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Caracterização funcional da proteína Triose fosfato isomerase de Paracoccidioides brasiliensis como potencial adesina / Functional characterization of the Paracoccidioides brasiliensis triosephosphate isomerase protein for potential adhesion functionPereira, Luiz Augusto 04 September 2008 (has links)
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Previous issue date: 2008-09-04 / Coordenação de Aperfeiçoamento de Pessoal de Nível Superior - CAPES / Paracoccidioides brasiliensis, an important human pathogen causative of
paracoccidioidomycosis (PCM), a systemic mycosis with broad distribution in Latin America.
Adhesion to and invasion of host cells are essential steps involved in the infection and
dissemination of pathogens. Furthermore, pathogens use their surface molecules to bind to
host extracellular matrix components to establish infection. An adhesin of P. brasiliensiswas
isolated from two dimensional electrophoresis and characterized. Peptides obtained by partial
sequencing of the isolated protein, which presenteda molecular mass of 29 kDa and pI 5.8,
were subjected to sequence analysis of their amino acids, that revealed strong homology to
triose phosphate isomerase (TPI) from several sources. The complete cDNA and gene
encoding TPI of P. brasiliensis (PbTPI) were characterized and both contained an open
reading frame predicted to encode a 249 amino acid protein that presented all the peptides
characterized in the native PbTPI. The complete coding PbTPI cDNA was cloned and over
expressed in Escherichia coli host. The purified recombinant TPI was used to produce
polyclonal antibody in rabbit. By immunoelectron microscopy and Western blot analysis, TPI
was detected in the cell wall and the cytoplasm of the yeast phase of P. brasiliensis. The
expression of PbTPI was analyzed in transition from mycelia to yeast phase. The native
PbTPI is preferentially expressed in the yeast parasitic phase of P. brasiliensis. The
recombinant PbTPI was found to bind to laminin and fibronectin in ligand far-Western blot
assays. TPI binds preferentially to laminin, as determined by peptide inhibition assays. Of
special note, the treatment of P. brasiliensisyeast cells with anti-PbTPI polyclonal antibody
and the incubation of pneumocytes and VERO cells with the recombinant protein promoted
inhibition of adherence and internalization of P. brasiliensisto those in vitrocultured cells.
These observations indicate that TPI could be contribute to the adhesion of the microorganism
to host tissues and to the dissemination of infection. / Paracoccidioides brasiliensis é um importante patógeno humano que causa a
paracoccidioidomicose (PCM), uma micose sistêmica com ampla distribuição na América
Latina. A adesão e a invasão de células são eventos essenciais envolvidos na infecção e
disseminação do patógeno. Para isso, patógenos utilizam suas moléculas de superfície para se
ligar a componentes da matriz extracelular e estabelecer a infecção. Uma proteína antigênica
de P. brasiliensisfoi isolada a partir do gel de eletroforese bidimensional de proteínas totais
do fungo e caracterizada. Peptídeos obtidos por sequenciamento parcial da proteína de 29 kDa
e pI 5.8 mostraram homologia com triose fosfato isomerase (TPI) de diversos organismos. O
cDNA e o gene completos que codificam para TPI de P. brasiliensis (PbTPI) foram
caracterizados, e ambos contém uma ORF que codifica para uma proteína com 249
aminoácidos que apresenta todos os peptídeos caracterizados na PbTPI nativa. O cDNA
completo que codifica para PbTPI foi expresso em Escherichia coli. A proteína recombinante
TPI foi utilizada para produção de anticorpo policlonal em coelho. Através de imunomicroscopia de transmissão eletrônica e análises por Western blotting, foi detectada a
presença da TPI, na parede celular de leveduras de P. brasiliensis e no citoplasma. A
expressão da PbTPI foi analisada na transição das fases de micélio para levedura. A PbTPI
nativa está preferencialmente expressa na fase parasitária de P. brasiliensis. A PbTPI
recombinante foi capaz de se ligar a laminina e fibronectina em ensaios de Western blotting
de afinidade. PbTPI se liga preferencialmente a laminina, como foi determinado por ensaio de
inibição com peptídeos sintéticos. Uma observação importante, é que tanto o tratamento de P.
brasiliensiscom anticorpo anti-PbTPI, quanto de pneumócitos e células VERO tratados com a
TPI recombinante, promoveram considerável inibição da aderência e internalização de P.
brasiliensisàs células cultivadas in vitro. Essas observações indicam que a TPI possivelmente
contribui para a adesão do microrganismo aos tecidos do hospedeiro e para a disseminação da
infecção.
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The interaction of silver nanoparticles with triosephosphate isomerase from human and malarial parasite (Plasmodium falciparum) : a comparative studyDe Moor, Warren Ralph Josephus January 2014 (has links)
The advent of advanced modern nanotechnology techniques offers new and exciting opportunities to develop novel nanotech-derived antimalarial nanodrugs with enhanced selective and targeting abilities that allow for lower effective drug dosages, longer drug persistence and reduced drug degradation within the body. Using a nanodrug approach also has the advantage of avoiding drug resistance problems that plague reconfigured versions of already-existing antimalarial drugs. In this study recombinant triosephosphate isomerase enzymes from Plasmodium falciparum (PfTIM) and Humans (hTIM) were recombinantly expressed, purified and characterised. PfTIM was shown to have optimal pH stability at pH 5.0-5.5 and thermal stability at 25°C with Km 4.34 mM and Vmax 0.876 μmol.ml⁻ₑmin⁻ₑ. For hTIM, these parameters were as follows: pH optima of 6.5-7.0; temperature optima of 30°C, with Km 2.27 mM and Vmax 0.714 μmol.ml⁻ₑmin⁻ₑ. Recombinant TIM enzymes were subjected to inhibition studies using polyvinylpyrrolidone (PVP) stabilised silver nanoparticles (AgNPs) of 4-12 nm in diameter. These studies showed that the AgNPs were able to selectively inhibit PfTIM over hTIM with an 8-fold greater decrease in enzymatic efficiency (Kcat/Km) observed for PfTIM, as compared to hTIM, for kinetics tests done using 0.06 μM of AgNPs. Complete inhibition of PfTIM under optimal conditions was achieved using 0.25 μM AgNPs after 45 minutes while hTIM maintained approximately 31% of its activity at this AgNP concentration. The above results indicate that selective enzymatic targeting of the important, key metabolic enzyme TIM, can be achieved using nanotechnology-derived nanodrugs. It was demonstrated that the key structural differences, between the two enzyme variants, were significant enough to create unique characteristics for each TIM variant, thereby allowing for selective enzyme targeting using AgNPs. If these AgNPs could be coupled with a nanotechnology-derived, targeted localization mechanism – possibly using apoferritin to deliver the AgNPs to infected erythrocytes (Burns and Pollock, 2008) – then such an approach could offer new opportunities for the development of viable antimalarial nanodrugs. For this to be achieved further research into several key areas will be required, including nanoparticle toxicity, drug localization and testing the lethality of the system on live parasite cultures.
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Étude structurale et fonctionnelle d’une sérine/thréonine kinase de staphylococcus aureus / Structural and functional analysis of a serine/threonine kinase from staphylococcus aureusParacuellos torrecilla, Patricia 01 December 2009 (has links)
Les réactions de phosphorylation / déphosphorylation chez les bactéries régulent plusieurs fonctions cellulaires telles que croissance, différenciation, pathogénie, résistance aux antibiotiques, réponse au stress, formation des biofilms ainsi que plusieurs processus impliqués dans le métabolisme secondaire. Cependant, les signaux qui déclenchent la cascade de signalisation par phosphorylation/déphosphorylation intracellulaire restent encore peu connus. Staphylococcus aureus est une bactérie à Gram-positif pathogène pour l‟homme. Elle est l‟une des principales causes des infections nosocomiales et ce pathogène opportuniste est capable de provoquer de multiples infections allant du furoncle à la septicémie. Nos études se sont basées sur la caractérisation aux niveaux structural et fonctionnel de deux protéines de cette bactérie : une sérine/thréonine kinase nommée Stk1 ainsi que l‟un de ses substrats, la triose phosphate isomérase. Stk1 a déjà été identifiée comme responsable de la phosphorylation de plusieurs enzymes impliquées dans le métabolisme central de la bactérie ainsi que dans les phénomènes de virulence et de résistance à l‟antibiotique phosphomycine. Cependant, à ce jour, aucune caractérisation structurale n‟a été conduite sur cette kinase. Nous avons ainsi mené une étude cristallographique de plusieurs domaines de cette protéine et nous présentons, plus particulièrement, la structure de trois domaines extracellulaires dits « PASTA », ainsi qu‟un modèle tridimensionnel de la protéine entière. Les domaines PASTA sont spécifiques des Ser/Thr kinases et des Penicillin-Binding Proteins et sont impliqués dans la synthèse du peptidoglycane. Par conséquent, la connaissance de la structure de ces domaines chez Stk1 pourrait servir de base à la conception rationnelle de nouveaux inhibiteurs à visée thérapeutique. Enfin, nous avons démontré que l‟activité de l‟un des substrats de Stk1, la triose phosphate isomérase, était régulée par phosphorylation / déphosphorylation, et nous avons décrit le mécanisme qui contrôle son activation/inactivation réversible. / The phosphorylation /dephosphorylation reactions in bacteria regulate various cellular functions such as growth, differentiation, pathogenicity, antibiotic resistance, stress response, biofilm formation as well as several processes involved in secondary metabolism. However, detailed understanding of their complete signaling pathways induced by phosphorylation/dephosphorylation is still unclear. Staphylococcus aureus is a Gram-positive bacterium and a human pathogen. It is one of the primary causes of nosocomial infections and this opportunist pathogen is able to cause multiple infections ranging from furuncle to septicemia. This study is focused on the structural and functional characterizations of two proteins from this bacterium: the serine/threonine kinase Stk1 and one of its substrates, the triose phosphate isomerase. Stk1 has been previously identified as responsible for the phosphorylation of several enzymes involved in the central metabolism of this bacterium as well as virulence and resistance to the antibiotic phosphomycin. However, no structural characterization has been done to date. We have performed a crystallographic study of several domains of this protein. We now present the structure of three extracellular domains designated “PASTA” in addition to the 3D molecular model of the entire protein. PASTA domains are specific to bacterial Ser/Thr kinases and to Penicillin-Binding Proteins which are involved in the peptidoglycan synthesis. Thus, the structural knowledge of PASTA domains from Stk1 could be of particular interest in the rational drug-design of new inhibitors with therapeutic aims. Finally, we have demonstrated that triose phosphate isomerase activity is regulated by phosphorylation/dephosphorylation and we have described the reversible activation/inactivation mechanism.
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ESTUDOS ESTRUTURAIS POR CRISTALOGRAFIA E MODELAGEM COMPUTACIONAL DA LIPASE DE PINHÃO MANSO (Jatropha curcas) E DA TRIOSE FOSFATO ISOMERASE DE Naegleria gruberiPenteado, Renato Ferras 09 August 2016 (has links)
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Previous issue date: 2016-08-09 / Coordenação de Aperfeiçoamento de Pessoal de Nível Superior / Knowledge of protein structures is of huge importance, since this information allows to understand the mechanisms through which proteins carry out their biological functions. Lipases constitute an enzymatic family capable to perform synthesis or
hydrolysis of ester bonds of triacyl glycerols (TAGs) with long chain fatty acids.These enzymes are the theme of many investigations given their potential to be used in a wide variety of apllications involving chemicals with the ester functional group,e.g., in organic synthesis. On the other hand, structural knowledge of some enzymes is important for the development of new therapeutic drugs or even to contribute for the understanding of structural evolutionary features, like those belonging to metabolic pathways. In this work were accomplished the homology modeling of the lipase from Jatropha curcas and the structure determination of the triosephosphate
isomerase from Naegleria gruberi from three X ray diffraction data sets. Among three experimental structures obtained, two belong to C2 space group, with different unit cells, and one to P4122 space group. Initial phases were obtained by molecular
replacement procedure using the Phaser program and all structures were refined interactively with Coot and Phenix programs. In one structure it was possible to model three molecules of the precipitant agent Jeffamine present in the
crystallization solution and one molecule of Tris buffer (placed at the active site). Structural comparisons were performed among the refined and validated model and some of its homologues, taking into account the differences observed in the
structural-based alignment among them and characteristics noticed during the refinement procedure. Circular dichroism experiments have shown that thermal denaturation is irreversible to triosephosphate isomerase of Naegleria gruberi. / O conhecimento da estrutura de proteínas é de grande importância, uma vez que esta informação permite o entendimento dos mecanismos pelos quais elas desempenham suas funções biológicas. Lipases constituem uma família enzimática capaz de realizar a síntese ou hidrólise de ligações éster de substratos triacilgliceróis (TAGs) contendo ácidos graxos de cadeia longa. São alvo de muitos estudos dadas
suas potencialidades em um grande número de aplicações envolvendo o grupo funcional éster, por exemplo, em química orgânica síntética. Já o conhecimento estrutural de algumas enzimas é importante para o desenvolvimento de novas
drogas terapêuticas ou mesmo contribuir para o entendimento de aspectos evolutivos estruturais, como daquelas pertencentes a vias metabólicas. Neste trabalho foram realizadas a modelagem por homologia da estrutura lipase da planta Jatropha curcas e a determinação experimental da estrutura da triose fosfato isomerase do microrganismo Naegleria gruberi a partir de três conjuntos de imagens de difração de Raios X. Das três estruturas experimentais obtidas, duas pertencem ao grupo de espaço C2, com células unitárias diferentes, e uma ao grupo de espaço P4122. As fases iniciais foram obtidas com o procedimento de substituição molecular utilizando o programa PHASER e todas as estruturas foram refinadas iterativamente
com o auxílio dos programas COOT e PHENIX. Em uma das estruturas foi possível modelar três moléculas do agente precipitante Jeffamine® presente na condição de cristalização e uma molécula do tampão Tris (no sítio ativo do monômero B).
Comparações estruturais foram realizadas entre o modelo refinado e validado e algumas das proteínas homólogas, tendo em vista diferenças observadas no alinhamento baseado em estrutura entre elas e características notadas durante o
procedimento de refinamento. Experimentos de dicroísmo circular mostraram que a desnaturação térmica é irreversível para esta proteína.
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Identificação proteômica, seqüência de nucleotídeos, expressão heteróloga e reatividade imunológica da triose fosfato isomerase de Paracoccidioides brasiliensis / Proteomic identification, nucleotide sequence, heterologous expression and immunological reactivity of the triosephosphate isomerase of Paracoccidioides brasiliensisPereira, Luiz Augusto 03 May 2004 (has links)
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Previous issue date: 2004-05-03 / Coordenação de Aperfeiçoamento de Pessoal de Nível Superior - CAPES / An antigen of Paracoccidioides brasiliensis (Pb) was gel isolated and
characterized. Endoproteinase Lys-C digested peptides of the purified protein which
presented, molecular mass of 29-kDa and pI of 5.8, were subjected to sequence analysis of its
amino acids. Search at databases comparing the sequence of amino acids from the three
peptides of the native protein, revealed strong homology to triosephosphate isomerase (TPI:
E.C. 5.3.1.1) from several sources. The complete cDNA and gene encoding PbTPI were
obtained and both contained an open reading frame predicted to encode a 249 amino acid
protein that presented all the peptides characterized in the native PbTPI. The Pbtpi gene
contained 6 exons interrupted by 5 introns. Analysis performed with the deduced PbTPI
suggested its usefulness in providing phylogenetic relatedness, as well as evidenced the
correlation between the phylogeny provided by the deduced proteins and introns positions in
the cognate genes. The immunological reactivity of PbTPI was examined. The complete
coding cDNA of PbTPI was over expressed in an Escherichia coli host to produce high levels
of recombinant fusion protein with glutathione S-transferase (GST) that has been purified by
affinity chromatography. The purified recombinant TPI was recognized by sera of patients
with confirmed Paracoccidioidomycosis and not by sera of healthy individuals. Thus,
recombinant PbTPI can be a valuable addition to the still small arsenal of P. brasiliensis
immunoreactive proteins, which could be tested for incorporation in assays for serodiagnosis
of the disease. / Um antígeno de Paracoccidioides brasiliensis (Pb) foi isolado do gel e
caracterizado. Os peptídeos digeridos por Endoproteinase Lys-C da proteína purificada, que
apresentou uma massa molecular de 29-kDA e pI de 5.8, foram submetidos à análise da
seqüência de aminoácidos. Uma busca em bancos de dados de seqüências de aminoácidos
comparados com os três peptídeos da proteína nativa revelou forte homologia com triose
fosfato isomerase (TPI: E.C. 5.3.1.1) de vários organismos. O cDNA e o gene completos que
codificam para PbTPI foram obtidos, e ambos contém uma provável ORF que codifica para
uma proteína com 249 aminoácidos que apresenta todos os peptídeos caracterizados na PbTPI
nativa. O gene Pbtpi apresentou 6 exons interrompidos por 5 introns. Análises realizadas com
a PbTPI deduzida sugerem sua utilidade em prover relações filogenéticas, como também
evidenciou a correlação entre a filogenia gerada pelas proteínas deduzidas e as posições dos
introns nos genes cognatos. A reatividade imunológica da PbTPI foi examinada. O cDNA
completo que codifica para PbTPI foi altamente expresso no hospedeiro Escherichia coli,
produzindo altos níveis de uma proteína recombinante fundida a glutathione S-transferase
(GST), que foi purificada por cromatografia de afinidade. A TPI recombinante purificada foi
reconhecida por soros de pacientes com paracoccidioidomicose confirmada e não por soros
de indivíduos saudáveis. Assim, PbTPI recombinante pode ser uma adição valiosa para o
pequeno arsenal de proteínas imunoreativas de P. brasiliensis, que poderiam ser testadas por
incorporação em ensaios de sorodiagnóstico da doença.
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