N complexes were prepared from in situ formed carbonyl hypoiodites and aromatic organic bases. The carbonyl hypoiodites have a strongly polarized iodine atom with larger σ‐holes than any known uncharged halogen bond donor. Modulating the Lewis basicity of the selected pyridine derivatives and carboxylates leads to halogen‐bonded complexes where the classical O−I⋅⋅⋅N halogen bond transforms more into a halogen‐bonded COO−⋅⋅⋅I−N+ ion‐pair (salt) with an asymmetric O−I−N moiety. X‐ray analyses, NMR studies, and calculations reveal the halogen bonding geometries of the carbonyl hypoiodite‐based O−I−N complexes, confirming that in the solid‐state the iodine at…

Halogen Bondingpyridineinorganic chemicalsHalogen bondOrganic basehalogeenitCommunicationSupramolecular chemistryGeneral ChemistryNuclear magnetic resonance spectroscopyGeneral MedicinehypoioditeMedicinal chemistryCatalysisCommunicationssupramolecular chemistrychemistry.chemical_compoundkemialliset sidoksetNMR spectroscopychemistryPyridineTrifluoroacetic acidsupramolekulaarinen kemiaMoietyCarboxylateAngewandte Chemie
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Hydrogen bonding and proton transfer involving the trihydride complexes Cp*M(dppe)H 3 (M = Mo, W) and fluorinated alcohols: the competitive role of t…

2003

International audience; The protonation of complexes Cp*M(dppe)H3 (dppe is ethylenebis(diphenylphosphine), M = Mo (1), W (2)) by a variety of fluorinated alcohols of different acid strength (FCH2CH2OH, CF3CH2OH, (CF3)2CHOH, and (CF3)3COH) was investigated experimentally by the variable temperature spectroscopic methods (IR, NMR) and stopped-flow technique (UV-Vis). The structures of the hydrogen-bonded and proton transfer products were studied by DFT calculations. In agreement with the calculation results, the IR data suggest that the initial hydrogen bond is established with a hydride site for complex 1 and with the metal site for complex 2. However, no intermediate dihydrogen complex foun…

Hydrogen bondingTheoretical studyUv-vis NMR spectroscopyInorganic chemistryTransition metal polyhydridesInfrared spectroscopyProtonation010402 general chemistry01 natural sciencesProton transferMetalchemistry.chemical_compound[CHIM.COOR]Chemical Sciences/Coordination chemistrychemistry.chemical_classificationDiphenylphosphine010405 organic chemistryHydrogen bondChemistryHydrideGeneral Chemistry0104 chemical sciencesCrystallographyAcid strengthvisual_artvisual_art.visual_art_mediumIRDihydrogen complex
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