Search results for "Scanning Force Microscopy"

showing 10 items of 14 documents

Protective Effects of L- and D-Carnosine on R-Crystallin Amyloid Fibril Formation: Implications for Cataract Disease

2009

Mildly denaturing conditions induce bovine ?-crystallin, the major structural lens protein, to self-assemble into fibrillar structures in vitro. The natural dipeptide L-carnosine has been shown to have potential protective and therapeutic significance in many diseases. Carnosine derivatives have been proposed as potent agents for ophthalmic therapies of senile cataracts and diabetic ocular complications. Here we report the inhibitory effect induced by the peptide (L- and D-enantiomeric form) on ?-crystallin fibrillation and the almost complete restoration of the chaperone activity lost after denaturant and/or heat stress. Scanning force microscopy (SFM), thioflavin T, and a turbidimetry ass…

CrystallinCircular dichroismAmyloidCarnosinePeptideMicroscopy Atomic ForceBiochemistryCataractLens proteinRats Sprague-Dawleychemistry.chemical_compoundOrgan Culture TechniquesCrystallinChaperone activityAnimalsalpha-CrystallinsSFM Scanning Force Microscopychemistry.chemical_classificationDipeptideCD Circular DichroismThT Thioflavin TCalorimetry Differential ScanningDSC Differential Scanning CalorimetryCircular DichroismCarnosineStereoisomerismIn vitroeye diseasesRatsSpectrometry FluorescencechemistryBiochemistryHEPES 4-(2-Hydroxyethyl)piperazine-1-ethanesulfonic acidThioflavinCattleFemaleSpectrophotometry Ultravioletsense organsAmyloid fibrilMolecular Chaperones

researchProduct

Exploring the Interplay Between Ligand Derivatisation and Cation Type in the Assembly of Hybrid Polyoxometalate Mn-Andersons

2012

Herein a library of hybrid Mn-Anderson polyoxometalates anions are presented: 1, [(MnMo6 O18 )((OCH2 )3 -C-(CH2 )7 CHCH2 )2 ](3-) ; compound 2, [(MnMo6 O18 )((OCH2 )3 C-NHCH2 C16 H9 )2 ](3-) ; compound 3, [(MnMo6 O18 )((OCH2 )3 C-(CH2 )7 CHCH2 )1 ((OCH2 )3 C-NHCH2 C16 H9 )1 ](3-) ; compound 4, [(MnMo6 O18 )((OCH2 )3 C-NHC(O)CH2 CHCH2 )2 ](3-) and compounds 5-9, [(MnMo6 O18 )((OCH2 )3 C-NHC(O)(CH2 )x CH3 )2 ]), where x = 4, 10, 12, 14, and 18 respectively. The compounds resulting from the cation exchange of the anions 1-9 to give TBA (a) and DMDOA (b) salts, and additionally for compounds 1, 2 and 3, tetraphenylphosphonium (PPh4 ) (c) salts, are explored at the air/water interface using scan…

Hexagonal crystal systemChemistryLigandStereochemistrySupramolecular chemistryGeneral Chemistrypolyoxometalate AFM self-assembly thin filmsBiomaterialsCrystallographyCovalent bondPolyoxometalateGeneral Materials ScienceScanning Force MicroscopyBiotechnologySmall

researchProduct

Self-Organization Pathways and Spatial Heterogeneity in Insulin Amyloid Fibril Formation

2009

At high temperature and low pH, the protein hormone insulin is highly prone to form amyloid fibrils, and for this reason it is widely used as a model system to study fibril formation mechanisms. In this work, we focused on insulin aggregation mechanisms occurring in HCl solutions (pH 1.6) at 60 degrees C. By means of in situ Thioflavin T (ThT) staining, the kinetics profiles were characterized as a function of the protein concentration, and two concurrent aggregation pathways were pointed out, being concentration dependent. In correspondence to these pathways, different morphologies of self-assembled protein molecules were detected by atomic force microscopy images also evidencing the prese…

In situAmyloidHot Temperaturemedicine.medical_treatmentKineticsNucleationMicroscopy Atomic ForceFibrilchemistry.chemical_compoundMicroscopyMaterials ChemistrymedicineAnimalsInsulinBenzothiazolesPhysical and Theoretical ChemistryInsulin Amyloid Fibrils Secondary Nucleation Thioflavin T (ThT) Scanning Force Microscopy (SFM) Spatial HeterogeneityChemistryInsulinfluorescence spectroscopyFluorescenceSurfaces Coatings and FilmsThiazolesBiochemistryBiophysicsCattleThioflavinHydrochloric AcidProtein aggregation

researchProduct

Temperature and pressure dependence of quercetin-3-O-palmitate interaction with a model phospholipid membrane: film balance and scanning probe micros…

2004

The molecular interaction of quercetin-3-O-palmitate (QP) with dimyristoylphosphatidylcholine (DMPC) has been studied. Film balance measurements of the average molecular area vs QP molar fraction in DMPC/QP mixed monolayers showed that relevant positive deviations from ideality, i.e., a less dense monolayer packing, occurred for a temperature of 10 degrees C, below the critical melting transition temperature of DMPC monolayers T c m approximately equal 20 degrees C), while ideal behavior was observed at 37 degrees C, above this phase transition temperature. The positive deviation observed at low temperatures in the average molecular area increased with the surface pressure. Scanning probe m…

Membrane FluiditySurface PropertiesLipid BilayersAnalytical chemistryPhospholipidPalmitic AcidPhase separationPalmitic AcidsSurface pressureMole fractionMicroscopy Atomic ForcePhase TransitionBiomaterialsScanning probe microscopychemistry.chemical_compoundMembrane LipidsColloid and Surface ChemistryMonolayerLangmuir-Blodgett monolayersMolecular StructureTransition temperatureTemperatureQuercetin palmitateSurfaces Coatings and FilmsElectronic Optical and Magnetic MaterialsLangmuir–Blodgett monolayerMembranechemistryAluminum SilicatesQuercetinMicaStress MechanicalDimyristoylphosphatidylcholineAlgorithmsScanning force microscopy

researchProduct

ChemInform Abstract: Scanning Force Microscopy of Artificial Membranes

2010

Visualization of biological membranes by scanning force microscopy (SFM) has tremendously improved the current understanding of protein ‐ lipid interactions under physiological conditions. SFM is the only tool to directly image processes on surfaces in aqueous solution at molecular resolution. Besides being a supportive means to confirm results on lipid phases and domains obtained from fluorescence spectroscopy, calorimetry, and X-ray crystallography, SFM has contributed distinct aspects on the formation of 2D crystals of various membrane-confined proteins and morphological changes of membranes due to the interaction of peptides and proteins. This review will focus on recent results in SFM …

MembraneAqueous solutionChemistryPhase (matter)BiophysicsBiological membraneGeneral MedicineCalorimetryScanning Force MicroscopyMolecular resolutionFluorescence spectroscopyChemInform

researchProduct

Assembly of modular asymmetric organic-inorganic polyoxometalate hybrids into anisotropic nanostructures.

2010

Three organic-inorganic hybrid Mn-Anderson polyoxometalates (POMs), with both symmetrical and asymmetrical appended groups, have been synthesized, identified using electrospray mass spectrometry, and isolated using an approach that allows the three AA, BB, and AB compounds to be structurally characterized. Investigation of the self-assembly of the hybrids on hydrophilic surfaces reveals the formation of nanofibres with characteristics that reflect the nature of the substitution of the POM yielding a route to the programmed assembly of anisotropic hybrid nanostructures.