Search results for " Structural Biology"

showing 10 items of 21 documents

Bamboo-like Chained Cavities and Other Halogen-Bonded Complexes from Tetrahaloethynyl Cavitands with Simple Ditopic Halogen Bond Acceptors

2018

Halogen bonding provides a useful complement to hydrogen bonding and metal-coordination as a tool for organizing supramolecular systems. Resorcinarenes, tetrameric bowl-shaped cavitands, have been previously shown to function as efficient scaffolds for generating dimeric capsules in both solution and solid-phase, and complicated one-, two-, and three-dimensional frameworks in the solid phase. Tetrahaloethynyl resorcinarenes (bromide and iodide) position the halogen atoms in a very promising “crown-like” orientation for acting as organizing halogen-bond donors to help build capsules and higher-order networks. Symmetric divalent halogen bond acceptors including bipyridines, 1,4-dioxane, and 1…

Materials sciencekemiaobligaatiotIodidehalogen bondsSupramolecular chemistrychemistry010402 general chemistry01 natural scienceschemistry.chemical_compoundBromidePhase (matter)halogensGeneral Materials Scienceta116Biochemistry Biophysics and Structural BiologyOctanebondschemistry.chemical_classificationHalogen bondta114halogeenit010405 organic chemistryHydrogen bondGeneral ChemistryCondensed Matter PhysicsCombinatorial chemistry0104 chemical sciencesChemistrychemistryHalogenhalogen-bonded complexes

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Insights into the catalytic mechanism of human sEH phosphatase by site-directed mutagenesis and LC-MS/MS analysis

2008

We have recently reported that human soluble epoxide hydrolase (sEH) is a bifunctional enzyme with a novel phosphatase enzymatic activity. Based on a structural relationship with other members of the haloacid dehalogenase superfamily, the sEH N-terminal phosphatase domain revealed four conserved sequence motifs, including the proposed catalytic nucleophile D9, and several other residues potentially implicated in substrate turnover and/or Mg(2+) binding. To enlighten the catalytic mechanism of dephosphorylation, we constructed sEH phosphatase active-site mutants by site-directed mutagenesis. A total of 18 mutants were constructed and recombinantly expressed in Escherichia coli as soluble pro…

Models MolecularEpoxide hydrolase 2Molecular Sequence DataPhosphatase10050 Institute of Pharmacology and Toxicology610 Medicine & healthMass SpectrometryPhosphatesDephosphorylation1315 Structural BiologyProtein structureStructural Biology1312 Molecular BiologyHumansPhosphofructokinase 2Amino Acid SequenceBinding siteProtein Structure QuaternarySite-directed mutagenesisMolecular BiologyEpoxide HydrolasesBinding SitesChemistrySubstrate (chemistry)Phosphoric Monoester HydrolasesRecombinant ProteinsProtein Structure TertiaryProtein SubunitsBiochemistryMutagenesis Site-Directed570 Life sciences; biologyDimerizationSequence AlignmentChromatography Liquid

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Structure of Aspergillus niger epoxide hydrolase at 1.8 A resolution: implications for the structure and function of the mammalian microsomal class o…

2000

AbstractBackground: Epoxide hydrolases have important roles in the defense of cells against potentially harmful epoxides. Conversion of epoxides into less toxic and more easily excreted diols is a universally successful strategy. A number of microorganisms employ the same chemistry to process epoxides for use as carbon sources.Results: The X-ray structure of the epoxide hydrolase from Aspergillus niger was determined at 3.5 Å resolution using the multiwavelength anomalous dispersion (MAD) method, and then refined at 1.8 Å resolution. There is a dimer consisting of two 44 kDa subunits in the asymmetric unit. Each subunit consists of an α/β hydrolase fold, and a primarily helical lid over the…

Models MolecularProtein ConformationStereochemistryEpoxide10050 Institute of Pharmacology and Toxicology610 Medicine & healthEpoxide hydrolasechemistry.chemical_compoundProtein structure1315 Structural BiologyStructural BiologyMicrosomesHydrolase1312 Molecular BiologyAnimalsHumansBinding siteEpoxide hydrolaseMolecular BiologyX-ray crystallographyEpoxide HydrolasesMicrosomal epoxide hydrolasesDrug metabolismBinding SitesbiologyMADChemistryAspergillus nigerbiology.organism_classificationBiochemistryEpoxide HydrolasesMicrosome570 Life sciences; biologyAspergillus nigerDimerization

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Combining Pharmacokinetics and Vibrational Spectroscopy: MCR-ALS Hard-and-Soft Modelling of Drug Uptake In Vitro Using Tailored Kinetic Constraints

2022

Raman microspectroscopy is a label-free technique which is very suited for the investigation of pharmacokinetics of cellular uptake, mechanisms of interaction, and efficacies of drugs in vitro. However, the complexity of the spectra makes the identification of spectral patterns associated with the drug and subsequent cellular responses difficult. Indeed, multivariate methods that relate spectral features to the inoculation time do not normally take into account the kinetics involved, and important theoretical information which could assist in the elucidation of the relevant spectral signatures is excluded. Here, we propose the integration of kinetic equations in the modelling of drug uptake…

Multivariate Curve Resolution-Alternating Least SquaresBiological and Chemical PhysicsSystems BiologyMultivariate Curve Resolution-Alternating Least Squares; pharmacokinetics; Raman microspectroscopy; chemometricsGeneral MedicineSpectrum Analysis RamanRaman microspectroscopyKineticsMultivariate AnalysisHumansPharmacokineticsLeast-Squares AnalysisChemometricsBiochemistry Biophysics and Structural Biology

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Endo-/exo- and halogen-bonded complexes of conformationally rigid C-ethyl-2-bromoresorcinarene and aromatic N-oxides

2017

The host-guest complexes of conformationally rigid C-ethyl-2-bromoresorcinarene with aromatic N-oxides were studied using single crystal X-ray crystallography. Unlike that of the conformationally more flexible C-ethyl-2-methylresorcinarene, the C-ethyl-2-bromoresorcinarene cavity forms endo-complexes only with the small pyridine-N-oxides, such as pyridine N-oxide, 2-methyl-, 3-methyl- and 4-methylpyrdine N-oxide, and quinoline N-oxide. The larger 2,4,6-trimethylpyridine, 4-phenylpyridine and isoquinoline N-oxide, and 4,4-bipyridine N,N′-dioxide and 1,3-bis(4-pyridyl)propane N,N′-dioxide do not fit into the host cavity. Instead endo-acetone complexes are formed. Remarkably, differing from th…

N-oxidesta114010405 organic chemistryStereochemistryQuinolinehalogen bonded complexesGeneral Chemistry010402 general chemistryCondensed Matter Physics01 natural scienceshost-guest complexes0104 chemical sciencesChemistrychemistry.chemical_compoundchemistryPropanePyridineHalogenGeneral Materials ScienceIsoquinolineta116Single crystalBiochemistry Biophysics and Structural BiologyCrystEngComm

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Host–guest complexes of conformationally flexible C-hexyl-2-bromoresorcinarene and aromatic N-oxides: solid-state, solution and computational studies

2018

Host–guest complexes of C-hexyl-2-bromoresorcinarene (BrC6) with twelve potential aromatic N-oxide guests were studied using single crystal X-ray diffraction analysis and 1H NMR spectroscopy. In the solid state, of the nine obtained X-ray crystal structures, eight were consistent with the formation of BrC6-N-oxide endo complexes. The lone exception was from the association between 4-phenylpyridine N-oxide and BrC6, in that case the host forms a self-inclusion complex. BrC6, as opposed to more rigid previously studied C-ethyl-2-bromoresorcinarene and C-propyl-2-bromoresorcinarene, undergoes remarkable cavity conformational changes to host different N-oxide guests through C–H···π(host) intera…

Solid-stateCrystal structure010402 general chemistry01 natural scienceslcsh:QD241-441lcsh:Organic chemistryPolarizabilitysupramolekulaarinen kemiaresorcinareneshost–guest chemistryHost–guest chemistrylcsh:Scienceta116Biochemistry Biophysics and Structural BiologyC–H···π Interactions010405 organic chemistryChemistryOrganic Chemistryendo/exo complexationSolution phaseditopic receptors0104 chemical sciencesaromatic N-oxidesChemistryCrystallographyProton NMRPolarlcsh:QSingle crystalBeilstein Journal of Organic Chemistry

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Bringing a Molecular Plus One: Synergistic Binding Creates Guest-Mediated Three-Component Complexes

2020

Cethyl-2-methylresorcinarene (A), pyridine (B), and a set of 10 carboxylic acids (Cn) associate to form A·B·Cn ternary assemblies with 1:1:1 stoichiometry, representing a useful class of ternary systems where the guest mediates complex formation between the host and a third component. Although individually weak in solution, the combined strength of the multiple noncovalent interactions organizes the complexes even in a highly hydrogen-bond competing methanol solution, as explored by both experimental and computational methods. The interactions between A·B and Cn are dependent on the pKa values of carboxylic acids. The weak interactions between A and C further reinforce the interactions betw…

chemistry.chemical_classification010405 organic chemistryStereochemistryComponent (thermodynamics)Organic ChemistryComplex formationCarboxylic AcidsCooperative bindingHydrogen Bonding010402 general chemistry01 natural sciences0104 chemical sciencesChemistrychemistry.chemical_compoundMolecular recognitionchemistryPyridineNon-covalent interactionsTernary operationBiochemistry Biophysics and Structural BiologyStoichiometryThe Journal of Organic Chemistry

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Host-guest complexes of C-propyl-2-bromoresorcinarene with aromatic N-oxides*

2018

The host-guest complexes of C-propyl-2-bromoresorcinarene with pyridine N-oxide, 3-methylpyridine N-oxide, quinoline N-oxide and isoquinoline N-oxide are studied using single crystal X-ray crystallography and 1H NMR spectroscopy. The C-propyl-2-bromoresorcinarene forms endo-complexes with the aromatic N-oxides in the solid-state when crystallised from either methanol or acetone. In solution, the endo-complexes were observed only in methanol-d4. In DMSO the solvent itself is a good guest, and crystallisation provides only solvate endo-complexes. The C-propyl-2-bromoresorcinarene shows remarkable flexibility when crystallised from either methanol or acetone, and packs into one-dimensional sel…

crystal structurekemiaSupramolecular chemistryCrystal structurechemistry010402 general chemistry01 natural scienceschemistry.chemical_compoundPolymer chemistryPyridinecrystalssupramolekulaarinen kemiaAcetoneresorcinarenesmoleculesIsoquinolineta116Biochemistry Biophysics and Structural Biologyvetysidoksetta114010405 organic chemistryHydrogen bondQuinolinemolekyylitGeneral Chemistrykiteet0104 chemical sciencesaromatic N-oxidesSolventChemistrychemistryvetyhydrogenhydrogen bondsSupramolecular chemistrySUPRAMOLECULAR CHEMISTRY

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Halogen bonding and host–guest chemistry between N-alkylammonium resorcinarene halides, diiodoperfluorobutane and neutral guests

2019

Single crystal X-ray structures of halogen-bonded assemblies formed between host N-hexylammonium resorcinarene bromide (1) or N-cyclohexylammonium resorcinarene chloride (2), and 1,4-diiodooctafluorobutane and accompanying small solvent guests (methanol, acetonitrile and water) are presented. The guests’ inclusion affects the geometry of the cavity of the receptors 1 and 2, while the divalent halogen bond donor 1,4-diiodooctafluorobutane determines the overall nature of the halogen bond assembly. The crystal lattice of 1 contains two structurally different dimeric assemblies A and B, formally resulting in the mixture of a capsular dimer and a dimeric pseudo-capsule. 1H and 19F NMR analyses …

inorganic chemicalscapsuleDimerHalideFluorine-19 NMRCrystal structurelcsh:QD241-441kemialliset sidoksetchemistry.chemical_compoundlcsh:Organic chemistryBromidesupramolekulaarinen kemiahost-guest chemistryhost–guest chemistrylcsh:ScienceHost–guest chemistryta116Biochemistry Biophysics and Structural BiologyX-ray crystallographyresorcinarene saltsHalogen bondChemistryOrganic ChemistryResorcinareneChemistryCrystallographyhalogen bondinglcsh:Qröntgenkristallografiadimeric assembliesBeilstein Journal of Organic Chemistry

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Sharing the salt bowl: counterion identity drives N-alkyl resorcinarene affinity for pyrophosphate in water

2021

N-Alkyl ammonium resorcinarene chloride receptors, NARX4, have been shown to act as high-sensitivity detectors of pyrophosphate (PPi), a biomarker of disease, in aqueous media through the chloride-to-PPi exchange [NAR(Cl)4 to NARPPi]. The nature of the anion of the macrocyclic NARX4 (X = Cl−, Br−, triflate OTf−) receptor greatly influences the PPi-affinity in aqueous media. The binding affinity for [NAR (Cl)4] is 3.61 × 105 M−1, while the NAR (Br)4 and NAR (OTf)4 show stronger binding of 5.30 × 105 M−1, and 6.10 × 105 M−1, respectively. The effects of upper rim ammonium cation, –N+H2R substituents (R = 3-hydroxypropyl, cyclohexyl, benzyl, or napththalen-1-ylmethyl), of the macrocyclic resor…

kemialliset sidoksetChemistryfosfaatitliuoksetOrganic Chemistrysupramolekulaarinen kemiabiomarkkeritBiochemistry Biophysics and Structural Biology

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