356 resultados para Saxs
Resumo:
Polysilsesquioxanes containing methacrylate pendant groups were prepared by the sol-gel process through hydrolysis and condensation of (3-methacryloxypropyl)trimethoxysilane (MPTS) dissolved in a methanol/methyl methacrylate (MMA) mixture. The effects of different water, MMA, and methanol contents, as well as of pH, on the nanoscopic and local structures of the system, at advanced stages of the condensation reaction, were studied by small-angle X-ray scattering (SAXS) and (29)Si nuclear magnetic resonance (NMR) spectroscopy, respectively. SAXS results indicate that the nanoscopic features of the hybrid sol could be described by a hierarchical model composed of two levels, namely (i) silsesquioxane (SSQO) nanoparticles Surrounded by the methacrylate pendant groups and the methanol/MMA mixture. and (ii) aggregation zones or islands containing correlated SSQO nanoparticles, embedded in the liquid medium. The (29)Si NMR results Show that the inner Structures of SSQO nanoparticles produced at pH 1 and 3 were built Up of polyhedral structures. mainly cagelike octamers and small linear oligomers, respectively. Irrespective of MMA and methanol contents, for a [H(2)O]/[MPTS] ratio higher than or equal to 1, the SSQO nailoparticles produced at pH I exhibit an average condensation degree (CD approximate to 69-87%) and average radius of gyration (R(g) approximate to 2.5 angstrom) larger than those produced at pH 3 (CD approximate to 48-67% and R(g) approximate to 1.5 angstrom). Methanol appears to act as a redispersion agent, by decreasing the number of particles inside the aggregation zones, while the addition of MMA induces a swelling of the aggregation zones.
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The mechanisms of nucleation and growth and the solid-to-liquid transition of metallic nanoclusters embedded in sodium borate glass were recently studied in situ via small-angle X-ray scattering (SAXS) and wide-an-le X-ray scattering (WAXS). SAXS results indicate that, under isothermal annealing conditions, the formation and growth of Bi or Ag nanoclusters embedded in sodium borate glass occurs through two successive stages after a short incubation period. The first stage is characterized by the nucleation and growth of spherical metal clusters promoted by the diffusion of Bi or Ag atoms through the initially supersaturated glass phase. The second stage is named the coarsening stage and occurs when the (Bi- or Ag-) doping level of the vitreous matrix is close to the equilibrium value. The experimental results demonstrated that, at advanced stages of the growth process, the time dependence of the average radius and density number of the clusters is in agreement with the classical Lifshitz-Slyozov-Waoner (LSW) theory. However, the radius distribution function is better described by a lognormal function than by the function derived from the theoretical LSW model. From the results of SAXS measurements at different temperatures, the activation energies for the diffusion of Ag and Bi through sodium borate glass were determined. In addition, via combination of the results of simultaneous WAXS and SAXS measurements at different temperatures, the crystallographic structure and the dependence of melting temperature T(m) on crystal radius R of Bi nanocrystals were established. The experimental results indicate that T(m) is a linear and decreasing function of nanocrystal reciprocal radius 1/R, in agreement with the Couchman and Jesser theoretical model. Finally, a weak contraction in the lattice parameters of Bi nanocrystals with respect to bulk crystals was established.
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In this work the synthesis of cubic, FDU-1 type, ordered mesoporous silica (OMS) was developed from two types of silicon source, tetraethyl orthosilicate (TEOS) and a less expensive compound, sodium silicate (Na(2)Si(3)O(7)), in the presence of a new triblock copolymer template Vorasurf 504 (EO(38)BO(46)EO(38)). For both silicon precursors the synthesis temperature was evaluated. For TEOS the effect of polymer dissolution in methanol and the acid solution (HCl and HBr) on the material structure was analyzed. For Na(2)Si(3)O(7) the influence of the polymer mass and the hydrothermal treatment time were the explored experimental parameters. The samples were examined by Small Angle X-ray Scattering (SAXS) and Nitrogen Sorption. For both precursors the decrease on the synthesis temperature from ambient, -25 degrees C, to -15 degrees C improved the ordered porous structure. For TEOS, the SAXS results showed that there is an optimum amount of hydrophobic methanol that contributed to dissolve the polymer but did not provoke structural disorder. The less electronegative Br-ions, when compared to Cl-, induced a more ordered porous structure, higher surface areas and larger lattice parameters. For Na(2)Si(3)O(7) the increase on the hydrothermal treatment time as well as the use of an optimized amount of polymer promoted a better ordered porous structure. (C) 2011 Elsevier B.V. All rights reserved.
Resumo:
Differential scanning calorimetry (DSC), circular dichroism (CD), difference spectroscopy (UV-vis), Raman spectroscopy, and small-angle X-ray scattering (SAXS) measurements have been performed in the present work to provide a quantitatively comprehensive physicochemical description of the complexation between bovine fibrinogen and the sodium perfluorooctanoate, sodium octanoate, and sodium dodecanoate in glycine buffer (pH 8.5). It has been found that sodium octanoate and dodecanoate act as fibrinogen destabilizer. Meanwhile, sodium perfluorooctanoate acts as a structure stabilizer at low molar concentration and as a destabilizer at high molar concentration. Fibrinogen`s secondary structure is affected by all three studied surfactants (decrease in alpha-helix and an increase in beta-sheet content) to a different extent. DSC and UV-vis revealed the existence of intermediate states in the thermal unfolding process of fibrinogen. In addition, SAXS data analysis showed that pure fibrinogen adopts a paired-dimer structure in solution. Such a structure is unaltered by sodium octanoate and perfluoroctanoate. However, interaction of sodium dodecanoate with the fibrinogen affects the protein conformation leading to a complex formation. Taken together, all results evidence that both surfactant hydrophobicity and tail length mediate the fibrinogen stability upon interaction. (C) 2011 Elsevier Inc. All rights reserved.
Resumo:
Small-angle X-ray scattering (SAXS) and elastic and quasi-elastic neutron scattering techniques were used to investigate the high-pressure-induced changes on interactions, the low-resolution structure and the dynamics of lysozyme in solution. SAXS data, analysed using a global-fit procedure based on a new approach for hydrated protein form factor description, indicate that lysozyme completely maintains its globular structure up to 1500 bar, but significant modi. cations in the protein-protein interaction potential occur at approximately 600-1000 bar. Moreover, the mass density of the protein hydration water shows a clear discontinuity within this pressure range. Neutron scattering experiments indicate that the global and the local lysozyme dynamics change at a similar threshold pressure. A clear evolution of the internal protein dynamics from diffusing to more localized motions has also been probed. Protein structure and dynamics results have then been discussed in the context of protein-water interface and hydration water dynamics. According to SAXS results, the new configuration of water in the first hydration layer induced by pressure is suggested to be at the origin of the observed local mobility changes.
Resumo:
Barbaloin is a bioactive glycosilated 1,8-dihydroxyanthraquinone present in several exudates from plants, Such as Aloe vera, which are used for cosmetic or food purposes. It has been shown that barbaloin interacts with DMPG (dimyristoylphosphatidylglycerol) model membranes, altering the bilayer structure (Alves, D. S.; Perez-Fons, L.; Estepa, A.; Micol, V. Biochem. Pharm. 2004, 68, 549). Considering that ESR (electron spin resonance) of spin labels is one of the best techniques to monitor structural properties at the molecular level, the alterations caused by the anthraquinone barbaloin on phospholipid bilayers will be discussed here via the ESR signal of phospholipid spin probes intercalated into the membranes. In DMPG at high ionic strength (10 mM Hepes pH 7.4 + 100 mM NaCl), a system that presents a gel-fluid transition around 23 degrees C, 20 mol % barbaloin turns the gel phase more rigid, does not alter much the fluid phase packing, but makes the lipid thermal transition less sharp. However, in a low-salt DMPG dispersion (10 mM Hepes pH 7.4 + 2 mM NaCl), which presents a rather complex gel-fluid thermal transition (Lamy-Freund, M. T.; Riske, K. A. Chem. Phys. Lipids 2003, 122, 19), barbaloin strongly affects bilayer structural properties, both in the gel and fluid phases, extending the transition region to much higher temperature values. The position of barbaloin in DMPG bilayers will be discussed on the basis of ESR results, in parallel with data from sample viscosity, DSC (differential scanning calorimetry), and SAXS (small-angle X-ray scattering).
Resumo:
Small-angle X-ray scattering (SAXS) and electron paramagnetic resonance (EPR) have been carried out to investigate the structure of the self-aggregates of two phenothiazine drugs, chlorpromazine (CPZ) and trifluoperazine (TFP), in aqueous solution. In the SAXS studies, drug solutions of 20 and 60 mM, at pH 4.0 and 7.0, were investigated and the best data fittings were achieved assuming several different particle form factors with a homogeneous electron density distribution in respect to the water environment. Because of the limitation of scattering intensity in the q range above 0.15 angstrom(-1), precise determination of the aggregate shape was not possible and all of the tested models for ellipsoids, cylinders, or parallelepipeds fitted the experimental data equally well. The SAXS data allows inferring, however, that CPZ molecules might self-assemble in a basis set of an orthorhombic cell, remaining as nanocrystallites in solution. Such nanocrystals are composed of a small number of unit cells (up to 10, in c-direction), with CPZ aggregation numbers of 60-80. EPR spectra of 5- and 16-doxyl stearic acids bound to the aggregates were analyzed through simulation, and the dynamic and magnetic parameters were obtained. The phenothiazine concentration in EPR experiments was in the range of 5-60 mM. Critical aggregation concentration of TFP is lower than that for CPZ, consistent with a higher hydrophobicity of TFP. At acidic pH 4.0 a significant residual motion of the nitroxide relative to the aggregate is observed, and the EPR spectra and corresponding parameters are similar to those reported for aqueous surfactant micelles. However, at pH 6.5 a significant motional restriction is observed, and the nitroxide rotational correlation times correlate very well with those estimated for the whole aggregated particle from SAXS data. This implies that the aggregate is densely packed at this pH and that the nitroxide is tightly bound to it producing a strongly immobilized EPR spectrum. Besides that, at pH 6.5 the differences in motional restriction observed between 5- and 16-DSA are small, which is different from that observed for aqueous surfactant micelles.
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Solution behavior of carboxymethylcellulose acetate butyrate (CMCAB) in acetone and ethyl acetate has been investigated by small-angle X-ray scattering (SAXS) and capillary viscometry and correlated with the characteristics of CMCAB films. Viscosity and SAXS measurements showed that ethyl acetate is a better solvent than acetone for CMCAB. Thin films of CMCAB were deposited onto silicon wafers (Si/SiO(2)) by spin coating. AFM images revealed that CMCAB spin coated films from solutions prepared in ethyl acetate were homogeneous and flat. However, films obtained from solutions in acetone were very rough. Contact angle measurements with polar and apolar test liquids characterized CMCAB surfaces as hydrophobic and allowed estimating the surface energy of CMCAB. Sum frequency generation vibrational spectroscopy was used to understand the role played by solvents and to gain insight about molecular orientation at Si/SiO(2)/CMCAB interface.
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Lectins have been classified into a structurally diverse group of proteins that bind carbohydrates and glycoconjugates with high specificity. They are extremely useful molecules in the characterization of saccharides, as drug delivery mediators, and even as cellular surface makers. In this study, we present camptosemin, a new lectin from Camptosema ellipticum. It was characterized as an N-acetyl-d-galactosamine-binding homo-tetrameric lectin, with a molecular weight around 26 kDa/monomers. The monomers were stable over a wide range of pH values and exhibited pH-dependent oligomerization. Camptosemin promoted adhesion of breast cancer cells and hemagglutination, and both activities were inhibited by its binding of sugar. The stability and unfolding/folding behavior of this lectin was characterized using fluorescence and far-UV circular dichroism spectroscopies. The results indicate that chemical unfolding of camptosemin proceeds as a two-state monomer-tetramer process. In addition, small-angle X-ray scattering shows that camptosemin behaves as a soluble and stable homo-tetramer molecule in solution.
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Because of its elevated cellulolytic activity, the filamentous fungus Trichoderma harzianum has a considerable potential in biomass hydrolysis applications. Trichoderma harzianum cellobiohydrolase I (ThCBHI), an exoglucanase, is an important enzyme in the process of cellulose degradation. Here, we report an easy single-step ion-exchange chromatographic method for purification of ThCBHI and its initial biophysical and biochemical characterization. The ThCBHI produced by induction with microcrystalline cellulose under submerged fermentation was purified on DEAE-Sephadex A-50 media and its identity was confirmed by mass spectrometry. The ThCBHI biochemical characterization showed that the protein has a molecular mass of 66 kDa and pi of 5.23. As confirmed by small-angle X-ray scattering (SAXS), both full-length ThCBHI and its catalytic core domain (CCD) obtained by digestion with papain are monomeric in solution. Secondary structure analysis of ThCBHI by circular dichroism revealed alpha-helices and beta-strands contents in the 28% and 38% range, respectively. The intrinsic fluorescence emission maximum of 337 nm was accounted for as different degrees of exposure of ThCBHI tryptophan residues to water. Moreover, ThCBHI displayed maximum activity at pH 5.0 and temperature of 50 degrees C with specific activities against Avicel and p-nitrophenyl-beta-D-cellobioside of 1.25 U/mg and 1.53 U/mg, respectively.
Resumo:
Human nerve growth factor-induced B (NGFI-B) is a member of the NR4A subfamily of orphan nuclear receptors (NRs). Lacking identified ligands, orphan NRs show particular co-regulator proteins binding properties, different from other NRs, and they might have a non-classical quaternary organization. A body of evidence suggests that NRs recognition of and binding to ligands, DNA, homo- and heterodimerization partners and co-regulator proteins involve significant conformational changes of the NR ligand-binding domains (LBDs). To shed light on largely unknown biophysical properties of NGFI-B, here we studied structural organization and unfolding properties of NGFI-B ligand (like)-binding domain induced by chemical perturbation. Our results show that NGFI-B LBD undergoes a two-state guanidine hydrochloride (GndHCl) induced denaturation, as judged by changes in the a-helical content of the protein monitored by circular dichroism spectroscopy (CD). In contrast, changes in the tertiary structure of NGFI-B LBD, reported by intrinsic fluorescence, reveal a clear intermediate state. Additionally, SAXS results demonstrate that the intermediate observed by intrinsic fluorescence is a partially folded homodimeric structure, which further unfolds without dissociation at higher GndHCl concentrations. This partially unfolded dimeric assembly of NGFI-B LBD might resemble an intermediate that this domain access momentarily in the native state upon interactions with functional partners. (C) 2008 Elsevier B.V. All rights reserved.
Resumo:
The human protein Ki-1/57 was first identified through the cross reactivity of the anti-CD30 monoclonal antibody Ki-1; in Hodgkin lymphoma cells. The expression of Ki-1/57 in diverse cancer cells and its phosphorylation in peripheral blood leukocytes after mitogenic activation suggested its possible role in cell signaling. Ki-1/57 interacts with several other regulatory proteins involved in cellular signaling, transcriptional regulation and RNA metabolism, suggesting it may have pleiotropic functions. In a previous spectroscopic analysis, we observed a low content of secondary structure for Ki-1/57 constructs. Here, Circular dichroism experiments, in vitro RNA binding analysis, and limited proteolysis assays of recombinant Ki-1/57(122-413) and proteolysis assays of endogenous full length protein from human HEK293 cells suggested that Ki-1/57 has characteristics of an intrinsically unstructured protein. Small-angle X-ray scattering (SAXS) experiments were performed with the C-terminal fragment Ki-1/57(122-413). These results indicated an elongated shape and a partially unstructured conformation of the molecule in solution, confirming the characteristics of an intrinsically unstructured protein. Experimental curves together with ab initio modeling approaches revealed an extended and flexible molecule in solution. An elongated shape was also observed by analytical gel filtration. Furthermore, sedimentation velocity analysis suggested that Ki-1/57 is a highly asymmetric protein. These findings may explain the functional plasticity of Ki-1/57, as suggested by the wide array of proteins with which it is capable of interacting in yeast two-hybrid interaction assays.
Resumo:
Neste trabalho inicialmente foi sintetizado o precursor organoalcoxisilano 3- anilinapropiltrimetoxisilano, APTMS, a partir da reação entre a anilina e o 3- cloropropiltrimetoxisilano, CPTMS, usando hidreto de sódio, NaH, como ativador de base. O precursor inorgânico tetraetilortosilicato, TEOS, foi polimerizado na presença do precursor orgânico, e catalisador. Durante a etapa de polimerização dos precursores alcóxidos, foram investigadas as influências da temperatura, do tipo e concentração do catalisador e da concentração de precursor orgânico adicionado nas propriedades finais dos híbridos anilinapropilsilica resultantes. Os materiais híbridos foram caracterizados através das técnicas: espectroscopia no infravermelho (FT-IR), técnica de espalhamento de Raios-x a baixos ângulos (SAXS), microscopia eletrônica de varredura (SEM), isotermas de adsorção e dessorção de nitrogênio, análise elementar, espectroscopia de aniquilação de pósitrons (PALS), análise termogravimétrica (TGA), espectroscopia de elétrons dispersos (EDS). A potencialidade de aplicação dos híbridos obtidos como materiais adsorventes na extração dos cátions Cu(II), Zn(II), Cd(II) e Co(II), em solução, foi investigada usando-se isotermas de adsorção pelo método batelada. Através das técnicas de caracterização foi possível observar que as propriedades morfológicas dos materiais como área superficial, distribuição do tamanho de poros, forma e tamanho das partículas, além da estabilidade e grau de incorporação orgânica podem ser controladas em maior ou menor grau, dependendo da variável usada durante a polimerização dos precursores alcóxidos. O material apresentou propriedades promissoras como adsorvente seletivo para o cobre.
Resumo:
A utilidade de alguns polímeros depende principalmente de suas propriedades elétricas, ópticas, bioquímicas e térmicas, porém na maioria dos exemplos a propriedade fundamental para as aplicações reside em suas propriedades mecânicas. Os mecanismos de deformação em polímeros semi-cristalinos são em geral complexos e dependem do arranjo e do tamanho dos cristais. A deformação plástica de polímeros semi-cristalinos é produzida pela força aplicada ao sistema, com modificações de suas propriedades termodinâmicas e morfológicas, obtendo-se materiais com novas propriedades e aplicações. Os sistemas estudados neste trabalho, consistem de amostras de polipropileno isotático, (i-PP) comercial, fornecidas pela OPP Petroquímica (III Pólo Petroquímico – Triunfo / RS). As amostras, na forma de grânulos, foram moldadas pelo processo de injeção onde duas massas molares diferentes foram investigadas. As placas moldadas por injeção, com espessura de aproximadamente 3,0 mm, foram cortadas nas dimensões padrões de 17,2 mm X 4,7 mm e após, deformadas plasticamente por compressão plana uniaxial à temperatura ambiente. A análise da morfologia e cristalinidade deste material foram realizadas utilizando as técnicas de difração raios-X em alto ângulo (WAXD), espalhamento de raios-X em baixo ângulo (SAXS), Microscopia Eletrônica de Varredura (MEV), e Microscopia Eletrônica de Transmissão (MET). Através da técnica de WAXD foi possível a identificação das diferentes fases cristalinas α e β do i-PP, antes e depois das amostras serem deformadas por compressão uniaxial. A determinação da cristalinidade foi realizada via difração de raios-X, utilizando as geometrias θ - 2θ e de Debye Scherrer, sendo a quantificação realizada a partir da área dos picos cristalinos obtidos a partir da indexação das reflexões de Bragg, utilizando o programa FULLPROF. Como resultado obtido, foi verificado uma significativa diminuição da cristalinidade com o aumento da deformação por compressão aplicada sobre as amostras. Com as medidas de SAXS, foram observados os perfis de espalhamento anisotrópicos e isotrópicos para as amostras sem deformação para maior e menor massa molar, respectivamente. O período longo (L) do material, definido pela soma da espessura lamelar do cristal (dc) e a espessura da camada amorfa (da), também foi obtido para estas amostras. A deformação causou uma diminuição do L, o que levou a diminuição da dc, seguido pelo aumento da da. Porém, com o aumento da deformação observa-se uma diminuição das intensidades espalhadas em torno do eixo azimutal. Este efeito pode ser atribuído ao aumento da fase amorfa seguido pela diminuição da fase cristalinidade. As modificações morfológicas ocorridas nas estruturas esferulíticas e lamelares foram avaliadas utilizando a Microscopia Eletrônica de Varredura (MEV), e a Microscopia Eletrônica de Transmissão (MET). O efeito da deformação plana por compressão ficou registrado nas imagens de XXIX MEV e MET, onde verificou-se o alongamento das estruturas esferulíticas na direção de fluxo, seguido da destruição parcial da mesma em deformação por compressão maiores. As imagens obtidas em MEV e MET, foram tratadas a fim de se verificar o grau de orientação e a distribuição da orientação em nível microestrutural por meio do método direto das secantes em um plano e da rosa dos interceptos. Neste caso, quando a rosa apresenta duas pétalas, tem-se um eixo de orientação; com quatro pétalas, dois eixos de orientação, e assim sucessivamente.Em um sistema isométrico sem nenhuma orientação, a rosa dos interceptos apresentará como resultado uma circunferência. Os resultados obtidos para as imagens de MEV e MET em nível esferulítico mostraram que a rosa dos interceptos parte de uma estrutura simétrica com baixo grau de orientação para uma estrutura orientada definida por um sistema de duas pétalas, seguido pelo aumento do grau de orientação para pressões de deformações maiores. Para as imagens de MET em nível lamelar observou-se o aumento do grau de orientação devido o aumento da deformação até 10 MPa. Neste caso, a rosa dos interceptos parte de uma estrutura definida por quatro pétalas (sistema dois eixos de orientação) para uma estrutura de duas pétalas, apresentando um sistema com um eixos de orientação. Porém, para pressões de deformações entre 20-3200 MPa observou-se a diminuição do grau de orientação, pois uma maior desordem é observado nas estruturas devido a amorfização do material, sendo a rosa dos interceptos demostrada por uma estrutura simétrica. Medidas com termopar foram realizadas para verificação do comportamento térmico no momento da deformação. Neste caso, foi verificado um aumento significativo da temperatura com o aumento da deformação. Porém, para as amostras deformadas com 3200 MPa foi observado dois picos de temperatura. Onde o primeiro pico foi atribuído ao comportamento adiabático seguido pela relaxação do material, enquanto o segundo pico foi verificado com grande aumento de temperatura no momento da explosão do material.
Resumo:
O objetivo do presente estudo foi caracterizar suspensões de nanopartículas (NP) de poli(-caprolactona) (PCL) contendo indometacina. Nanocápsulas com fármaco (NC1) foram submetidas a tratamento térmico para verificar se uma relaxação das cadeias poliméricas que recobrem o núcleo pudesse ocorrer. Resultados similares de grau de despolarização da luz espalhada ( c0), determinado por Espalhamento de luz estático, e pH, para as NC que passaram ou não por tratamento térmico, sugeriram que essa relaxação não ocorreu. NC, nanoemulsão (NE) e nanoesfera (NS) apresentaram c0 que caracterizam espécies esféricas. No entanto, a suspensão NC3 (com fármaco em excesso) apresentou valores de c0 que sugeriram a presença de nanocristais de fármaco em suspensão. A partir disto, analisou-se a intensidade de luz espalhada por NC0 (NC sem fármaco), NC1, NC3 e nanodispersões com e sem fármaco (ND1 e ND0, respectivamente). Houve uma queda brusca nas intensidades médias de luz espalhada pela NC3 e ND1 após armazenagem, evidenciada também através da normalização das intensidades pela Razão de Rayleigh. Estes dados, associados à redução do teor de fármaco após armazenagem, apenas para NC3 e ND1, levaram à conclusão de que são formados nanocristais de fármaco durante o preparo destas NP e que estes se depositam ao longo do tempo, reduzindo a intensidade de luz espalhada pelas amostras. Por outro lado, a NC1, quando formulada, não apresentou nanocristais nem houve formação desses após armazenagem Houve grande semelhança entre os espectros de Espalhamento de raios-X a baixo ângulo (SAXS) de NS e ND, atribuída à presença do tensoativo monostearato de sorbitano disperso nestas NP. Este tensoativo não foi identificado em espectros de SAXS de NC e NE. O mesmo perfil de espectro foi obtido para NC contendo diferentes concentrações de PCL, levando à conclusão de que as NC devem manter sua organização em nível molecular independente da concentração de PCL utilizada
