Tratamiento químico y biológico de efluentes mineros cianurados a escala laboratorio

El cianuro es el compuesto químico empleado por excelencia para la lixiviación de oro en la industria minera. Sin embargo, es altamente tóxico para los organismos que se desarrollan alrededor de las industrias mineras, y para el medio ambiente. Con el fin de reducir los niveles de cianuro libre en efluentes provenientes de la minería, el trabajo se enfocó en determinar las condiciones óptimas para la degradación de cianuro empleando compuestos químicos y un consorcio microbiano. Los ensayos químicos y biológicos se realizaron por separado, utilizando muestras de efluentes provenientes de la minería a diferentes concentraciones de cianuro (280 y 10 mg/l CN-). Para la degradación química se utilizó tres oxidantes diferentes: hipoclorito de sodio, peróxido de hidrógeno y ácido de caro en diferentes concentraciones, pH (10-11) y tiempos de degradación (4,71 y 20,75 h). Para los ensayos de biodegradación se empleó un consorcio microbiano en matraces que contenían el efluente cianurado y medio líquido a pH (11), agitación (200 rpm) y temperatura (20±5°C). Se midió la concentración de cianuro libre, pH y la concentración de biomasa. Los resultados del tratamiento químico mostraron que el mejor compuesto oxidante fue el peróxido de hidrógeno (8:1 gH2O2/gCN-) a pH (10), obteniendo un 92,7% remoción de cianuro libre en 45 minutos (280 mg/l CN-) y un 91,0% de remoción en 25 minutos (10 mg/l CN-). Mientras que en la degradación biológica en matraces la remoción fue del 73,7% (280 mg/l CN-) en 384 h y de 78,6% (10 mg/l CN-) en 240 h.

Development of semicrystalline morphology of poly(L-lactic acid) during processing of a vascular scaffold

New and promising treatments for coronary heart disease are enabled by vascular scaffolds made of poly(L-lactic acid) (PLLA), as demonstrated by Abbott Vascular’s bioresorbable vascular scaffold. PLLA is a semicrystalline polymer whose degree of crystallinity and crystalline microstructure depend on the thermal and deformation history during processing. In turn, the semicrystalline morphology determines scaffold strength and biodegradation time. However, spatially-resolved information about the resulting material structure (crystallinity and crystal orientation) is needed to interpret in vivo observations.

The first manufacturing step of the scaffold is tube expansion in a process similar to injection blow molding. Spatial uniformity of the tube microstructure is essential for the consistent production and performance of the final scaffold. For implantation into the artery, solid-state deformation below the glass transition temperature is imposed on a laser-cut subassembly to crimp it into a small diameter. Regions of localized strain during crimping are implicated in deployment behavior.

To examine the semicrystalline microstructure development of the scaffold, we employed complementary techniques of scanning electron and polarized light microscopy, wide-angle X-ray scattering, and X-ray microdiffraction. These techniques enabled us to assess the microstructure at the micro and nano length scale. The results show that the expanded tube is very uniform in the azimuthal and axial directions and that radial variations are more pronounced. The crimping step dramatically changes the microstructure of the subassembly by imposing extreme elongation and compression. Spatial information on the degree and direction of chain orientation from X-ray microdiffraction data gives insight into the mechanism by which the PLLA dissipates the stresses during crimping, without fracture. Finally, analysis of the microstructure after deployment shows that it is inherited from the crimping step and contributes to the scaffold’s successful implantation in vivo.

Degradación bacteriana de cianuro y compuestos nitrogenados tóxicos

La ruta de asimilación de cianuro en P. pseudoalcaligenes CECT5344 transcurre a través de un nitrilo formado por la reacción química del cianuro con el oxalacetato, siendo este último acumulado como consecuencia de la acción conjunta de una malato:quinona oxidoreductasa (MQO) y la oxidasa terminal resistente a cianuro (CioAB) (Luque-Almagro et al., 2011b). Los nitrilos pueden ser convertidos en amonio por la acción de una nitrilasa o un sistema nitrilo hidratasa/amidasa. Con el objetivo de elucidar la ruta de asimilación de cianuro en P. pseudoalcalígenes CECT5344, se ha analizado el proteoma de este microorganismo en condiciones cianotróficas frente a nitrato como fuente de nitrógeno como control. En este estudio se identificaron proteínas relacionadas con la ruta de asimilación de cianuro en la estirpe CECT5344, que aparecían inducidas por cianuro, como NitB y NitG, cuyos genes se encuentran localizados en la agrupación génica nit1C. Además de NitB y NitG, de función desconocida, la agrupación génica nit1C codifica un regulador transcripcional del tipo Fis dependiente de σ54 (NitA), una nitrilasa (NitC), una proteína que pertenece a la superfamilia S-adenosilmetionina (NitD), un miembro de la superfamilia N-aciltransferasa (NitE), un polipéptido de la familia AIRS/GARS (NitF) y una oxidorreductasa dependiente de NADH (NitH). Un análisis transcripcional mediante RT-PCR determinó que los genes nitBCDEFGH se cotranscriben, mientras que el gen regulador nitA se transcribe de forma divergente. Además, resultados obtenidos por RT-PCR confirman que la expresión de los genes nitBCDEFGH está inducida por cianuro y reprimida por amonio. La relación entre el cianuro y el grupo de genes nit1C queda patente por el fenotipo de los mutantes deficientes nitA, nitB y nitC, incapaces de usar complejos cianuro-metálicos o 2-hidroxinitrilos como única fuente de nitrógeno. Todos estos datos indican que la nitrilasa NitC, junto con la proteína NitB, utilizan de forma específica determinados nitrilos alifáticos como sustrato, entre los que se encuentran el formado durante la asimilación de cianuro (Estepa et al., 2012). Además, entre las proteínas inducidas por cianuro se identificaron una dihidropicolinato sintasa (DapA), una fosfoserina transaminasa (SerC) y una proteína de función desconocida (Orf1), las tres codificadas por genes del operón cio, una cianasa (CynS), la proteína S6 de la subunidad ribosomal 30S (RpsF), una superóxido dismutasa (SodB), la ferritina (Dps), una oxidorreductasa (Fpr) y un factor de elongación P (EF-P). Una vez identificadas, estas proteínas se han analizado funcionalmente y se han localizado en el genoma de P. pseudoalcaligenes CECT5344 los genes correspondientes, así como los genes adyacentes. La inducción de estas proteínas en condiciones cianotróficas sugiere que el metabolismo del cianuro incluye, además de la resistencia y asimilación de este tóxico, otros procesos biológicos relacionados con el metabolismo del cianato y de algunos aminoácidos, el estrés oxidativo y la homeostasis de hierro, entre otros. Por otra parte, el conocimiento en profundidad y la interpretación de la secuencia génica de P. pseudoalcaligenes CECT5344, así como el análisis comparativo frente a organismos no cianotrofos ha permitido entender algunos de los mecanismos implicados en la resistencia y asimilación de cianuro, lo que permitiría conducir a la posterior mejora del proceso de biodegradación de cianuro. Además, el estudio del genoma de la estirpe CECT5344 permitirá explorar la capacidad de este organismo para ser utilizado en procesos de biorremediación de residuos cianurados en los que se encuentran metales y otros tóxicos (Luque-Almagro et al., 2013; Wibberg et al., 2014). En este trabajo se muestran y discuten los resultados de la secuenciación del genoma de P. pseudoalcaligenes, así como el estudio del análisis filogenético y evolutivo de la cepa, estableciéndose de esta manera relaciones con otras especies en base a los genomas secuenciados de las mismas, entre las que destaca P. mendocina ymp relacionada con P. pseudoalcaligenes CECT5344. El estudio de las características del genoma de P. pseudoalcaligenes CECT5344 ha sido completado con un análisis comparativo frente a los genomas de otras especies de Pseudomonas, encontrándose así semejanzas y diferencias en cuanto a la distribución génica funcional. Por último, se muestra un análisis del genoma de P. pseudoalcaligenes CECT5344 en relación con los genes implicados probablemente en los procesos de asimilación de cianuro y residuos cianurados, tales como los codificantes de nitrilasas y aquellos implicados en la resistencia a cianuro como los constituyentes del operón cio que codifican la oxidasa terminal insensible a cianuro. Finalmente, se discute la presencia de genes implicados posiblemente en otros procesos con una alto potencial biotecnológico, tales como la producción de bioplásticos y la biodegradación de diversos contaminantes.

Síntese do Poli (ácido láctico) por policondensação direta utilizando um planejamento fatorial

The environmental impact caused by the disposal of non-biodegradable polymer packaging on the environment, as well as the high price and scarcity of oil, caused increase of searches in the area of biodegradable polymers from renewable resources were developed. The poly (lactic acid) (PLA) is a promising polymer in the market, with a large availability of raw material for the production of its monomer, as well as good processability. The aimed of this study was synthesis PLA by direct polycondesation of lactic acid, using the tool of experimental design (DOE) (central composite rotatable design (CCRD)) to optimize the conditions of synthesis. The polymer obtained was characterized by scanning electron microscopy (SEM), Fourier transform infrared spectroscopy (FTIR), viscosimetric analysis, differential scanning calorimeter (DSC) and size exclusion chromatography (SEC). The results confirmed the formation of a poly (lactic acid) semicrystalline in the syntheses performed. Through the central composite rotatable design was possible to optimize the crystallization temperature (Tc) and crystallinity degree (Xc). The crystallization temperature maximum was found for percentage of catalyst around the central point (0,3 (%W)) and values of time ranging from the central point (6h) to the upper level (+1) (8h). The crystallization temperature maximum was found for the total synthesis time of 4h (-1) and percentage of catalyst 0,1(W%) (-1). The results of size exclusion chromatography (SEC) showed higher molecular weights to 0,3 (W%) percent of catalyst and total time synthesis of 3,2h

Avaliação da biodegradabilidade de petróleo utilizando microrganismos isolados do estuário do Rio Potengi (RN)

The oil activity in the Rio Grande do Norte State (RN) is a permanent threat to coastal ecosystems, particularly mangroves, with the possibility of oil spills. In this context, the objective of this study was to evaluate the potential resistance of the mangrove environment of a possible spill. Were selected and isolated microorganisms degrading oil by the technique of enrichment cultures and formation of a bacterial consortium. The kinetic study of the consortium was held in rotary incubator shaken at 150 rpm and 30° C. Samples were taken at intervals of 4 hours for analysis of cell concentration and surface tension. The biodegradation was monitored using two methods of respirometry: manometric (OxiTop-C ®) and conductivimetry, where the biodegradation of oil was estimated indirectly by oxygen consumption and CO2 production, respectively. Furthermore, it was used a full 2² factorial design with triplicate at central point to the runs that used the conductivimetric methodology.. The technique of enrichment cultures allowed to obtain thirteen bacterial strains. Kinetic study of the consortium, we can showed the absence of the lag phase, reaching a maximum cell concentration of 2.55 g / L at 16 h of cultivation and a reduction on surface tension. When we adopted the methodology of OxiTop-C was detected a band indicating biodegradability (1% oil v/v), however when we used the conductivimetry methodology did not observe any band that would indicate effective biodegradation. By monitoring a process of biodegradation is necessary to observe the methodology will be adopted to evaluate the biodegradation process, since for the same conditions adopted different methodologies can produce different results. The oil-degrading isolates from soils of the mangrove estuary Potengi / RN are largely to be used in bioremediation strategies of these places, in the case of a possible oil spill, or it can be used in the treatment of waste oil generated in saline environments, since they are optimized the conditions of the tests so that the efficiency of biodegradation reach the minimum level suggested by the standarts

DEVELOPMENT OF A 2-DIMENSIONAL FINITE VOLUME MODEL TO ASSESS HYDRODYNAMIC AND MICROBIAL CONTROLS ON DNAPL DISSOLUTION AND DETOXIFICATION

Tetrachloroethene (PCE) and trichloroethene (TCE) form dense non-aqueous phase liquids (DNAPLs), which are persistent groundwater contaminants. DNAPL dissolution can be "bioenhanced" via dissolved contaminant biodegradation at the DNAPL-water interface. This research hypothesized that: (1) competitive interactions between different dehalorespiring strains can significantly impact the bioenhancement effect, and extent of PCE dechlorination; and (2) hydrodynamics will affect the outcome of competition and the potential for bioenhancement and detoxification. A two-dimensional coupled flowtransport model was developed, with a DNAPL pool source and multiple microbial species. In the scenario presented, Dehalococcoides mccartyi 195 competes with Desulfuromonas michiganensis for the electron acceptors PCE and TCE. Simulations under biostimulation and low velocity (vx) conditions suggest that the bioenhancement with Dsm. michiganensis alone was modestly increased by Dhc. mccartyi 195. However, the presence of Dhc. mccartyi 195 enhanced the extent of PCE transformation. Hydrodynamic conditions impacted the results by changing the dominant population under low and high vx conditions.

Nuclear Magnetic Resonance Spectroscopic and Computational Investigations of Chloroperoxidase Catalyzed Regio- and Enantio-Selective Transformations

Chloroperoxidase (CPO) is the most versatile heme-containing enzyme that catalyzes a broad spectrum of reactions. The remarkable feature of this enzyme is the high regio- and enantio-selectivity exhibited in CPO-catalyzed oxidation reactions. The aim of this dissertation is to elucidate the structural basis for regio- and enantio-selective transformations and investigate the application of CPO in biodegradation of synthetic dyes. To unravel the mechanism of CPO-catalyzed regioselective oxidation of indole, the dissertation explored the structure of CPO-indole complex using paramagnetic relaxation and molecular modeling. The distances between the protons of indole and the heme iron revealed that the pyrrole ring of indole is oriented toward the heme with its 2-H pointing directly at the heme iron. This provides the first experimental and theoretical explanation for the "unexpected" regioselectivity of CPO-catalyzed indole oxidation. Furthermore, the residues including Leu 70, Phe 103, Ile 179, Val 182, Glu 183, and Phe 186 were found essential to the substrate binding to CPO. These results will serve as a lighthouse in guiding the design of CPO mutants with tailor-made activities for biotechnological applications. To understand the origin of the enantioselectivity of CPO-catalyzed oxidation reactions, the interactions of CPO with substrates such as 2-(methylthio)thiophene were investigated by nuclear magnetic resonance spectroscopy (NMR) and computational techniques. In particular, the enantioselectivity is partly explained by the binding orientation of substrates. In third facet of this dissertation, a green and efficient system for degradation of synthetic dyes was developed. Several commercial dyes such as orange G were tested in the CPO-H2O2-Cl- system, where degradation of these dyes was found very efficient. The presence of halide ions and acidic pH were found necessary to the decomposition of dyes. Significantly, the results revealed that this degradation of azo dyes involves a ferric hypochlorite intermediate of CPO (Fe-OCl), compound X.

Improvement of termite resistance, dimensional stability and mechanical properties of pine wood by paraffin impregnation

Paraffin has been used as surface protection of wood throughout the ages but its use for impregnation to improve wood resistance to biodegradation is recent. This study determined the main improvements on wood properties with paraffin impregnation. Healthy Pinus pinaster Ait. wood was impregnated with paraffin at different levels using a hot–cold process. Weight gain, equilibrium moisture content and dimensional stability (ASE) at 35 and 65 % relative humidity, termite durability against Reticulitermes grassei (Clément), bending strength, bending stiffness (MOE) and Janka hardness were determined. Density increased from 0.57 to 0.99, ASE ranged between 38–96 % and 16–71 % for 35 and 65 % relative humidity, respectively. Equilibrium moisture content decreased from 9.9 and 12.0 % to 0.8 and 3.6 % for 35 and 65 % relative humidity. Termite durability improved from level 4 to level 3 of attack, and higher termite mortality was found in treated wood (52 % against 17 %). Bending strength (MOR) increased with paraffin weight gain, reaching a 39 % increase. MOE also increased by about 13 % for wood with a weight gain around 80 %. Janka hardness increased significantly reaching about 40 % for wood with 80 % weight gain. Paraffin impregnated wood has improved properties with regard to equilibrium moisture content, dimensional stability and density, bending strength and Janka hardness, and resistance against termites.

Darkening on Lead based pigments: microbiological contribution

The biodeterioration/biodegradation process is an important issue for the conservation of cultural heritage that needs urgent answers to their rehabilitation. In this way, the role of microorganisms in surfaces alteration was exploited. This work revealed a strong relationship between the microbiological proliferation and the damaged areas, evidencing the important role of the microorganisms in mural paintings alteration process. The oxidation of lead-based pigments noticeably contributes to the pigments alteration, and seems to be correlated with the presence of biodeteriorative microorganisms. The study of the mechanisms underlying the microbiological attack of mural paintings has been explored to understand as much as possible the proliferative ability and biodeteriorative capacity of the microorganisms, related to darkening on lead-based pigments

Toxicological assessment of novel green biocides for cultural heritage.

The damaging of buildings and monuments by biological contamination is a cause of serious concern. Biocides based on chemical toxic compounds have been used to mitigate this problem. However, in the past decade many of the most effective biocides have been banned due to their environmental and health hazards. Therefore, proper remediation actions for microbiologically contaminated historic materials based on environmentally safe solution is of vital importance. Bacillus species are emerging as a promising alternative for built heritage treatment. They produce a great diversity of secondary metabolites with biological activity, well known to possess antagonistic activities against many fungal pathogens. In order to evaluate the antifungal activity of the novel biocides produced in our laboratory by cultures of selected bacterial strains, liquid interaction assays using four biodeteriogenic fungi were achieved, revealing a nearly 100% of inhibitory capacity to fungal proliferation. To confirm their effective safe toxicological properties, in vivo tests using two different biological models were performed. The lyophilized supernatant of the Bacillus culture broth showed no lethality against brine shrimp and also no toxicological effects in Swiss mice through administration of acute dose of 5000 mg/kg by oral gavage. In fact, the bioactive compounds were no lethal at the tested dose unlike Preventol® (commercial biocide) that induced acute toxicity with 10 times minor concentration dose administrated in the same conditions. Therefore, the new bioactive compounds that suppress growth of biodeteriogenic fungi on historical artworks, presenting at the same time no toxicity against other living organisms, constituting an efficient and green safe solution for biodegradation/biodeterioration treatment of Cultural Heritage.

Isolamento e seleção de fungos filamentosos resistentes a atrazina.

Embora a toxicidade de alguns herbicidas tenha sido explorada em profundidade, seu destino no ambiente e sua transformação não são bem compreendidos. a fim de melhor avaliar os impactos da atrazina, e crucial que informações sobre sua biodegradação seja explorada. De solos agrícolas com repetidas aplicações deste herbicida, como também de solos enriquecidos, foram isolados 29 fungos com resistência a altas concentrações do produto 2.000 a 7.000 ppm. Destes fungos, 9 (nove) dos gêneros Penicillium sp. e Eupenicillium sp. mostraram-se capazes de degradação que varia de 26% a 92% dentro de 21 dias, em geral. Os fungos foram cultivados em meio de cultura liquido e incubados no escuro a 28.o C, sob agitação (180 rpm). A extração foi feita com acetato de etila e o consumo da atrazina, pelos fungos, avaliado através de Cromatografia Gasosa com Detecção Termoionica específica a nitrogênio e fósforo.