1,006 research outputs found
Caractérisation biochimique et propriétés biologiques des micronutriments du germe de soja :étude des voies de sa valorisation en nutrition et santé humaines
Le germe de soja est une matrice naturelle riche en substances biologiquement actives, ce qui lui confère un grand intérêt en terme de valorisation industrielle. L'objectif de ce travail a été de mettre en évidence les particularités de cette matière première par unecaractérisation approfondie de ses principaux métabolites, ciblés en fonction de leurs propriétés biologiques. Une étape de développement analytique a permis d'évaluer leur variabilité dans le germe natif et de suivre leur évolution au cours d'un procédé d'extraction hydro-alcoolique destiné à concentrer les isoflavones. Afin de valoriser l'ensemble de la matière première tout en conservant le potentiel biologique des métabolites, l'effet d'un procédé de fermentation lactique sur la composition et la capacité antioxydante du germe de soja, a également été étudié. L'évaluation de l'activité biologique de ce nouvel ingrédient fermenté permettrait d'envisager des applications prometteuses dans les domaines de l'alimentation diététique ou de la santé. ABSTRACT : Soy germ, a natural matrix concentrated in bioactive phytochemicals, may offer interesting possibilities in term of industrial valorisation. The aim of this work was to highlight the distinctive features of soy germ through the complete characterization of its main metabolites, selected for their biological effects, by evaluating their variability in the raw material, and by following their content and composition during an extraction process used to concentrate the isoflavones. The effects of a lactic acid fermentation on the sensory and nutritional characteristics of soy germ, were also studied in the perspective of a novel ingredient. Such a process, conducted on the entire soy germ matrix, should preserve the biological potential of all metabolites. The antioxidant capacity of fermented soy germ was determined, conferring to this product promising applications in the prevention of oxidative stress related diseases
New and interesting orchid records for Tanzania
The original publication is available at http://www.bioone.org/The orchid taxa Brachycorythis ovata subsp. schweinfurthii, Habenaria arianae and
Habenaria disparilis are newly recorded for Tanzania, while Brachycorythis
congoensis is newly recorded for the floral region T7. A stable, pure yellow mutant of
Disa erubescens is recorded for the first time.Publishers' Versio
Arboreal Ant Assemblages Respond Differently to Food Source and Vegetation Physiognomies: a Study in the Brazilian Atlantic Rain Forest
This study aimed to analyze assemblages of arboreal ants in different vegetation physiognomies within the Tropical Moist Forest (Atlantic Rain Forest) domain. The study was carried out at the Michelin Ecological Reserve, State of Bahia, Northeast of Brazil. We used sardine (protein resource) and honey (carbohydrate resource) baits to collect ants foraging in three vegetation types: (1) preserved native forest, (2) forest in regeneration (capoeira) with many invasive plants and (3) a mixed agroystem of rubber and cocoa tree plantation. We recorded 69 ant species attracted to the baits, 21 of them exclusive to honey bait and 25 exclusive to the sardine baits. The vegetation physiognomies preserved forest and rubber/cacao agrosystem showed higher species richness in relation to the forest in regeneration (capoeira), suggesting that rubber tree plantations can be a good matrix for the maintenance of some ant species typical of the forest matrix. The type of resource used is important for the structuring of the arboreal ant assemblages. The ants that were attracted to protein resources showed a guild composition that is more differentiated between vegetation types that of ants attracted to glucose resources
Fabrication and Mechanical Evaluation of Anatomically-Inspired Quasilaminate Hydrogel Structures with Layer-Specific Formulations
A major tissue engineering challenge is the creation
of multilaminate scaffolds with layer-specific mechanical
properties representative of native tissues, such as heart valve
leaflets, blood vessels, and cartilage. For this purpose,
poly(ethylene glycol) diacrylate (PEGDA) hydrogels are
attractive materials due to their tunable mechanical and
biological properties. This study explored the fabrication of
trilayer hydrogel quasilaminates. A novel sandwich method
was devised to create quasilaminates with layers of varying
stiffnesses. The trilayer structure was comprised of two
‘‘stiff’’ outer layers and one ‘‘soft’’ inner layer. Tensile testing
of bilayer quasilaminates demonstrated that these scaffolds
do not fail at the interface. Flexural testing showed that the
bending modulus of acellular quasilaminates fell between the
bending moduli of the ‘‘stiff’’ and ‘‘soft’’ hydrogel layers.
The bending modulus and swelling of trilayer scaffolds with
the same formulations were not significantly different than
single layer gels of the same formulation. The encapsulation
of cells and the addition of phenol red within the hydrogel
layers decreased bending modulus of the trilayer scaffolds.
The data presented demonstrates that this fabrication method
can make quasilaminates with robust interfaces, integrating
layers of different mechanical properties and biofunctionalization,
and thus forming the foundation for a multilaminate
scaffold that more accurately represents native tissue
A Feasibility Study on Image Inpainting for Non-cleft Lip Generation from Patients with Cleft Lip
A Cleft lip is a congenital abnormality requiring surgical repair by a
specialist. The surgeon must have extensive experience and theoretical
knowledge to perform surgery, and Artificial Intelligence (AI) method has been
proposed to guide surgeons in improving surgical outcomes. If AI can be used to
predict what a repaired cleft lip would look like, surgeons could use it as an
adjunct to adjust their surgical technique and improve results. To explore the
feasibility of this idea while protecting patient privacy, we propose a deep
learning-based image inpainting method that is capable of covering a cleft lip
and generating a lip and nose without a cleft. Our experiments are conducted on
two real-world cleft lip datasets and are assessed by expert cleft lip surgeons
to demonstrate the feasibility of the proposed method.Comment: 4 pages, 2 figures, BHI 202
Assembly of a Three-Dimensional Multitype Bronchiole Coculture Model Using Magnetic Levitation
A longstanding goal in biomedical research has been to create organotypic cocultures that faithfully represent
native tissue environments. There is presently great interest in representative culture models of the lung, which
is a particularly challenging tissue to recreate in vitro. This study used magnetic levitation in conjunction with
magnetic nanoparticles as a means of creating an organized three-dimensional (3D) coculture of the bronchiole
that sequentially layers cells in a manner similar to native tissue architecture. The 3D coculture model was
assembled from four human cell types in the bronchiole: endothelial cells, smooth muscle cells (SMCs), fibroblasts,
and epithelial cells (EpiCs). This study represents the first effort to combine these particular cell types into
an organized bronchiole coculture. These cell layers were first cultured in 3D by magnetic levitation, and then
manipulated into contact with a custom-made magnetic pen, and again cultured for 48 h. Hematoxylin and eosin
staining of the resulting coculture showed four distinct layers within the 3D coculture. Immunohistochemistry
confirmed the phenotype of each of the four cell types and showed organized extracellular matrix formation,
particularly, with collagen type I. Positive stains for CD31, von Willebrand factor, smooth muscle a-actin,
vimentin, and fibronectin demonstrate the maintenance of the phenotype for endothelial cells, SMCs, and
fibroblasts. Positive stains for mucin-5AC, cytokeratin, and E-cadherin after 7 days with and without 1% fetal
bovine serum showed that EpiCs maintained the phenotype and function. This study validates magnetic levitation
as a method for the rapid creation of organized 3D cocultures that maintain the phenotype and induce
extracellular matrix formation
Electrochemical oxygen reduction at soft interfaces catalyzed by the transfer of hydrated lithium cations
The oxygen reduction reaction by decamethylferrocene (DMFc), triggered by hydrophilic metallic cations behaving as Lewis acids towards water molecules in a homogeneous organic phase reaction, was investigated using cyclic voltammetry at the water|1,2-dichloroethane (w|DCE) interface. Simulated CVs, prepared through a facile 1-dimensional geometry in COMSOL Multi-physics software and incorporating interfacial and homogeneous reactions, were compared to experimental ones in order to elucidate the kinetics, thermodynamics, and viability of the proposed mechanism. The predominant O2 reduction reactions were proposed to occur in bulk organic phase, or in the vicinity of the w|DCE interface; six organic phase reactions were put forward. The first step was hydrolysis made possible through polarization of the O−H bond of water molecules available in the cations hydration shell. The metal ion behaves as a Lewis acid coordinating to the oxygen and weakening the O−H bond, making the proton more acidic, thereby facilitating attack by decamethylferrocene (DMFc) to form DMFc-H+. DMFc-H+ then participates in dioxygen reduction, generating the O2H• radical species and DMFc+. Afterwards, the radical oxidizes another equivalent of DMFc to produce O2H−, that can then abstract a proton from the metal ions hydration sphere to generate hydrogen peroxide. The disproportionation of O2H− and the ion-pair formation of Li+ and OH− make up the other two reactions. The CV analysis was based on two curve features; the DMFc+ transfer wave and the positive limit of the polarizable potential window – the edge of scan potential profile – including the metal ion return peak. The goal of this article is to determine the kinetic/thermodynamic aspects of this mechanism from the experimental electrochemical data
Chemical Profile and Antimicrobial Activity of the Fungus-Growing Termite Strain Macrotermes Bellicosus Used in Traditional Medicine in the Republic of Benin
The fungus growing termite species Macrotermes bellicosus (M. bellicosus) is used in nutrition and traditional medicine in the Republic of Benin for the treatment of infectious and inflammatory diseases. Previous findings demonstrated evidence of anti-inflammatory and spasmolytic properties of M. bellicosus. The aim of the present study was to evaluate the antimicrobial potential of different extracts of M. bellicosus samples and determine the chemical profile of an ethanolic M. bellicosus extract. Chemical profiling was conducted using centrifugal partition chromatography and 13C-NMR, followed by MALDI-TOF MS. Major identified compounds include hydroquinone (HQ), methylhydroquinone (MHQ), 3,4-dihydroxyphenethyl glycol (DHPG), N-acetyldopamine (NADA) and niacinamide. The fatty acid mixture of the extract was mainly composed of linoleic and oleic acid and highlights the nutritional purpose of M. bellicosus. Using the Kirby–Bauer disc diffusion and broth microdilution assay, an antibacterial activity of M. bellicosus samples was observed against various clinical strains with a highest growth inhibition of S. aureus. In addition, HQ and MHQ as well as fractions containing DHPG, niacinamide and NADA inhibited S. aureus growth. The reported antimicrobial activity of M. bellicosus and identified active substances provide a rationale for the traditional medicinal use of M. bellicosus
Mechanism of oxygen reduction by metallocenes near liquid|liquid interfaces
The mechanism of the oxygen reduction reaction (ORR) at a liquid|liquid interface, employing ferrocene (Fc) derivatives – such as decamethylferrocene (DMFc) – as a lipophilic electron donor along with sulfuric acid as an aqueous proton source, was elucidated through comparison of experimentally obtained cyclic voltammograms (CVs) to simulated CVs generated through COMSOL Multiphysics software which employs the finite element method (FEM). The simulations incorporated a potential dependent proton transfer (i.e . ion transfer, IT) step from the water (w) to organic (o) phases along with two homogeneous reactions (C1C2) occurring in the organic phase – an IT-C1C2 mechanism. The reaction of DMFc with H+(o) to form DMFc-hydride (DMFc-H+) was considered the first step (reaction 1), while reaction of DMFc-H+ with oxygen to form a peroxyl radical species, View the MathML sourceHO2, and DMFc+ was deemed the second step (reaction 2). Subsequent reactions, between View the MathML sourceHO2 and either DMFc or H+, were considered to be fast and irreversible so that 2 was a ‘proton-sink’, such that further reactions were not included; in this way, the simulation was greatly simplified. The rate of 1, kcf, and 2, kchem, were determined to be 5 × 102 and 1 × 104 L mol−1 s−1, respectively, for DMFc as the electron donor. Similarly, the rates of biphasic ORR for 1,1′-dimethylferrocene (DFc) and Fc were considered equivalent in terms of this reaction mechanism; therefore, their rates were determined to be 1 × 102 and 5 × 102 L mol−1 s−1 for 1 and 2, respectively. The reactive and diffusive layer thicknesses are also discussed
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