Oxindole-Schiff base copper(II) complexes interactions with human serum albumin: Spectroscopic, oxidative damage, and computational studies

CD and EPR were used to characterize interactions of oxindole-Schiff base copper(II) complexes with human serum albumin (HSA). These imine ligands form very stable complexes with copper, and can efficiently compete for this metal ion towards the specific N-terminal binding site of the protein, consisting of the amino acid sequence Asp-Ala-His. Relative stability constants for the corresponding complexes were estimated from CD data, using the protein as competitive ligand, with values of log K(CuL) in the range 15.7-18.1, very close to that of [Cu(HSA)] itself, with log K(CuHSA) 16.2. Some of the complexes are also able to interfere in the a-helix structure of the protein, while others seem not to affect it. EPR spectra corroborate those results, indicating at least two different metal species in solution, depending on the imine ligand. Oxidative damage to the protein after incubation with these copper(II) complexes, particularly in the presence of hydrogen peroxide, was monitored by carbonyl groups formation, and was observed to be more severe when conformational features of the protein were modified. Complementary EPR spin-trapping data indicated significant formation of hydroxyl and carbon centered radicals, consistent with an oxidative mechanism. Theoretical calculations at density functional theory (DFT) level were employed to evaluate Cu(II)-L binding energies, L -> Cu(II) donation, and Cu(II) -> L back-donation, by considering the Schiff bases and the N-terminal site of HSA as ligands. These results complement previous studies on cytotoxicity, nuclease and pro-apoptotic properties of this kind of copper(II) complexes, providing additional information about their possibilities of transport and disposition in blood plasma. (C) 2009 Elsevier Inc. All rights reserved.

Human regulatory protein Ki-1/57 has characteristics of an intrinsically unstructured protein

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.

A theoretical study on the XeF(2) molecule

A relativistic four-component study was performed for the XeF(2) molecule by using the Dirac-Coulomb (DC) Hamiltonian and the relativistic adapted Gaussian basis sets (RAGBSs). The comparison of bond lengths obtained showed that relativistic effects on this property are small (increase of only 0.01 angstrom) while the contribution of electron correlation, obtained at CCSD(T) or CCSD-T levels, is more important (increase of 0.05 angstrom). Electron correlation is also dominant over relativistic effects for dissociation energies. Moreover, the correlation-relativity interaction is shown to be negligible for these properties. The electron affinity, the first ionization potential and the double ionization potential are obtained by means of the Fock-space coupled cluster (FSCC) method, resulting in DC-CCSD-T values of 0.3 eV, 12.5 eV and 32.3 eV, respectively. Vibrational frequencies and some anharmonicity constants were also calculated under the four-component formalism by means of standard perturbation equations. All these molecular properties are, in general, ill satisfactory agreement with available experimental results. Finally, a partition in terms of charge-charge flux-dipole flux (CCFDF) contributions derived by means of the quantum theory of atoms in molecules (QTAIM) in non-relativistic QCISD(FC)/3-21G* calculations was carried out for XeF(2) and KrF(2). This analysis showed that the most remarkable difference between both molecules lies on the charge flux contribution to the asymmetric stretching mode, which is negligible in KrF(2) but important in XeF(2). (c) 2008 Elsevier B.V. All rights reserved.

A quantum chemical study on the formation of phosphorus mononitride

The chemical mechanism of the (1)PN formation was successfully studied by using the CCSD(T)/6-311++G(3df,3pd) level of theory. The (1)NH(3) + (3)PH and (4)P + NH(3) reaction paths are not energetically favorable to form the (1)PN molecule. However, the (3)NH + (3)PH, (4)N + (3)PH(3), (4)N + (3)PH, (4)P + (3)NH, and (4)P + (2)NH(2) reaction paths to form the (1)PN molecule are only energetically favorable by taking place through specific transition states to form the (1)PN molecule. The NH(3) + (3)PH, (4)N + (1)PH(3), NH(3) + (4)P, and (4)N + (2)PH(2) reactions are spin-forbidden and the probability of hopping for these reactions was estimated to be 0 by the Landau-Zener theory. This is the first detailed study on the chemical mechanism for the (1)PN formation. (C) 2009 Elsevier B.V. All rights reserved.

Síntese e enriquecimento enantiomérico via catálise enzimática do sistema 5-bromo-12-oxa-pentaciclo[6.2.16,9.12,7.12,10]dodeca-4-eno-3-endo-ol e derivados. RMN de 1H e 13C: correlação de parâmetros teóricos e experimentais

Partindo de ciclopentadieno, ciclohexadieno, p-benzoquinona e 2,5-dibromo-pbenzoquinona, os adutos 1, 5, 30 e 31 foram sintetizados. Os adutos 1, 5 e 30 foram utilizados como produtos de partida para a síntese de 13 (treze) novos compostos, em sua maioria com potenciais características para apresentarem atividade biológica inibidora de glicosidases e reguladora da liberação de Insulina no sangue. O aduto 31 é inédito na literatura até o momento. Cinco novas propostas de mecanismos são apresentadas. Os álcoois racêmicos 6 e 29 foram submetidos a reações de transesterificação catalisadas por lipase de Pseudomonas cepacia em diferentes preparações e seus enantiômeros separados com enantiosseletividade (E) maior que 100 em todos os casos. Este processo resultou, também, na obtenção dos respectivos acetatos 43 e 44 enantiomericamente puros e com excelentes rendimentos químicos. Os compostos 6, 29 e 34 depois de terem suas estruturas moleculares resolvidas através dos métodos espectroscópicos de rotina, tiveram suas estruturas moleculares calculadas pelo método ab initio e por Funcionais de Densidade. As geometrias otimizadas foram submetidas ao método GIAO para o cálculo dos tensores de blindagem magnética isotrópica. Estes cálculos mostraram-se eficazes na descrição dos deslocamentos químicos da maioria dos átomos, incluindo os dos anéis ciclopropanos presentes nas estruturas moleculares de cada composto. Algumas dificuldades foram encontradas para a descrição do sistema vinílico halogenado dos álcoois 6 e 29. Foram utilizadas moléculas modelo para verificar a extensão de tais dificuldades.

Estudo computacional de líquidos iônicos do tipo dialquilimidazólio

Neste trabalho foram desenvolvidos parâmetros de campo de força dos ânions tetrafenilborato (BPh4 -) e hexafluorfosfato (PF6 -) dentro da metodologia AMBER para a simulação computacional por dinâmica molecular de Líquidos Iônicos formados por estes ânions e cátions do tipo dialquilimidazólio, o 1-n-butil-3-metilimidazólio (BMI+), o 1-etil-3-metilimidazólio (EMI+) e o 1,3-dimetilimidazólio (MMI+). A validação destes parâmetros foi realizada por comparação entre as freqüências dos modos normais obtido por cálculo ab initio com aquelas obtidas por mecânica molecular, juntamente com uma comparação entre as estruturas moleculares e momentos multipolares obtidos pelas duas metodologias. Seguiu-se então a validação por comparação dos resultados dos cálculos de dinâmica molecular com dados experimentais, como densidades, entalpias de vaporização, condutividade elétrica, estrutura radial e espacial e também dados de difração de nêutrons. Foi atingida uma concordância bastante grande entre dados experimentais e cálculo teórico principalmente no que diz respeito à estrutura dos Líquidos Iônicos e foi possível racionalizar em termos de tamanho do grupo alquila do cátion (n-butil, metil ou etil) e do tamanho do ânion tanto propriedades estruturais deste líquidos quanto características dinâmicas dos mesmos.

Interação heparina-antitrombina : reconhecimento molecular caracterizado por ferramentas de modelagem molecular

A heparina foi isolada no início do século XX e permanece, até os dias atuais, como um dos mais importantes e eficientes agentes terapêuticos de ação antitrombótica. Sua atividade anticoagulante deve-se à ativação da antitrombina (AT), uma serpina responsável pela inibição fisiológica de serino-proteinases plasmáticas, tais como fIIa e fXa. Os esforços no sentido da elucidação dos aspectos estruturais e dinâmicos associados ao reconhecimento molecular da heparina pela AT, em nível atômico, vêm encontrando diversas dificuldades, principalmente associadas aos compostos sacarídicos. Em decorrência de sua elevada polaridade e flexibilidade, glicosaminoglicanos como a heparina são difíceis de estudar e modelar. Soma-se a isto o fato de que os resíduos de iduronato presentes na heparina (IdoA) apresentam um incomum equilíbrio conformacional entre estados de cadeira (1C4) e bote-torcido (2SO), sendo esta última estrutura postulada como a possível conformação bioativa. Sendo assim, este trabalho apresenta um estudo de modelagem molecular do perfil conformacional da heparina, tanto em solução quanto complexada à AT, utilizando cálculos ab initio e simulações de dinâmica molecular (DM) Em decorrência da ausência de parâmetros capazes de descrever polissacarídeos nos campos de força atualmente disponíveis, cargas atômicas foram geradas, utilizando-se os esquemas de Mulliken, Löwdin e cargas ajustadas ao Potencial Eletrostático, através de cálculos quantum-mecânicos na base 6-31G** e testadas na simulação de DM da heparina. Diversas condições de simulação, tais como modelos de água, concentrações de sais e as conformações 1C4 e 2SO do IdoA, foram avaliadas de forma a identificar as melhores condições para a descrição conformacional da heparina em solução. O protocolo de DM obtido foi então utilizado no estudo do complexo AT-heparina. Os resultados obtidos estão de acordo com os dados experimentais atualmente disponíveis acerca da conformação da heparina e da contribuição energética de cada resíduo de aminoácido da AT para a formação do complexo com a heparina. A partir dos cálculos ab initio realizados, foi proposto um refinamento na estrutura da heparina determinada por RMN, enquanto que as simulações de DM permitiram reinterpretar aspectos da estrutura tridimensional da AT determinada por cristalografia de raios-X. Adicionalmente, os dados obtidos sugerem que não há requerimento conformacional para a interação do IdoA com a AT Globalmente, os dados indicam que simulações de DM podem ser utilizadas para representar adequadamente a conformação da heparina, assim como para caracterizar e quantificar suas interações com a AT. Assim sendo, propomos o uso de simulações de DM do complexo entre a AT e a heparina, ou entre a AT e compostos derivados da heparina, como uma ferramenta útil no processo de desenvolvimento de novos agentes antitrombóticos e anticoagulantes.

Estudos teóricos da reação de alquilação desracemizante em enaminas quirais

Utilizando métodos ab initio no nível RHF/6-311G**, combinado com conceitos do Princípio de Curtin-Hammett e da lei de distribuição de Maxwell-Boltzmann, este trabalho teve como objetivo elucidar os mecanismos implicados na reação de Michael assimétrica via o equilíbrio tautomérico imina/enamina quirais, também conhecida como alquilação desracemizante. Estão descritos novas abordagens e metodologias para uma extensiva Análise Conformacional e Análise dos Estados de Transição para moléculas com razoável número de átomos, envolvendo um alto número de graus de liberdade. Essas novas abordagens e metodologias envolvendo o Estado de Transição, proporcionaram gerar resultados com desvio de apenas 10,1% para o valor do excesso diastereoisomérico dos produtos Re/Si envolvendo a enamina (R,R) 5; consideramos ainda neste caso, contribuições de entropia e entalpia (ZPE) para a energia livre absoluta de ativação. Tais resultados obtidos evidenciaram a importância da consideração de um maior número de confôrmeros na obtenção de geometrias no estado de transição, para a correta descrição dos processos cinéticos envolvidos nas reações químicas.

Novo formalismo semi-empírico para cálculos químico-quânticos

Realizou-se a dedução de um formalismo básico, útil para o desenvolvimento de novas implementações semi-empíricas, partindo de primeiros princípios. A abordagem utilizada é inspirada nos métodos da família HAM, e visa possibilitar o desenvolvimento de uma implementação semi-empírica de última geração que não esteja sujeita às di culdades que ocorrem com métodos da família ZDO. São apresentadas as expressões para a energia total e para os elementos da matriz de Fock segundo este formalismo básico. O emprego de expoentes variáveis nas funções de base (orbitais atômicos) é proposto e modelado com esquemas tipo HAM/3, HAM/4 e polinomial, tomando-se como referência resultados obtidos por cálculo ab initio. Além disso, uma contribuição para produção de conjuntos de dados de referência por cálculo ab initio é fornecida. Esta contribuição permite que sejam produzidos resultados de alto nível para energias eletrônicas a um custo computacional moderado, por meio da extrapola- ção da energia de correlação eletrônica em cálculos com bases correlation consistent de Dunning.

Estudo do genoma do vírus causador da mionecrose infecciosa em camarões e desenvolvimento de métodos para detecção de diferentes variantes

Shrimp farming is one of the activities that contribute most to the growth of global aquaculture. However, this business has undergone significant economic losses due to the onset of viral diseases such as Infectious Myonecrosis (IMN). The IMN is already widespread throughout Northeastern Brazil and affects other countries such as Indonesia, Thailand and China. The main symptom of disease is myonecrosis, which consists of necrosis of striated muscles of the abdomen and cephalothorax of shrimp. The IMN is caused by infectious myonecrosis virus (IMNV), a non-enveloped virus which has protrusions along its capsid. The viral genome consists of a single molecule of double-stranded RNA and has two Open Reading Frames (ORFs). The ORF1 encodes the major capsid protein (MCP) and a potential RNA binding protein (RBP). ORF2 encodes a probable RNA-dependent RNA polymerase (RdRp) and classifies IMNV in Totiviridae family. Thus, the objective of this research was study the IMNV complete genome and encoded proteins in order to develop a system differentiate virus isolates based on polymorphisms presence. The phylogenetic relationship among some totivirus was investigated and showed a new group to IMNV within Totiviridae family. Two new genomes were sequenced, analyzed and compared to two other genomes already deposited in GenBank. The new genomes were more similar to each other than those already described. Conserved and variable regions of the genome were identified through similarity graphs and alignments using the four IMNV sequences. This analyze allowed mapping of polymorphic sites and revealed that the most variable region of the genome is in the first half of ORF1, which coincides with the regions that possibly encode the viral protrusion, while the most stable regions of the genome were found in conserved domains of proteins that interact with RNA. Moreover, secondary structures were predicted for all proteins using various softwares and protein structural models were calculated using threading and ab initio modeling approaches. From these analyses was possible to observe that the IMNV proteins have motifs and shapes similar to proteins of other totiviruses and new possible protein functions have been proposed. The genome and proteins study was essential for development of a PCR-based detection system able to discriminate the four IMNV isolates based on the presence of polymorphic sites

Predição de promotores de Bacillus subtilis usando técnicas de aprendizado de máquina

One of the most important goals of bioinformatics is the ability to identify genes in uncharacterized DNA sequences on world wide database. Gene expression on prokaryotes initiates when the RNA-polymerase enzyme interacts with DNA regions called promoters. In these regions are located the main regulatory elements of the transcription process. Despite the improvement of in vitro techniques for molecular biology analysis, characterizing and identifying a great number of promoters on a genome is a complex task. Nevertheless, the main drawback is the absence of a large set of promoters to identify conserved patterns among the species. Hence, a in silico method to predict them on any species is a challenge. Improved promoter prediction methods can be one step towards developing more reliable ab initio gene prediction methods. In this work, we present an empirical comparison of Machine Learning (ML) techniques such as Na¨ýve Bayes, Decision Trees, Support Vector Machines and Neural Networks, Voted Perceptron, PART, k-NN and and ensemble approaches (Bagging and Boosting) to the task of predicting Bacillus subtilis. In order to do so, we first built two data set of promoter and nonpromoter sequences for B. subtilis and a hybrid one. In order to evaluate of ML methods a cross-validation procedure is applied. Good results were obtained with methods of ML like SVM and Naïve Bayes using B. subtilis. However, we have not reached good results on hybrid database

Propriedades ópticas de nanocristais de SiGe: efeitos de dopagem e desordem

We have used ab initio calculations to investigate the electronic structure of SiGe based nanocrystals (NC s). This work is divided in three parts. In the first one, we focus the excitonic properties of Si(core)/Ge(shell) and Ge(core)/Si(shell) nanocrystals. We also estimate the changes induced by the effect of strain the electronic structure. We show that Ge/Si (Si/Ge) NC s exhibits type II confinement in the conduction (valence) band. The estimated potential barriers for electrons and holes are 0.16 eV (0.34 eV) and 0.64 eV (0.62 eV) for Si/Ge (Ge/Si) NC s. In contradiction to the expected long recombination lifetimes in type II systems, we found that the recombination lifetime of Ge/Si NC s (τR = 13.39μs) is more than one order of magnitude faster than in Si/Ge NC s (τR = 191.84μs). In the second part, we investigate alloyed Si1−xGex NC s in which Ge atoms are randomly positioned. We show that the optical gaps and electron-hole binding energies decrease linearly with x, while the exciton exchange energy increases with x due to the increase of the spatial extent of the electron and hole wave functions. This also increases the electron-hole wave functions overlap, leading to recombination lifetimes that are very sensitive to the Ge content. Finally, we investigate the radiative transitions in Pand B-doped Si nanocrystals. Our NC sizes range between 1.4 and 1.8 nm of diameters. Using a three-levels model, we show that the radiative lifetimes and oscillator strengths of the transitions between the conduction and the impurity bands, as well as the transitions between the impurity and the valence bands are strongly affected by the impurity position. On the other hand, the direct conduction-to-valence band decay is practically unchanged due to the presence of the impurity

Propriedades física de molécilas orgânicas e compostos do tipo perovskita CdSiO3 e CaPbO3

In the first part of this work our concern was to investigate the thermal effects in organic crystals using the theory of the polarons. To analyse such effect, we used the Fröhlich s Hamiltonian, that describes the dynamics of the polarons, using a treatment based on the quantum mechanics, to elucidate the electron-phonon interaction. Many are the forms to analyzing the polaronic phenomenon. However, the measure of the dielectric function can supply important information about the small polarons hopping process. Besides, the dielectric function measures the answer to an applied external electric field, and it is an important tool for the understanding of the many-body effects in the normal state of a polaronic system. We calculate the dielectric function and its dependence on temperature using the Hartree-Fock decoupling method. The dieletric function s dependence on the temperature is depicted by through a 3D graph. We also analyzed the so called Arrhenius resistivity, as a functionof the temperature, which is an important tool to characterize the conductivity of an organic molecule. In the second part we analyzed two perovskita type crystalline oxides, namely the cadmium silicate triclinic (CdSiO3) and the calcium plumbate orthorhombic (CaPbO3), respectively. These materials are normally denominated ABO3 and they have been especially investigated for displaying ferroelectric, piezoelectric, dielectrics, semiconductors and superconductors properties. We found our results through ab initio method within the functional density theory (DFT) in the GGA-PBE and LDA-CAPZ approximations. After the geometry optimization for the two structure using the in two approximations, we found the structure parameters and compared them with the experimental data. We still determined further the angles of connection for the two analyzed cases. Soon after the convergence of the energy, we determined their band structures, fundamental information to characterize the nature of the material, as well as their dielectrics functions, optical absorption, partial density of states and effective masses of electrons and holes

Periodic study on the structural and electronic properties of bulk, oxidized and reduced SnO2(110) surfaces and the interaction with O-2

The structural and electronic properties of bulk and both oxidized and reduced SnO2(110) surfaces as well as the adsorption process of O-2 on the reduced surface have been investigated by periodic DFT calculations at B3LYP level. The lattice parameters, charge distribution, density of states and band structure are reported for the bulk and surfaces. Surface relaxation effects have been explicitly taken into account by optimizing slab models of nine and seven atomic layers representing the oxidized and reduced surfaces, respectively. The conductivity behavior of the reduced SnO2(110) surface is explained by a distribution of the electrons in the electronic states in the band gap induced by oxygen vacancies. Three types of adsorption approaches of O-2 on the four-fold tin at the reduced SuO(2)(110) surface have been considered. The most exothermic channel corresponds to the adsorption of O-2 parallel to the surface and to the four-fold tin row, and it is believed to be associated with the formation of a peroxo O-2(2-) species. The chemisorption of O-2 on reduced SnO2(110) surface causes a significant depopulation of states along the band gap and it is shown to trap the electrons in the chemisorbed complex producing an electron-depleted space-charge layer in the inner surface region of the material in agreement with some experimental evidences. (C) 2002 Elsevier B.V. B.V. All rights reserved.

Electronic structure and optical properties of BaMoO4 powders

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