Search results for "Icosahedral symmetry"

showing 4 items of 44 documents

Variety of size and form of GRM2 bacterial microcompartment particles

2021

Bacterial microcompartments (BMCs) are bacterial organelles involved in enzymatic processes, such as carbon fixation, choline, ethanolamine and propanediol degradation, and others. Formed of a semi‐permeable protein shell and an enzymatic core, they can enhance enzyme performance and protect the cell from harmful intermediates. With the ability to encapsulate non‐native enzymes, BMCs show high potential for applied use. For this goal, a detailed look into shell form variability is significant to predict shell adaptability. Here we present four novel 3D cryo‐EM maps of recombinant Klebsiella pneumoniae GRM2 BMC shell particles with the resolution in range of 9 to 22 Å and nine novel 2D class…

chemistry.chemical_classification0303 health sciencesCryo-electron microscopyIcosahedral symmetryFull‐Length PapersCryoelectron Microscopy030302 biochemistry & molecular biologyCarbon fixationShell (structure)BiochemistryKlebsiella pneumoniae03 medical and health scienceschemistry.chemical_compoundEnzymeEthanolamineBacterial ProteinschemistryBacterial microcompartmentOrganelleBiophysicsMolecular Biology030304 developmental biologyProtein Science
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Crystallization and preliminary crystallographic analysis of the major capsid proteins VP16 and VP17 of bacteriophage P23-77.

2012

The major capsid proteins VP16 and VP17 of bacteriophage P23-77 have been crystallized using both recombinant and purified virus and preliminary diffraction analyses have been performed.

kapsidiproteiinitcongenital hereditary and neonatal diseases and abnormalitiesLineage (genetic)bacteriophagescrystallizationIcosahedral symmetryvirusesBiophysicsBacteriophage P23-77major coat proteinsCrystallography X-RayBiochemistrycapsid proteinsbakteriofagitlaw.inventionBacteriophage03 medical and health sciencesStructural BiologylawGeneticsCoat ProteinsCrystallizationskin and connective tissue diseasesdouble beta-barrel viral lineage030304 developmental biology0303 health sciencesbiologybakteriofaagit030306 microbiologyThermus thermophilusta1183ta1182Thermus thermophilusbiochemical phenomena metabolism and nutritionCondensed Matter Physicsbiology.organism_classification3. Good healthCrystallographyCapsidCrystallization CommunicationsRecombinant DNAhealth occupationsCapsid ProteinsCrystallization
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A magnetic look into the protecting layer of Au25 clusters

2016

The field of molecular metal clusters protected by organothiolates is experiencing a very rapid growth. So far, however, a clear understanding of the fine interactions between the cluster core and the capping monolayer has remained elusive, despite the importance of the latter in interfacing the former to the surrounding medium. Here, we describe a very sensitive methodology that enables comprehensive assessment of these interactions. Pulse electron nuclear double resonance (ENDOR) was employed to study the interaction of the unpaired electron with the protons of the alkanethiolate ligands in four structurally related paramagnetic Au25(SR)0 18 clusters (R ¼ ethyl, propyl, butyl, 2-methylpro…

molecular metal clusterselectronic distributionkemiaIcosahedral symmetryAnalytical chemistry02 engineering and technologychemistry010402 general chemistrygold clusters01 natural sciencesSpectral lineAu25ParamagnetismMolecular dynamicsNMR spectroscopyMonolayerthiolate-cappedCluster (physics)ta116Electron nuclear double resonanceChemistryChemistry (all)paramagnetic gols nanoclustersGeneral ChemistryENDOR spectroscopy021001 nanoscience & nanotechnology0104 chemical sciencesUnpaired electronChemical physics0210 nano-technology
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A DFT Study of Linear Gold–Thiolate Superclusters Absorbing in the Therapeutic NIR Window

2015

A series of linear clusters up to an aspect ratio of 1:6, formed as multimers of smaller clusters with an icosahedral Au13(5+) core having an eight-electron superatom configuration, are computationally predicted to have a greatly enhanced size-dependent absorption in the near-infrared (NIR) region extending to the biologically important NIR window. A novel structural model is presented for the previously isolated thiol-stabilized Au54(SR)30 cluster, where the metal core is formed as a heterodimer of the cores of the known Au25(SR)18(-/0) and Au38(SR)24 clusters.

ta114Icosahedral symmetryChemistrySuperatomNanotechnologyAspect ratio (image)MetalCore (optical fiber)Crystallographyvisual_artvisual_art.visual_art_mediumCluster (physics)General Materials ScienceDensity functional theoryPhysical and Theoretical ChemistryAbsorption (electromagnetic radiation)ta116The Journal of Physical Chemistry Letters
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