L-DOPA extradiol dioxigenase de amanita muscaria: revisão da sequência codificadora, expressão heteróloga, caracterização funcional e contextualização filogenética / Amanita muscaria L-DOPA extradiol dioxygenase: coding sequence review, heterologous expression, functional characterization, and phylogenetic context

Extradiol dioxigenases são enzimas que catalisam a clivagem oxidativa de ligações C-C entre grupos hidroxila fenólicos adjacentes utilizando catecóis como substratos. Esta classe de enzimas é bem caracterizada em bactérias, onde catalisam a degradação de compostos aromáticos. Na maioria das plantas Caryophyllales, como a beterraba, primavera e a maravilha, L-3,4-diidroxifenilalanina (L-DOPA) extradiol dioxigenases (DODAs) catalisam a clivagem oxidativa de L-DOPA na posição 4,5 gerando o ácido betalâmico, aldeído precursor das betalaínas, uma classe de pigmentos naturais que substitui as antocianinas na pigmentação dessas espécies. Alguns fungos basidiomicetos também produzem betalaínas, como o agário-das-moscas (Amanita muscaria). Nesse organismo, DODA é capaz de catalisar uma clivagem adicional na posição 2,3 da L-DOPA, formando muscaflavina, um isômero do ácido betalâmico que dá origem a uma outra classe de pigmentos naturais: as higroaurinas. Desde a caracterização do gene dodA, o qual codifica para a DODA de A. muscaria (AMAMU), não existem relatos na literatura que explorem a promiscuidade catalítica desta enzima, sua relação com outras linhagens de DODAs e a síntese quimioenzimática de betalaínas a partir desta enzima. Dessa forma, buscamos contextualizar as relações filogenéticas e funcionais entre AMAMU e diferentes linhagens de DODAs, bem como estabelecer um método que viabilize a clonagem, expressão heteróloga e caracterização funcional destaenzima. As análises filogenéticas revelaram que AMAMU possui uma evolução convergente com DODAs de plantas e bactérias e que, apesar de AMAMU ser funcionalmente homóloga à DODA da bactéria Escherichia coli, esta última apresenta homologia com DODAs de plantas. Logo, não há uma relação direta entre a sequência primária de DODAs e sua função. Nós também demonstramos que não há uma relação entre a expressão de transcritos de BvDODA1, e de seu parálogo BvDODA2, e a diferença de pigmentação entre variedades de beterrabas amarelas e vermelhas. A clonagem da sequência codificadora (CDS) publicada para o gene dodA de A. muscaria resultou na retenção do primeiro íntron, o que impedia a sua expressão. Então, uma nova CDS de 558 nucleotídeos foi proposta para este gene, a qual inclui um códon de início da tradução que se mantém na fase de leitura e codifica para uma proteína de 185 resíduos, 43 a menos que AMAMU. A expressão desta CDS resultou na proteína recombinante AmDODA, capaz de catalisar a síntese de ácido betalâmico e muscaflavina a partir de L-DOPA e D-DOPA. AmDODA possui um tamanho aproximado de 22 kDa, com um pH ótimo de atividade de 8,5 e uma constante de Michaelis (KM) de 3,7 ± 0,9 mmol L-1 e de velocidade máxima (Vmax) de 3,3 ± 0,4 µ mol min-1 mg-1. Sua utilização foi demonstrada na síntese quimioenzimática de betalaínas-modelo com potencial aplicação como sondas para microscopia confocal de fluorescência de dois fótons. Neste contexto, esta Tese explora os aspectos moleculares, bioquímicos e biológicos da DODA do fungo A. muscaria e traz importantes contribuições acerca da pigmentação por betalaínas na natureza

Extradiol dioxigenases are enzymes that catalyze the oxidative cleavage of C-C bonds between adjacent phenolic hydroxyl groups using catechols as substrates. This class of enzymes is well characterized in bacteria, where they catalyze the degradation of aromatic compounds. In most plants of the Order Caryophyllales, such as beet, paperflower and four o'clock flower, L-3,4-dihydroxyphenylalanine (L-DOPA) extradiol dioxygenases (DODAs) catalyze the oxidative 4,5-cleavage of L-DOPA generating the betalamic acid, an aldehyde precursor of the betalains, a class of natural pigments that replaces anthocyanins in the pigmentation of these species. Some basidiomycete fungi also produce betalains, such as the fly agaric (Amanita muscaria). In this organism, DODA is able to catalyze an additional 2,3-cleavage of L-DOPA, yielding muscaflavine, an isomer of betalamic acid that gives rise to another class of natural pigments: the hygroaurins. Since the characterization of the dodA gene, which encodes the A. muscaria DODA (AMAMU), there are no reports in the literature that explore the catalytic promiscuity of this enzyme, its relation to other DODAs and the chemoenzymatic synthesis of betalains from this enzyme. Thus, we seek to contextualize the phylogenetic and functional relationships between AMAMU and different DODA lineages, as well as to establish a method that enable the cloning, heterologous expression and functional characterization of this enzyme. Phylogenetic analysis revealed that AMAMU has a convergent evolutionwith plant and bacterial DODAs and that although AMAMU is functionally homologous to the DODA of the Escherichia coli bacteria, this latter is homologous to the plant DODAs. Therefore, there is no direct relationship between the primary sequence of DODAs and their function. We have also shown that there is no relationship between the expression of BvDODA1 transcripts, and its BvDODA2 paralogue, and the pigment difference between yellow and red beet varieties. Cloning of the published coding sequence (CDS) for the dodA gene of A. muscaria resulted in the retention of the first intron, which prevented its expression. Then, a new CDS of 558 nucleotides was proposed for this gene, which includes a translation start codon that remains in the open reading frame and encodes for a protein 185 residues long, 43 less than AMAMU. Expression of this CDS resulted in the recombinant AmDODA protein, able to catalyze the synthesis of betalamic acid and muscaflavine from L-DOPA and D-DOPA. AmDODA has an approximate size of 22 kDa, with an optimum activity pH of 8.5 and a Michaelis constant (KM) of 3.7 ± 0.9 mmol L-1 and a maximum velocity (Vmax) of 3.3 ± 0.4 µmol min-1 mg-1. Its use was demonstrated in the chemoenzymatic synthesis of betalains-model with potential application as probes for confocal microscopy of two-photon fluorescence. In this context, this thesis explores the molecular, biochemical and biological aspects of the DODA of the fungus A. muscaria and brings important contributions about the pigmentation by betalains in nature

Características de las residencias de terapia intensiva pediátrica de la República Argentina: Encuesta nacional / Characteristics of pediatric intensive care residency programs in Argentina: A national survey

Introducción. La residencia de terapia intensiva pediátrica (TIP) tiene pocos años de desarrollo en nuestro país. Conocer su situación brinda la posibilidad de establecer estrategias para contribuir al desarrollo y capacitación de profesionales. Objetivos. 1) Describir las características de las residencias de TIP del país. 2) Evaluar si existen características que se relacionen con una mayor ocupación de las vacantes. 3) Explorar la inserción laboral en el hospital formador de los residentes. Diseño. Descriptivo, observacional. Encuesta nacional. Criterios de inclusión. Residencias de TIP funcionales entre el 1/4/2014 y el 31/5/2014. Resultados. Se analizaron 31 residencias. Solo 11/31 tenían volumen de internación anual >400 pacientes. No había normas y/o criterios de atención en 9/31. En 17/31, el programa estuvo adecuado al marco de referencia nacional. Hubo 13/31 que no contaban con jefe ni instructor de residentes. Fueron acreditadas por el Ministerio de Salud 5/31. Hubo 65 vacantes; el número aumentó en los últimos 4 años; la ocupación disminuyó de 59% en 2009 a 30% en 2013. El 60% de los residentes tuvo inserción laboral en la TIP formadora. El análisis de regresión logística multivariado identificó la variable ingresos anuales > 400 pacientes como predictora independiente de ocupación de vacantes > 60%. Conclusiones. 1) Hay un déficit en la ocupación de cargos. 2) El número de residencias acreditadas es escaso. 3) Las unidades de cuidados intensivos pediátricos con mayor número de ingresos se asociaron a una mayor cobertura de vacantes. 4) Más de la mitad de los residentes se insertaron laboralmente en la TIP formadora.

Introduction. Pediatric intensive care residency programs have been in place in Argentina for just a few years. Knowing their status offers the possibility to establish strategies to help with professional development and training. Objectives. 1) To describe the characteristics of pediatric intensive care residency programs across Argentina. 2) To assess whether certain characteristics are related to a higher vacancy filling rate. 3) To assess job placement in the hospital where residents are trained. Design. Descriptive, observational study. National survey. Inclusion criteria. Pediatric intensive care residency programs in place between April 1st, 2014 and May 31st, 2014. Results. Thirty-one residency programs were analyzed. Only 11/31 had an annual hospitalization volume >400patients. There were no guidelines and/or criteria for care in 9/31. The program suited the national reference frameworkin17/31. There was no head ofresidents or resident trainer in 13/31. Only 5/31 had been certified by the Ministry of Health. There were 65 vacancies; this number increased in the past four years; vacancy filling rate decreased from 59% in 2009 to 30% in 2013. Sixty percent of residents got a job in the pediatric intensive care unit where they were trained. A multivariate logistic regression analysis identified the outcome measure annual hospitalization volume >400 patients as an independent predictor of vacancy filling rate >60%. Conclusions. 1) Vacancy filling is deficient. 2) The number of certified residency programs is scarce. 3) Pediatric intensive care units with a higher number of hospitalizations were associated with a higher vacancy filling rate. 4) More than half of residents got a job in the pediatric intensive care unit where they were trained.

Molecular modeling of 2-nitropropane dioxygenase domain of Mycobacterium tuberculosis H37Rv and docking of herbal ligands.

The 3D structure of enoyl reductase (ER) domain generated by the SWISS MODEL server contains the 2-nitropropane dioxygenase (2NPD) structure displaying the TIM barrel fold. Though TIM barrel fold is made up of both main and inserted domains, in our study, we could only predict the structure of the main domain, which had central barrel of eight β-strands surrounded by eight α-helices. Superimposition of the 2NPD region of ER domain of Mycobacterium tuberculosis H37Rv on to the corresponding region of 2UVA_G revealed a good structural alignment between the two, suggesting this template to be a good structural homologue. Among various herbal ligands that were screened as inhibitors, daucosterol was found to bind in closest proximity to the flavin mono nucleotide (FMN) binding site with the lowest docking energy

Enzymatic characteristics of quercetinases from some indigenous Aspergillus flavus strains.

Five indigenous Aspergillus flavus strains MTCC-2206, 1884, 1883, 1783 and 2456 were screened for the secretion of quercetinase. Fungal strains MTCC-2206, 1884, 1883, and 1783 were found to secrete the quercetinase in the range of 0.24-0.36 enzyme unit/mL of the culture medium, while MTCC-2456 secreted only 0.04 enzyme unit/mL. The enzymatic characteristics of quercetinase were determined. The Km values using quercetin as the substrate were 12.5 microM, 14.0 microM, 12.5 microM and 13.0 microM for the quercetinase produced by MTCC-2206, 1884, 1883 and 1783, respectively. The pH optima for the above enzymes were 6.5, 6.5, 6.0 and 6.0 and temperature optima were 45, 40, 45 and 50 degrees C, respectively. The partial purification from only one strain MTCC-2206 was achieved (nearly 3-fold purification).