Cutinases fúngicas: propriedades e aplicações industriais

Cutinases (EC 3.1.1.74) are also known as cutin hidrolases. These enzymes share catalytic properties of lipases and esterases, presenting a unique feature of being active regardless the presence of an oil-water interface, making them interesting as biocatalysts in several industrial processes involving hydrolysis, esterification and trans-esterification reactions. They are also active in different reaction media, allowing their applications in different areas such as food industry, cosmetics, fine chemicals, pesticide and insecticide degradation, treatment and laundry of fiber textiles and polymer chemistry. The present review describes the characteristics, potential applications and new perspectives for these enzymes.

Alographia dos álkalis... de Frei Conceição Veloso: um manual de química industrial para produção da potassa no Brasil colonial

Potassium carbonate, or potash, was the most important industrial chemical of the 18th century. It was essential for producing glass, soap, saltpeter, dyes, several drugs, and also used for bleaching linens, paper, and sugar. We examine here a book in which Brazilian author José Mariano da Conceição Veloso gathered his translations into Portuguese of English and French articles, letters, patents, and pamphlets with instructions on how to prepare potash. We discuss especially his version of Richard Watson's essay entitled 'Of saline substances', and Veloso's own 'Flora Alographica', a description of the Brazilian plants that could be used to prepare potash.

Quitosana: biopolímero funcional com potencial industrial biomédico

The importance of chitosan has grown significantly over the last two decades due to its renewable and biodegradable source, and also because of the recent increase in the knowledge of its functionality in the technological and biomedical applications. The present article reviews the biopolymer chitosan and its derivatives as versatile biomaterials for potential drug delivery systems, as well as tissue engineering applications, analgesia and treatment of arthritis.

Transformações biológicas: contribuições e perspectivas

In a moment that amazingly advances are being reached on the development of technologies to obtain high value chemical compounds as polymers, fine chemicals, pharmaceutical industry intermediates and chemical entities, we cannot refuse that a meaningful progress is due to the maturing in knowledge of biological transformations. Biocatalysis and biotransformations are being widespread applied to generate processes and products with incredible success. In this review article we present the main contributions of biotechnology and biological catalytic processes to Chemistry, the most important evolution steps on enzymatic transformations, how it has being applied and which are the perspectives to academic and industrial environments. We also would like to stimulate the community to step out research in biotechnology applicable to chemical and pharmaceutical industries, trying to achieve what we believe to be the ideal layout: integrating chemical transformations, enzymatic conversions and fermentation processes.

Concentrações e associações geoquímicas de Pb e Zn em sedimentos do rio São Francisco impactados por rejeitos da produção industrial de zinco

Surface sediments from the River São Francisco were analyzed to investigate the impact, due to the presence of metals (Cd, Cu, Pb, Zn) in wastes from a metallurgical industry in the city of Três Marias/MG, Brazil. The concentrations and geochemical associations of Pb, Zn and trace metals associated with the minerals employed in zinc production were measured. Sediments close to discharge locations were highly contaminated with Pb (332-512 μg g-1) and Zn (7872-10780 μg g-1), with values decreasing rapidly due to dilution and hydraulic sorting. Evaluation of toxicity according to the Consensus-based Sediment Quality Guidelines indicated for Cd, Pb and Zn a high probability of adverse effects on aquatic biota at these sites.

Aplicação de quitosana como suporte para a imobilização de enzimas de interesse industrial

Chitosan, poly[β-(1-4)-linked-2-amino-2-deoxy-D-glucose], is the N-deacetylated product of chitin which is a major component of arthropod and crustacean shells such as lobsters, crabs, shrimps, and cuttlefishes. In addition, chitosan has many significant biological and chemical properties such as biodegradability, biocompatibility and bioactivity as well as polycationic properties. Thus, it has been widely used in many industrial and biomedical applications including wastewater treatment, chromatographic support, carriers for controlled drug delivery and enzyme immobilization. This review is an insight into the exploitation of utilization of chitosan based-supports in different geometrical configurations on the immobilization of enzymes by different protocols for further application in biotransformation reactions.

Fatos e tendências da biocatálise

Brazil is renowned for its biodiversity; however, its economy is based on exotic plants, extraction and unsustainable use of natural resources. This issue was addressed in a recent QN review entitled "Chemistry without Borders." In order to explore the potential of Brazilian biodiversity fully, sustainable development is required in key technological areas, such as biotechnology. This research field is consistent with the green chemistry and white technology principles. Therefore, biotechnology is a sustainable alternative to conventional technologies and is expected to account for 20% of global chemicals by 2020. Brazil is the second largest grower of biotech crops and biodiesel, but its main activities rely on the fermentative process. In order to stimulate the national biotechnology development, the Brazilian Federal Government launched a national policy for biotechnology in 2007 and the National Committee of Biotechnology was created. Among the outstanding biotechnological processes, biocatalysis is one of the most important alternatives to conventional processing, and this field has changed dramatically with the advent of recombinant DNA technology in the 1970s, when large quantities of enzymes were accessible. The direct evolution methodology in the 1990s was a breakthrough and allowed tailoring of enzymes possessing high stability and stereoselectivity. However, about 60 years after the first industrial enzymatic biotransformation of steroids, the full potential of biocatalysis is far from being achieved. Future challenges in this field concern the multienzyme cascade reactions associated with optimized chemoenzymatic processes, and some recent industrial application of biocatalysts are also highlighted in this perspective.

Application of fourier transform infrared spectroscopy, chemical and chemometrics analyses to the characterization of agro-industrial waste

Agroindustrial waste in general presents significant levels of nutrients and organic matter and has therefore been frequently put to agricultural use. In this context, the objective of this study was to determine the chemical composition, nitrogen, phosphorus, potassium, calcium, magnesium and carbon content, as well as the qualitative characteristics through Fourier transform infrared spectroscopy of four samples of poultry litter and one sample of cattle manure, from the southwestern region of Paraná, Brazil. Results revealed that, in general, the poultry litter presented higher amount of nutrients and carbon than the cattle manure. The infrared spectra allowed identification of the functional groups present and the differences in degree of sample humification. The statistical treatment confirmed the quantitative and qualitative differences revealed.

QUÍMICA VERDADEIRAMENTE VERDE – PROPRIEDADES QUÍMICAS DO CLORO E SUA ILUSTRAÇÃO POR EXPERIMENTOS EM ESCALA MINIATURIZADA

Chlorine, one of the most frequent elements on earth and most important key chemicals, is indispensable in the syllabi of school and university courses in Inorganic Chemistry. However, its toxicity and high volatility preclude experimental demonstration of its properties in secondary and high schools and most university labs. This paper summarises the industrial role of chlorine and presents miniaturised experiments demonstrating some of the processes used in Industrial Inorganic Chemistry. Furthermore, experiments illustrating important concepts of Inorganic Chemistry such as Ion Bonding and Molecular Orbital Theory are describe.

PYROLIGNEOUS LIQUOR PRODUCED FROM ACACIA MEARNSII DE WILD WOOD UNDER CONTROLLED CONDITIONS AS A RENEWABLE SOURCE OF CHEMICALS

Acacia mearnsii de Wild (black wattle) is one of the most important trees planted in Southern Brazil for tannin extraction and charcoal production. The pyrolysis of the black wattle wood used for obtaining charcoal is performed in brick ovens, with the gas fraction being sent directly into the environment. The present study examines the condensable compounds present in the liquor produced from black wattle wood at different thermal degradation conditions, using gas chromatography coupled with mass spectrometry (GC/MS). Branches of black wattle were thermally degraded at controlled ambient and temperature conditions. Overall, a higher variety of compounds were obtained under atmospheric air pressure than under synthetic air pressure. Most of the tentatively identified compounds, such as carboxylic acids, phenols, aldehydes, and low molecular mass lignin fragments, such as guayacol, syringol, and eugenol, were products of lignin thermoconversion. Substituted aromatic compounds, such as vanillin, ethyl vanillin, and 2-methoxy-4-propeny-phenol, were also identified. At temperatures above 200 ºC, furan, 2-acetylfuran, methyl-2-furoate, and furfural, amongst others, were identified as polysaccharide derivatives from cellulose and hemicellulose depolymerization. This study evidences the need for adequate management of the condensable by-products of charcoal production, both for economic reasons and for controlling their potential environmental impact.

Controle da requeima em tomateiro industrial com fungicidas e silicato de potássio

O objetivo deste trabalho foi avaliar o efeito da aplicação de fungicidas e silicato de potássio, no controle da requeima (Phytophthora infestans), em tomateiro industrial. Os fungicidas foram aplicados com base no sistema de previsão de Wallin e calendário fixo de pulverizações. Empregou-se o delineamento em blocos casualizados com 6 tratamentos e 4 repetições. Os tratamentos (T) foram: T1 - testemunha; T2 - dimetomorfe + clorotalonil (valores de severidade da doença (VSD = 10) + metiram; T3 - metalaxil-M + clorotalonil (VSD = 10) + metiram (o metiram foi aplicado somente na semana onde o VSD não atingiu o valor requerido para o tratamento); T4 - calendário fixo: dimetomorfe + clorotalonil, mancozeb, metalaxil-M + clorotalonil e clorotalonil, alternados semanalmente; T5 - silicato de potássio (5 g/L) e T6 - silicato de potássio (15 g/L). A severidade foi avaliada utilizando-se uma escala descritiva variando de 0 a 100 %. A severidade final foi: 100; 2,6; 12,3; 5,5; 97,6 e 96 %, respectivamente, nos tratamentos T1, T2, T3, T4, T5 e T6. A severidade foi em média, 93 % menor nos tratamentos que receberam aplicações de fungicidas em relação a testemunha. Dentre os tratamentos que empregaram sistema de previsão o 2 apresentou melhor resultado do que o 3. O tratamento 2 apresentou eficiência comparável ao calendário semanal (tratamento 4), apresentando produtividades de 62.103,73 e 52.473,33 kg/ha, respectivamente, sendo superiores aos demais tratamentos. Aplicações de silicato de potássio nas duas doses testadas não diferiram significativamente da testemunha, indicando a ineficiência do produto em controlar a requeima.

Manejo da requeima do tomateiro industrial empregando sistema de previsão

Três experimentos foram conduzidos utilizando-se o híbrido de tomateiro industrial H 7155N, em 2003 e 2004 visando adequar um sistema de previsão modificado para o uso de fungicidas no manejo da requeima causada por Phytophthora infestans. Os experimentos foram conduzidos num delineamento em blocos ao acaso com dez tratamentos e três repetições. Os fungicidas sistêmicos foram aplicados quando o valor de severidade da doença (VSD) alcançou oito, dez ou doze pontos. A alternância dos fungicidas sistêmicos com o metiram ocorreu na semana em que não foram alcançados os VSD´s. O tratamento calendário de pulverização para o controle da requeima consistiu da aplicação semanal de fungicidas após o aparecimento dos primeiros sintomas e aqueles definidos pelo sistema de previsão foram baseados nos VSD acumulados durante o experimento. A avaliação da requeima foi feita semanalmente com auxílio de uma escala descritiva de severidade e uma chave diagramática. A eficiência dos tratamentos foi comparada calculando-se a área abaixo da curva do progresso da doença, a taxa de progresso da doença (r) e produtividade de tomate. Os valores de r do melhor tratamento (dimetomorfe misturado com clorotalonil (VSD = 10) alternado com metiram variaram de 0,03 a 0,07, enquanto para o tratamento calendário semanal foi de 0,05 a 0,09 e para testemunha de 0,24 a 0,39. Dimetomorfe + clorotalonil (VSD = 10) alternado com metiram produziu em média 15,7 toneladas a mais de tomate, comparado ao tratamento calendário semanal de fungicidas. Dimetomorfe ou metalaxil-M misturado com clorotalonil (VSD = 10) baseado no sistema de previsão sem a alternância com metiram diferiu do calendário semanal baseado na severidade da doença e na produção de tomate. Os tratamentos piraclostrobina misturado com metiram (VSD = 8; VSD = 10) alternado com metiram; dimetomorfe misturado com mancozeb (VSD = 8; VSD = 10) alternado com metiram proporcionaram controle intermediário da requeima. O sistema de previsão baseado no uso de dimetomorfe misturado com clorotalonil alternado com metiram (VSD = 10) permitiu redução de uma aplicação da mistura dimetomorfe misturado com clorotalonil pulverização em dois dos três experimentos, comparados ao tratamento calendário semanal de aplicação de fungicidas, sem afetar a produção.

Efeito da aplicação de fungicidas no controle de doenças foliares de arroz irrigado e sua relação com o rendimento industrial

RESUMO As doenças foliares do arroz podem comprometer o enchimento e a maturação dos grãos por acelerar a sua secagem e, consequentemente, reduzir o rendimento industrial. O uso de fungicida tem o potencial de reduzir os danos das doenças foliares da cultura e aumentar o rendimento industrial. O objetivo deste trabalho foi avaliar o número de aplicação de fungicida em diferentes estádios fenológicos no controle de doenças foliares para o patossistema múltiplo (brusone, mancha parda e escaldadura) e sua relação com o rendimento industrial (rendimento de benefício, grãos inteiros e grãos quebrados). Os experimentos foram conduzidos nas safras agrícolas 2011/12 e 2012/13 no município de Rio do Oeste, localizado no Alto Vale do Itajaí, estado de Santa Catarina. Nos experimentos foi utilizada a cultivar SCS 116 Satoru. O delineamento foi de blocos casualizados, com quatro repetições e seis tratamentos constituídos de aplicações de mistura de fungicida difenoconazol e azoxistrobina, sendo um dos tratamentos (testemunha) sem aplicação. As aplicações de fungicidas foram feita no estádio vegetativo V8 e nos reprodutivos R0, R2, R4 e R6. A colheita foi de forma manual, colhendo-se 2m2 da área central de cada parcela. Uma, duas, três, quatro e cinco aplicações de fungicida apresentaram incremento médio em relação á testemunha nas duas safras, de 6%, 7,2%, 13,1%, 17,4% e 19,2% no rendimento debenefício,14,6%, 28,5%, 36,1%, 45% e 48,7% para grãos inteiros e reduziu o percentual de grãos quebrados em 4,4%, 13,2%, 21,7%, 35% e 41,4,1%, respectivamente.

Influência do tratamento térmico do resíduo sólido industrial (Grits) na resistência mecânica de um latossolo para pavimentos de estradas florestais

Em estudos que envolvem o tratamento de solos com aditivos químicos com fins rodoviários, merecem especial importância aquelas pesquisas orientadas no sentido de descobrir novos meios de torná-los mais econômicos e, ao mesmo tempo, mais resistentes. No presente trabalho, o resíduo sólido industrial Grits, oriundo do processo de fabricação de papel e celulose, foi aplicado a um latossolo denominado ETA, característico da microrregião de Viçosa, Minas Gerais, Brasil, com o intuito de melhorar suas características mecânicas para sua aplicação em pavimentos de estradas florestais. O Grits, após receber tratamento térmico a 200, 300, 400, 500 e 600 ºC, em mufla, foi misturado no teor de 10%, em peso, ao solo anteriormente citado. Parâmetros geotécnicos, característicos dos ensaios de compactação e resistência à compressão simples, foram utilizados para avaliar o efeito do tratamento térmico nas misturas solo+10% Grits. Os resultados indicaram que o Grits tem potencial para estabilização de solos de pavimentos de estradas florestais, sendo o melhor resultado alcançado para o Grits tratado a 600 ºC, pois houve ganhos de resistência mecânica.

Industrial solid waste (whitewash mud) use in forest road pavements

The objective of the present study was to evaluate the effects of industrial solid waste (whitewash mud) on geotechnical properties considering the following engineering parameters: California Bearing Ratio (CBR), Atterberg limits and Permeability test. Seven soil samples derived from Alagoinhas, Bahia - Brazil, were classified by the Transportation Research Board (TRB) system. Two were selected as having a great geotecnical potential classified as A-3 (0) and A-2-4 (0), whitewash mud contents 10%, 15%, 20% and 25% dry weight and medium compaction effort were studied in the laboratory testing program. The results indicated the soil denominated good gravel as being the most promising one, when stabilized with whitewash mud, reaching the best results with the dosage of 20 and 25% of whitewash mud.