Laccase: a green catalyst for the biosynthesis of poly-phenols

Laccases (benzene diol: oxidoreductases, EC 1.10.3.2) are able to catalyze the oxidation of various compounds containing phenolic and aniline structures using dissolved oxygen in water. Laccase structural features and catalytic mechanisms focused on the polymerization of aromatic compounds are reported. A description about the most recent research on the biosynthesis of chemicals and polymers is made. Selected applications of this technology are considered as well as the advantages, shortcomings and future needs related with the use of laccases.This study was supported by Chinese Government Scholarship under China Scholarship Council (No. 201606790036) and Chinese Foundation Key projects of governmental cooperation in international scientific and technological innovation (No. 2016 YFE0115700). The authors would also like to acknowledge Portuguese Foundation for Science and Technology (FCT) for the funding of UID/BIO/04469/2013 unit and COMPETE 2020 (POCI-01–0145-FEDER-006684) and BioTecNorte operation (NORTE-01–0145-FEDER-000004) funded by European Regional Development Fund under the scope of Norte2020 – Programa Operacional Regional do Norte.info:eu-repo/semantics/publishedVersio

Em defesa da sociedade: a invenção dos cuidados paliativos e a produção de subjetividades

O artigo é uma reflexão teórica que faz parte de um estudo denominado Em Defesa da Sociedade: a invenção dos Cuidados Paliativos. Para articular tal discussão, utilizamos o manual de Cuidados Paliativos, publicado no ano de 2007 pela Organização Mundial da Saúde (OMS), entendendo-o como parte de um artefato capaz de produzir subjetividades e governar condutas. Nesse sentido, pretendemos descobrir como os discursos sobre os Cuidados Paliativos se articulam e efetuam a invenção de uma nova disciplina que funcionaria como uma estratégia biopolítica para defender a sociedade. A partir da análise textual do discurso instituído pelo manual, com o auxílio do referencial dos Estudos Culturais e sob a inspiração dos escritos de Michel Foucault, articulamos uma das possíveis leituras deste guia. Desta maneira observamos a (re)organização e a (re)invenção de uma disciplina que investe na subjetividade dos indivíduos constituindo aparatos de verdade que regulam e governam a população

Dielectric Lens Antennas

Dielectric lens antennas are attracting a renewed interest for millimeter- and submillimeter-wave applications where they become compact, especially for configurations with integrated feeds usually referred as integrated lens antennas. Lenses are very flexible and simple to design and fabricate, being a reliable alternative at these frequencies to reflector antennas. Lens target output can range from a simple collimated beam (increasing the feed directivity) to more complex multi-objective specifications. This chapter presents a review of different types of dielectric lens antennas and lens design methods. Representative lens antenna design examples are described in detail, with emphasis on homogeneous integrated lenses. A review of the different lens analysis methods is performed, followed by the discussion of relevant lens antenna implementation issues like feeding options, dielectric material characteristics, fabrication methods, and a few dedicated measurement techniques. The chapter ends with a detailed presentation of some recent application examples involving dielectric lens antennas

Perspectives on the Feasibility of Using Enzymes for Pharmaceutical Removal in Wastewater

This particular chapter spotlights the growing environmental concerns and hazardous consequences of numerous organic contaminants so-called emerging contaminants (ECs). These ECs are being detected, though in different quantities, in different environmental matrices and wastewater treatment systems. With ever-increasing awareness, people are now more concerned about the wide-spread distribution of pharmaceutically related active compounds in water matrices. In turn, the free flow of ECs in water matrices poses notable adverse effects on human, aquatic animals, and naturally occurring plants, even at very small concentrations. Due to inadequacies and ineffectiveness of, in practice, physical and chemical-based remediation processes, robust treatment approaches, such as microorganisms and their novel enzyme-based degradation/removal of ECs, are of supreme interest. This chapter focuses on various pharmaceutically related ECs and their efficient mitigation from water matrices. Following a brief introduction, the focus is given to two main treatment approaches, i.e., (1) remediation of pharmaceutically active compounds by crude (pristine) and purified enzymes (i.e., lignin peroxidase, manganese peroxidase, soybean peroxidase, horseradish peroxidase, and laccases) and (2) immobilized enzyme-assisted degradation of pharmaceutically active compounds.Peer reviewe