Aplicações de enzimas na síntese e na modificação de polímeros

Enzymes are biological catalysts that offer great potential for use in the synthesis and modification of polymers, being more specific and greener than chemical catalysts. In this work, enzymes from the classes of hydrolases (lipase, cutinase and protease) and of oxidoreductases (horseradish peroxidase, manganese peroxidase and laccase) were identified as the main biocatalysts responsible for the synthesis of polymers. Biocatalysis can potentially be part of the life cycle of several polymers, including polyesters, polyurethanes, polycarbonates, polyamides, functionalized polysaccharides and polystyrene, allowing the synthesis of specialty macromolecules for fine applications and with higher added-value than commodity polymers.

Análise química da biomassa - uma revisão das técnicas e aplicações

Use of biomass as an alternative to nonrenewable feedstock for energy, materials, and chemicals is currently a prominent theme for industry and R Countries like Brazil, USA, and Germany are spending resources and efforts to promote a green economy based on biomass supply chains. Chemical analysis is an important tool to ensure quality, reliability, and to suggest the best potential use for the biomass, thereby enhancing its economic potential. Analytical techniques can identify chemical components, characterize their properties, and determine their concentration. This article discusses the commonly employed techniques and their application in chemical analysis of biomass and its products.

Construção de eletrodo de grafite retirado de pilha comum: aplicações didáticas

This paper presents a proposal for using recycled graphite electrodes obtained from exhausted commercial 1.5 V batteries and its application in electroanalysis. The electrode could be prepared by the students and applied in the simple didactic experiments suggested, such as determination of active electrode area, cyclic voltammetry and useful potential range (also called "potential window"), demonstration and effect of scan rate on cyclic voltammograms. The possibility of using the graphite electrode in quantitative analysis was also demonstrated using the ferricyanide/ferrocyanide reversible redox couple ([Fe(CN)6]3-/[Fe(CN)6]4-) as an electrochemical probe by the dependence of peak current with the analyte concentration and flow injection analysis with amperometric detection.

Resolução multivariada de curvas com mínimos quadrados alternantes: descrição, funcionamento e aplicações

Multivariate Curve Resolution with Alternating Least Squares (MCR-ALS) is a resolution method that has been efficiently applied in many different fields, such as process analysis, environmental data and, more recently, hyperspectral image analysis. When applied to second order data (or to three-way data) arrays, recovery of the underlying basis vectors in both measurement orders (i.e. signal and concentration orders) from the data matrix can be achieved without ambiguities if the trilinear model constraint is considered during the ALS optimization. This work summarizes different protocols of MCR-ALS application, presenting a case study: near-infrared image spectroscopy.

O Estado da arte da cromatografia líquida bidimensional: conceitos fundamentais, instrumentação e aplicações

The constant evolution of science and the growing demand for new technologies have led to new techniques in instrumentation that can improve detection, separation, resolution, and peak capacity. Comprehensive two-dimensional liquid chromatography (LC×LC) is presented as a powerful tool in complex sample analyses. During an analysis, a sample is subjected to two independent separation mechanisms that are combined, resulting in increased resolving power. For appropriate application of LC×LC, understanding the influence of parameters that require optimization is necessary. The main purpose of optimization is to predict the combination of stationary phases, separation conditions, and instrumental requirements to obtain the best separation performance. This review discusses theoretical, intrumental, and chemometric aspects of LC×LC and focuses on its applications in foods. It aims to provide a clear understanding of the aspects that can be used as strategies in the optimization of this analytical method.

BIOMATERIAIS: TIPOS, APLICAÇÕES E MERCADO

AbstractThe types of compounds used in the production of biomaterials, namely metals, ceramics, synthetic and natural polymers, as well as composite materials, are discussed in the present work, together with details of their application and evolution from biocompatible to bioactive, biodegradable, and biomimetic clinical products. The chemical structure, the three-dimensional structure, and the molecular organization of compounds frequently used in the manufacture of relevant classes of biomaterials are discussed, along with their advantages and some of their major limitations in specific clinical applications. The main chemical, physical, mechanical, and biological requirements of biomaterials categories are presented, as well as typical tissular responses to implanted biomaterials. Reasons for the recent economic growth of the biomaterials market segment are addressed, and the most successful biomaterial categories are discussed, emphasizing areas such as orthopedic and cardiovascular implants, regenerative medicine, tissue engineering, and controlled drug release devices. Finally, the need for the development of innovative and more accessible biomaterials, due to the expected increase in the number of elderly people and the growing trend of personalized medical procedures, is pointed out.

RECENTES APLICAÇÕES EM SÍNTESE ORGÂNICA DE CATÁLISE FOTO REDOX MEDIADA POR LUZ VISÍVEL

In the past few years, photoredox catalysis has become a powerful tool in the field of organic synthesis. Using this efficient method, it is possible to excite organic compounds from visible light and attain alternative mechanistic pathways for the formation of chemical bonds, a result which is not obtainable by classical methods. The rapid growth of work in the area of photoredox catalysis is due to its low cost, broad chemical utility protocols, and, especially, its relevancy from the green and sustainable chemistry viewpoints. Thus, this study proposes a brief theoretical discussion of and highlights recent advances in visible-light-induced photoredox catalysis through the analysis of catalytic cycles and intermediates.

PREPARO DE AMOSTRAS ASSISTIDO POR CAMPO ELÉTRICO: FUNDAMENTOS, AVANÇOS, APLICAÇÕES E TENDÊNCIAS

Sample preparation is commonly considered a key step to achieve selective, sensitive, and reliable chemical analyses, particularly those involving complex matrices. Although the application of electric fields to improve the speed and efficiency of sample preparation methods has been proven, this approach is still considered to be state-of-the-art; hence, further development is necessary to improve future applications. This review describes the fundamentals, advances, applications, and perspectives of using electric fields to enhance sample preparation techniques such as liquid-liquid and solid-liquid extractions in conventional and microscale devices.

INTERAÇÕES FÁRMACO-RECEPTOR: APLICAÇÕES DE TÉCNICAS COMPUTACIONAIS EM AULA PRÁTICA SOBRE A EVOLUÇÃO DOS INIBIDORES DA ENZIMA CONVERSORA DE ANGIOTENSINA

Teaching classes and events regarding the molecular aspects of drug-receptor interactions is not an easy task. The ligand stereochemistry and the spatial arrangement of the macromolecular targets highly increase the complexity of the process. In this context, the use of alternative and more playful approaches could allow students to gain a more thorough understanding of this important topic in medicinal chemistry. Herein, we describe a practical teaching approach that uses computational strategies as a tool for drug-receptor interaction studies performed for angiotencsin converting enzyme inhibitors (ACEi). Firstly, the students learn how to find the crystallographic structure (enzyme-ligand complex). Then, they proceed to the treatment of crude crystallographic data. Thereafter, they learn how to analyze the positioning of the drug on the active site of the enzyme, looking for regions related to the molecular recognition. At the end of the study, students can summarize the molecular requirements for the interaction and the structure-activity relationships of the studied drugs.

MICROEMULSÕES: COMPONENTES, CARACTERÍSTICAS, POTENCIALIDADES EM QUÍMICA DE ALIMENTOS E OUTRAS APLICAÇÕES

Microemulsions (MEs) are thermodynamically stable systems consisting of nanosized droplets dispersed in a solvent continuous medium (known as pseudo-phase), which is immiscible with the dispersed phase. These systems consist of water, a hydrophobic solvent called "oil," an amphiphile and often, a co-surfactant that is normally a medium chain alcohol. A large number of publications describe the importance of MEs in many branches of chemistry, and there is an intensive search for new applications. In addition, MEs have been applied in many areas, including oil extraction, removal of environmental pollutants from soils and effluents, dissolution of additives in lubricants and cutting oils, cleaning processes, dyeing and textile finishing, as nanoreactors to obtain nanoparticles of metals, semiconductors, superconductors, magnetic and photographic materials, and latex. However, only some studies indicate the potential applications of MEs in food and even fewer evaluate their chemical behavior. Potential applications of MEs in food comprise dissolution of lipophilic additives, stabilization of nutrients and biologically active compounds, using as an antimicrobial agent and to maximize the efficiency of food preservatives. This work consists of a literature review focusing on composition and physical and chemical characteristics of microemulsions. Despite the small number of studies on the subject reported in the literature, we demonstrate some potential applications of MEs in food chemistry.

CROMATOGRAFIA POR INTERAÇÕES HIDROFILICAS (HILIC): ESTADO DA ARTE E APLICAÇÕES

Hydrophilic interaction liquid chromatography (HILIC) has been gaining increased attention for its effective separation of highly polar compounds, which include carbohydrates, amino acids, pharmaceutical compounds, proteins, glycoproteins, nucleosides, etc. Polar compounds are usually poorly retained on reverse-phase liquid chromatography (RP-HPLC) columns or have poor solubility in the apolar mobile phase of normal-phase high performance liquid chromatography (NP-HPLC). Since HILIC uses organic solvents such as ACN or MeOH ( > 70%), also used in RP-HPLC and polar stationary phases similar to NP-HPLC (bare silica, diol, amino, amide, saccharide, zwitterionic stationary phases, etc.), it represents a hybrid of the two separation modes. The high organic content in the MP leads to good compatibility with mass spectrometry (MS), increasing the detectivity. This review describes the fundamentals of HILIC and highlights some interesting applications.

Efeito da época, do número de aplicações e de doses de fungicida no controle da giberela em trigo

A giberela é considerada uma doença de infecção floral. Para seu desenvolvimento, são necessárias temperaturas superiores a 20 ºC e períodos de molhamento das espigas maiores do que 72 h durante a antese do trigo (Triticum aestivum). Os objetivos do presente trabalho foram estudar o momento ideal durante a antese para realizar a aplicação de fungicida, o efeito do número de aplicações e de doses de fungicida sobre o controle da doença e sobre a qualidade dos grãos colhidos. Até sete aplicações realizadas durante a antese não erradicaram a doença (controle de 91%). Duas e três aplicações realizadas durante a antese apresentaram controle superior em relação a uma única aplicação. O controle médio dos tratamentos foi de 67% em relação a severidade. O incremento de grãos obtido de 32%, justifica economicamente a aplicação de fungicidas para o controle da doença em plena floração.

Estudos sobre aplicações conjuntas de herbicidas e nematicidas sistêmicos na eficácia dos nematicidas em cana-de-açúcar

Com o objetivo de avaliar uma possível influência da aplicação conjunta de nematicidas sistêmicos e herbicidas sobre a eficácia dos nematicidas, no controle de Meloidogyne spp. e Pratylenchus zeae em cana-de-açúcar (híbrido de Saccharum spp.) no Nordeste, instalaram-se dois experimentos, um irrigado e outro não irrigado, ambos em canaviais nordestinos, há muito cultivados e comprovadamente infestados por fitonematóides. A variedade utilizada foi SP79-1011, os nematicidas aldicarb e terbufós e os herbicidas diuron, ametrina, oxyfluorfen e pendimetalin, aplicados no plantio, nas doses recomendadas comercialmente. As avaliações fundamentaram-se nos níveis populacionais dos nematóides observados em três diferentes momentos, e nos fatores de reprodução. Avaliaram-se também o desenvolvimento das plantas, a produtividade agrícola e dois parâmetros tecnológicos. Os resultados demonstraram que não houve efeito dos herbicidas na eficácia dos nematicidas, nem foram significativas as diferenças em relação à produtividade, exceto na área irrigada, para perfilhamento nos tratamentos com herbicidas, e número de colmos e perfilhos, nos tratamentos com nematicidas em relação à testemunha. Os nematicidas e herbicidas não afetaram os níveis de Pol e PCC do caldo, não interferindo, portanto, na produtividade industrial. Houve interação estatística entre nematicida e herbicida para P. zeae na rizosfera, na área irrigada, com a menor população do parasito encontrada na combinação aldicarb + pendimetalin.

Sensibilidade de Xanthomonas axonopodis pv. citri ao cobre e mancozeb

O cancro cítrico, causado por Xanthomonas axonopodis pv. citri (Xac) é uma das principais doenças na produção de citros em diversas regiões do mundo. A aplicação de produtos químicos com ação bactericida é uma das principais medidas adotadas para o controle dessa doença. O objetivo deste estudo foi determinar a sensibilidade de isolados Xac ao cobre, bem como à mistura de cobre com mancozeb. A maior concentração de cobre em que foi observado crescimento de isolados de Xac foi de 50 µg/mL. Entretanto, 45,5 % dos isolados da bactéria provenientes de pomares que receberam aplicações freqüentes de cobre cresceram na presença de 50 µg/mL de cobre, contra apenas 13,4 % dos isolados oriundos de pomares que não receberam pulverizações regulares do bactericida. A presença de mancozeb em mistura com cúpricos reduziu a sensibilidade ao cobre dos isolados de Xac. Desta forma, o mancozeb não deve ser utilizado em mistura com cobre para o controle do cancro cítrico.

Espectrometria de absorção atômica multielementar simultânea com atomização eletrotérmica em forno de grafite - uma revisão da técnica e aplicações

Este trabalho descreve uma revisão a respeito do emprego da técnica de espectrometria de absorção atômica simultânea em forno de grafite (SIMAAS) em determinações multielementares de elementos-traço em diferentes matrizes. Os principais parâmetros envolvidos e que devem ser considerados em medidas multielementares, tais como, fonte de radiação, geometria do forno, programa de aquecimento e natureza e quantidade de modificador químico, são descritos.