Carolyne Caetano Gonçalves scite author profile

Lignin is a recalcitrant macromolecule formed by three alcohols (monolignols) predominantly connected by β-aryl ether linkages and is one of the most abundant organic macromolecules in the biosphere. However, the role played by environmental bacteria in lignin degradation is still not entirely understood. In this study, we identified an environmental Klebsiella strain isolated from sediment collected from an altitudinal region in a unique Brazilian biome called Caatinga. This organism can also grow in the presence of kraft lignin as a sole source of carbon and aromatic compounds. We performed whole-genome sequencing and conducted an extensive genome-based metabolic reconstruction to reveal the potential mechanisms used by the bacterium Klebsiella variicola P1CD1 for lignin utilization as a carbon source. We identified 262 genes associated with lignin-modifying enzymes (LMEs) and lignin-degrading auxiliary enzymes (LDAs) required for lignin and aromatic compound degradation. The presence of one DyP (Dye-decolorizing Peroxidase) gene suggests the ability of P1CD1 strain to access phenolic and nonphenolic structures of lignin molecules, resulting in the production of catechol and protocatechuate (via vanillin or syringate) along the peripheral pathways of lignin degradation. K. variicola P1CD1 uses aldehyde-alcohol dehydrogenase to perform direct conversion of vanillin to protocatechol. The upper funneling pathways are linked to the central pathways of the protocatechuate/catechol catabolic branches via β-ketoadipate pathways, connecting the more abundant catabolized aromatic compounds with essential cellular functions, such as energy cellular and biomass production (i.e., via acetyl-CoA formation). The combination of phenotypic and genomic approaches revealed the potential dissimilatory and assimilatory ability of K. variicola P1CD1 to perform base-catalyzed lignin degradation, acting on high- and low-molecular-weight lignin fragments. These findings will be relevant for developing metabolic models to predict the ligninolytic mechanism used by environmental bacteria and shedding light on the flux of carbon in the soil.

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Bioprospecting Microbial Diversity for Lignin Valorization: Dry and Wet Screening Methods

Gonçalves

Bruce

Silva

et al. 2020

Front. Microbiol.

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Lignin is an abundant cell wall component, and it has been used mainly for generating steam and electricity. Nevertheless, lignin valorization, i.e. the conversion of lignin into high value-added fuels, chemicals, or materials, is crucial for the full implementation of cost-effective lignocellulosic biorefineries. From this perspective, rapid screening methods are crucial for time-and resource-efficient development of novel microbial strains and enzymes with applications in the lignin biorefinery. The present review gives an overview of recent developments and applications of a vast arsenal of activity and sequence-based methodologies for uncovering novel microbial strains with ligninolytic potential, novel enzymes for lignin depolymerization and for unraveling the main metabolic routes during growth on lignin. Finally, perspectives on the use of each of the presented methods and their respective advantages and disadvantages are discussed.

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Estudo Prospectivo sobre Sistema de Controle e Aceleração em Elevadores

Borges

Blumm

Matos

et al. 2019

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O presente estudo pretende mostrar, por meio da prospecção tecnológica, uma análise comparativa e analítica de tecnologias que utilizam arquiteturas reconfiguráveis com sistemas de controle e aceleração para o controle do tráfego de usuários em elevadores comerciais, visando a reduzir o tempo de espera de viagem dos usuários e diminuir o consumo de energia. Para esse levantamento, foram realizadas pesquisas na base de patentes Patentscope WIPO, consultas na base de artigos Web of Science, bem como uma análise de mercado e avaliação da maturidade tecnológica desse sistema de controle. A patente registrada no INPI pela Universidade de Brasília sob o nº PI 9500121-1 foi usada como objeto de estudo. Foram encontradas 662 patentes e 113 artigos através de buscas por palavras-chave, sugerindo que essa tecnologia está madura e, portanto, bem estabelecida no mercado. Assim, foram sugeridas novas aplicações para a tecnologia de forma a justificar a manutenção da patente, além de uma análise FOFA demonstrando os pontos fracos e fortes da tecnologia.

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