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\"What if the dreaded world of Alzheimer's was also a world of emotional discovery? Eugenia Zukerman's poetry and simple prose, both heartbreaking and ultimately inspirational, ushers the reader into her world as she unflinchingly examines familial loyalties, moments from her past and present, and the need to face an uncertain future due to the diagnosis of a condition that she truly hopes \"will remain unnamed.\" Flutist, writer, artistic director of major music series, television journalist, educator and internet entrepreneur, Zukerman addresses her \"lapses and losses\" as she confronts and deals with a future under the shadow of her Alzheimer's diagnosis. Touching, honest, and fearlessly heartfelt, Like Falling Through a Cloud recounts Zukerman's discovery, consultations, and diagnosis, all while navigating the death of her 103-year-old mother, a performance at the Kennedy Center, and the consolidation of her life via a full-time move to upstate New York. As she finds strength in family love, self-examination, and the enduring power of creating music, Zukerman teaches us the importance of living in the now, while accepting that what comes next may remain a mystery.\"--Publisher marketing.

Main Conclusion We studied the response of Eugenia myrtifolia L. plants, an ornamental shrub native to tropical and subtropical areas, to salt stress in order to facilitate the use of these plants in Mediterranean areas for landscaping. E. myrtifolia plants implement a series of adaptations to acclimate to salinity, including morphological, physiological and biochemical changes. Furthermore, the post-recovery period seems to be detected by Eugenia plants as a new stress situation. Different physiological and biochemical changes in Eugenia myrtifolia L. plants after being subjected to NaCl stress for up to 30 days (Phase I) and after recovery from salinity (Phase II) were studied. Eugenia plants proved to be tolerant to NaCl concentrations between 44 and 88 mM, displaying a series of adaptative mechanisms to cope with salt-stress, including the accumulation of toxic ions in roots. Plants increased their root/shoot ratio and decreased their leaf area, leaf water potential and stomatal conductance in order to limit water loss. In addition, they displayed different strategies to protect the photosynthetic machinery, including the limited accumulation of toxic ions in leaves, increase in chlorophyll content, changes in chlorophyll fluorescence parameters, leaf anatomy and antioxidant defence mechanisms. Anatomical modifications in leaves, including an increase in palisade parenchyma and intercellular spaces and decrease in spongy parenchyma, served to facilitate CO2 diffusion in a situation of reduced stomatal aperture. Salinity produced oxidative stress in Eugenia plants as evidenced by oxidative stress parameters values and a reduction in APX and ASC levels. Nevertheless, SOD and GSH contents increased. The post-recovery period is detected as a new stress situation, as observed through effects on plant growth and alterations in chlorophyll fluorescence and oxidative stress parameters.

Brazil is home to some of the world’s greatest biodiversity, providing an immeasurable number of new opportunities and unexplored sources of native plants for the development of products, extracts, foods, and compounds of social and economic interest. Among these, plants of the genus Eugenia stand out because of the large number of species found in Brazilian territory, many of which are endemic and exclusive to Brazil. These plants have emerged as potential sources for obtaining essential oils with relevant biological activities. In this context, the present review provides an overview of essential oils derived from the main native plants of Brazilian socio-biodiversity from the genus Eugenia with food value (Eugenia stipitata, Eugenia dysenterica, Eugenia involucrata, Eugenia brasiliensis, Eugenia klotzschiana, Eugenia uniflora, and Eugenia pyriformis) and their phytochemical profile and health beneficial effects. The compiled data showed that the essential oils of these plants are composed mainly of sesquiterpenes and, in smaller quantities, monoterpenes and other compounds. These compounds contribute to different biological activities, including antimicrobial, antioxidant, anticancer, and antiparasitic effects. These findings demonstrate that the essential oils of Brazilian native plants of the genus Eugenia can be a promising raw material for active ingredients to develop innovative and sustainable food products, drugs, and cosmetics.

Eugenia sect. Phyllocalyx Nied. includes 14 species endemic to the Neotropics, mostly distributed in the Atlantic coastal forests of Brazil. Here the first comprehensive phylogenetic study of this group is presented, and this phylogeny is used as the basis to evaluate the recent infrageneric classification in Eugenia sensu lato (s.l.) to test the history of the evolution of traits in the group and test hypotheses associated with the history of this clade. A total of 42 taxa were sampled, of which 14 were Eugenia sect. Phyllocalyx for one nuclear (ribosomal internal transcribed spacer) and four plastid markers (psbA-trnH, rpl16, trnL-rpl32 and trnQ-rps16). The relationships were reconstructed based on Bayesian analysis and maximum likelihood. Additionally, ancestral area analysis and modelling methods were used to estimate species dispersal, comparing historically climatic stable (refuges) and unstable areas. Maximum likelihood and Bayesian inferences indicate that Eugenia sect. Phyllocalyx is paraphyletic and the two clades recovered are characterized by combinations of morphological characters. Phylogenetic relationships support a link between Cerrado and south-eastern species and a difference in the composition of species from north-eastern and south-eastern Atlantic forest. Refugia and stable areas identified within unstable areas suggest that these areas were important to maintain diversity in the Atlantic forest biodiversity hotspot. This study provides a robust phylogenetic framework to address important historical questions for Eugenia s.l. within an evolutionary context, supporting the need for better taxonomic study of one of the largest genera in the Neotropics. Furthermore, valuable insight is offered into diversification and biome shifts of plant species in the highly environmentally impacted Atlantic forest of South America. Evidence is presented that climate stability in the south-eastern Atlantic forest during the Quaternary contributed to the highest levels of plant diversity in this region that acted as a refugium.

Abstract Drought events have become more intense and frequent in tropical ecosystems, which can limit plant growth and development, as well as the germination and recruitment of tree species. The variation in seed size may give plants advantages in the establishment in an environment and greater tolerance to environmental stress. Eugenia uniflora L. is a species found in different Brazilian biomes, such as Atlantic Forest and Pampa, and has high survival capacity in degraded areas and in various environmental conditions. To analyze the effect of seed size on the emergence capacity and drought response of E. uniflora seedlings, seeds were separated into two classes according to size and later analyzed for emergence, growth variables, soluble carbohydrate content, and anatomical changes of plants under drought settings. Analysis of the results showed that seed size and drought affected most growth parameters, in which drought caused a reduction in the number of leaves, fresh leaf mass, fresh stem mass and fresh root mass, and collar diameter. Drought also induces a larger diameter of the central cylinder in the root of plants originating from large seeds and a smaller thickness of the cortical parenchyma of the root of plants originating from small seeds. The content of soluble carbohydrates was reduced in the roots of plants under drought compared to the control, and there was also a blockage in sap transport in plants under drought. The results obtained show that water stress caused by drought reduced the growth and anatomical characteristics of root; however, plants from large seeds had greater leaf mass, fresh stem mass, root dry mass, and total dry mass, and higher shoot/root dry mass ratio. Thus, seed size influenced the performance of E. uniflora seedlings, both under drought and in the control setting. Resumo Os eventos de seca tem se tornado mais intensos e frequentes em ecossistemas tropicais, o que pode limitar o crescimento e desenvolvimento das plantas, assim como a germinação e o recrutamento de espécies arbóreas. A variação do tamanho da semente pode conferir vantagem no estabelecimento das plantas no ambiente e maior tolerância ao estresse ambiental. Eugenia uniflora L. é uma espécie encontrada em diferentes biomas brasileiros, como Mata Atlântica e Pampa, e possui alta capacidade de sobrevivência em áreas perturbadas e em diversas condições ambientais. Com o objetivo de analisar o efeito do tamanho das sementes na capacidade de emergência e na resposta à seca das mudas de E. uniflora, sementes foram separadas em duas classes de acordo com o tamanho e posteriormente analisadas a emergência, as variáveis de crescimento, o teor de carboidratos solúveis e alterações anatômicas das plantas sob seca. A análise dos resultados mostrou que o tamanho da semente e o fator seca afetaram a maioria dos parâmetros de crescimento analisados, no qual a seca provocou redução do número de folhas, da massa fresca foliar, do caule e da raiz e do diâmetro do coleto. A seca também induziu maior diâmetro do cilindro central nas raízes de plantas originadas de sementes grandes e menor espessura do parênquima cortical nas raízes de plantas originadas de sementes pequenas. O teor de carboidratos solúveis foi reduzido nas raízes de plantas sob seca quando comparado ao controle, verificando-se também bloqueio no transporte da seiva nas plantas sob seca. Os resultados obtidos demonstram que o estresse hídrico causado pela seca reduziu o crescimento e características anatômicas da raiz, no entanto, as plantas oriundas de sementes grandes apresentaram maior massa foliar, massa fresca do caule e seca da raiz e massa seca total e maior razão massa seca da parte aérea/massa seca da raiz. Assim, o tamanho da semente influenciou o desempenho das mudas de E. uniflora, tanto sob seca quanto na condição controle.

The green synthesis of silver nanoparticles (AgNPs) and their applications have attracted many researchers as the AgNPs are used effectively in targeting specific tissues and pathogenic microorganisms. The purpose of this study is to synthesize and characterize silver nanoparticles from fully expanded leaves of Eugenia roxburghii DC., as well as to test their effectiveness in inhibiting biofilm production. In this study, at 0.1 mM concentration of silver nitrate (AgNO3), stable AgNPs were synthesized and authenticated by monitoring the color change of the solution from yellow to brown, which was confirmed with spectrophotometric detection of optical density. The crystalline nature of these AgNPs was detected through an X-Ray Diffraction (XRD) pattern. AgNPs were characterized through a high-resolution transmission electron microscope (HR-TEM) to study the morphology and size of the nanoparticles (NPs). A new biological approach was undertaken through the Congo Red Agar (CRA) plate assay by using the synthesized AgNPs against biofilm production. The AgNPs effectively inhibit biofilm formation and the biofilm-producing bacterial colonies. This could be a significant achievement in contending with many dynamic pathogens.

Abstract The use of medicinal plants for disease prevention, treatment and cure is an ancient practice used by humanity, and many plants species are used in bioprospecting research. In this context, its stands out Eugenia uniflora L., populary known as pitangueira and belongs to the Myrtaceae family, with a wide geographic distribution and native of Brazil. In view of the therapeutic qualities of the plant and the lack of the studies on its seeds, the present study had as objective to evaluate the phytochemical profile of the extracts of Eugenia uniflora L. seeds, from different solvents, as well as their antibacterial activity, antioxidant and its inhibitory effect of intestinal disaccharidases. Results showed a high content of phenolic compounds and total flavonoids, thus characterizing antioxidant activity, also highlighting the best bacteriostatic action for the Gram positive strain of Staphylococcus aureus in the ethanolic fraction. Regarding the disaccharidases, a strong inhibitory action was observed for all concentrations, evidencing a antihyperglycemic potential. The present research allowed to concluded that Eugenia uniflora L. seeds have promising biological activities for the industrial sector, but a more detailed investigation is needed regarding their bioactive compounds. Resumo A utilização de plantas com fins medicinais para prevenção, tratamento e cura de doenças é uma prática antiga utilizada pela humanidade, sendo que muitas espécies vegetais são usadas para a pesquisa da bioprospecção. Neste contexto, destaca-se a Eugenia uniflora L., conhecida popularmente como pitangueira e pertencente à família Myrtaceae, com ampla distribuição geográfica e nativa do Brasil. Diante das qualidades terapêuticas da planta e a falta de estudos sobre suas sementes, o presente trabalho teve como objetivo avaliar o perfil fitoquímico dos extratos das sementes de Eugenia uniflora L. a partir de diferentes solventes, bem como sua atividade antibacteriana, antioxidante e seu efeito inibidor de dissacaridases intestinais. Os resultados mostraram um alto teor de compostos fenólicos e flavonóides totais, caracterizando a atividade antioxidante, destacando também a melhor ação bacteriostática para a cepa Gram positiva de Staphylococcus aureus na fração etanólica. Em relação às dissacaridases, uma forte ação inibitória foi observada para todas as concentrações, evidenciando um potencial anti-hiperglicêmico. A presente pesquisa permitiu concluir que as sementes de Eugenia uniflora L. apresentam atividades biológicas promissoras para o setor industrial, mas é necessária uma investigação mais detalhada de seus compostos bioativos.

The limited arsenal of antifungal drugs have prompted the search for novel molecules with biological activity. This study aimed to characterize the antifungal mechanism of action of Eugenia uniflora extract and its synergistic activity with commercially available antifungal drugs on the following Candida species: C . albicans , C . tropicalis , C . glabrata , C . parapsilosis and C . dubliniensis . In silico analysis was performed to predict antifungal activity of the major compounds present in the extract. Minimal inhibitory concentrations (MICs) were determined in the presence of exogenous ergosterol and sorbitol. Yeast cells were grown in the presence of stressors. The loss of membrane integrity was assessed using propidium iodide staining (fluorescence emission). Synergism between the extract and antifungal compounds (in addition to time kill-curves) was determined. Molecular docking revealed possible interactions between myricitrin and acid gallic and enzymes involved in ergosterol and cell wall biosynthesis. Candida cells grown in the presence of the extract with addition of exogenous ergosterol and sorbitol showed 2 to 8-fold increased MICs. Strains treated with the extract revealed greater loss of membrane integrity when compared to their Fluconazole counterparts, but this effect was less pronounced than the membrane damage caused by Amphotericin B. The extract also made the strains more susceptible to Congo red and Calcofluor white. A synergistic action of the extract with Fluconazole and Micafungin was observed. The E . uniflora extract may be a viable option for the treatment of Candida infections.

Alzheimer’s disease is a global health problem due to the scarcity of acetylcholinesterase inhibitors, the basis for symptomatic treatment of this disease; this requires new approaches to drug discovery. In this study, we investigated the chemical composition and anticholinesterase activity of Eugenia valvata McVaugt (Myrtaceae) collected in southern Ecuador, which was obtained as an essential oil (EO) with a yield of 0.124 ± 0.03% (w/w); as a result of the chemical composition analysis, a total of 58 organic compounds were identified—representing 95.91% of the total volatile compounds—using a stationary phase based on 5% phenyl-methylpolysiloxane, as analyzed via gas chromatography coupled to mass spectrometry (GC-MS) and flame ionization detection (GC-FID). The main groups were hydrocarbon sesquiterpenes (37.43%), oxygenated sesquiterpenes (31.08%), hydrocarbon monoterpenes (24.14%), oxygenated monoterpenes (0.20%), and other compounds (3.058%). Samples were characterized by the following compounds: α-pinene (22.70%), α-humulene (17.20%), (E)-caryophyllene (6.02%), citronellyl pentanoate (5.76%), 7-epi-α-eudesmol (4.34%) and 5-iso-cedranol (3.64%); this research was complemented with an enantioselective analysis carried out using 2,3-diethyl-6-tert-butyldimethylsilyl-β-cyclodextrin as a stationary phase chiral selector. As a result, α-pinene, limonene, and α-cadinene enantiomers were identified; finally, in the search for new active principles, the EO reported strong anticholinesterase activity with an IC50 of 53.08 ± 1.13 µg/mL, making it a promising candidate for future studies of Alzheimer’s disease.