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Selecciona los temas de tu interés y recibe en tu correo las publicaciones más actuales
Francois Tardieu (2007, [Artículo])
Environmental Stimuli Expansins CIENCIAS AGROPECUARIAS Y BIOTECNOLOGÍA CELLS CROPS GENETIC ENGINEERING PROTEINS TISSUE EPIDERMIS ZEA MAYS
Khondoker Mottaleb Dil Bahadur Rahut Jeetendra Aryal Akhter Ali (2022, [Artículo])
Clean Fuel Dirty Household’s Choice CIENCIAS AGROPECUARIAS Y BIOTECNOLOGÍA COOKING FUELS RURAL AREAS HOUSEHOLDS EDUCATION INCOME USES
Javier A. Ceja-Navarro Fernando E. Vega Ulas Karaoz Zhao Hao Petr Kosina Francisco Infante Trent Northen Eoin Brodie (2023, [Artículo])
Antibiotic Frass Non Antibiotic CIENCIAS AGROPECUARIAS Y BIOTECNOLOGÍA MICROBIAL FLORA PEST INSECTS HYPOTHENEMUS HAMPEI CAFFEINE
URIEL ALEJANDRO LOPEZ LEMUS RAQUEL GARZA GUAJARDO ORALIA BARBOZA QUINTANA ALEJANDRINA RODRIGUEZ HERNANDEZ José Guzmán Esquivel ALEJANDRO GARCÍA RIVERA VIOLETA M. MADRIGAL PÉREZ LAURA ELVIRA GARCÍA LABASTIDA ALEJANDRO DAVID SORIANO HERNANDEZ MARGARITA DE LA LUZ MARTINEZ FIERRO IRAM PABLO RODRIGUEZ SANCHEZ ELIZABETH SANCHEZ DUARTE ARIANA CABRERA LICONA GABRIEL CEJA ESPIRITU IVAN DELGADO ENCISO (2018, [Artículo])
Metabolic syndrome (MS) has been associated with testicular damage. Nonalcoholic fatty liver disease (NAFLD) is a multisystemic disease that affects different organs, but its effect on the testes is unknown. A study analyzing germ cell involvement on BALB/c mice was carried out. A parallel comparative study was conducted that investigated alterations in the germinal epithelium of male humans that died from an unrelated acute event. The complete medical histories and histologic samples of the thoracic aorta, liver tissue, and testicular tissue from the deceased subjects were collected. The degree of germinal epithelial loss (DGEL) was evaluated and the clinical and histologic data were compared between individuals with and without NAFLD. The only metabolic or morphologic variable that caused a significant difference in the DGEL, in both the animal model and humans, was the presence of liver steatosis. The percentage of steatosis was also correlated with the percentage of the DGEL. In humans, steatosis (greater than 20%) increased the risk 12-fold for presenting with a severe DGEL (OR: 12.5; 95% CI [1.2, 128.9]; p = .03). There was no association with age above 50 years or MS components. Steatosis grade was also correlated with atherosclerosis grade. NAFLD was a strongly associated factor implicated in severe DGEL, as well as the testis was identified as a probable target organ for damage caused by the disease. his finding could result in the search for new approach strategies in the management of men with fertility problems. Further studies are required to confirm these results.
MEDICINA Y CIENCIAS DE LA SALUD Germ cells Atherosclerosis Testis Metabolic syndrome
Thermal and mechanical properties of PLA-based multiscale cellulosic biocomposites
MIGUEL ANGEL RUZ CRUZ Pedro Jesús Herrera Franco Emmanuel Alejandro Flores Johnson MARIA VERONICA MORENO CHULIM LUCIANO MIGUEL GALERA MANZANO Alex Valadez González (2022, [Artículo])
In this work polylactic acid (PLA) based multiscale cellulosic biocomposites were prepared with the aim to evaluate the effect of the incorporation of cellulose nanocrystals (CNCs) on the PLA biocomposites reinforced with cellulose microfibers (MFCs). For this, PLA composite materials reinforced with both MFCs and with a combination of MFCs and CNCs were prepared, while keeping the content of cellulosic reinforcements constant. The thermal and mechanical properties of these multiscale PLA biocomposites were characterized by thermogravimetry (TGA), differential scanning calorimetry (DSC), flexural mechanical and, dynamic mechanical (DMA) tests. Likewise, they were characterized by Fourier transform infrared spectroscopy (FTIR) and scanning electron microscopy (SEM). The results show that the replacement of MFCs by CNCs in the 1–5% range appreciably modifies the thermal and mechanical properties of multiscale compounds. For example, they increase the thermal stability of the materials, modify the PLA crystallization process and play the role of adhesion promoters since the mechanical properties in flexure increase in the order of 40% and the storage modulus increases in the order of 35% at room temperature. Also, the addition of CNCs increases the relaxation temperature of the material from 50 to 60 °C, thereby expanding the temperature range for its use. © 2022 The Author(s)
MULTISCALE BIOCOMPOSITES CELLULOSE MICROFIBER CELLULOSE NANOCRYSTALS HIERARCHICAL STRUCTURE PROPERTIES INGENIERÍA Y TECNOLOGÍA CIENCIAS TECNOLÓGICAS TECNOLOGÍA DE MATERIALES PROPIEDADES DE LOS MATERIALES PROPIEDADES DE LOS MATERIALES
Luis Fernando Maceda Lopez ELSA BEATRIZ GONGORA CASTILLO Enrique Ibarra-Laclette DALIA C. MORAN VELAZQUEZ AMARANTA GIRON RAMIREZ Matthieu Bourdon José Luis Villalpando Aguilar Gabriela Chavez-Calvillo Toomer John Tang Parastoo Azadi Jorge Manuel Santamaría Fernández Itzel López-Rosas Mercedes G Lopez June Simpson FULGENCIO ALATORRE COBOS (2022, [Artículo])
Resilience of growing in arid and semiarid regions and a high capacity of accumulating sugar-rich biomass with low lignin percentages have placed Agave species as an emerging bioen-ergy crop. Although transcriptome sequencing of fiber-producing agave species has been explored, molecular bases that control wall cell biogenesis and metabolism in agave species are still poorly understood. Here, through RNAseq data mining, we reconstructed the cellulose biosynthesis pathway and the phenylpropanoid route producing lignin monomers in A. tequilana, and evaluated their expression patterns in silico and experimentally. Most of the orthologs retrieved showed differential expression levels when they were analyzed in different tissues with contrasting cellulose and lignin accumulation. Phylogenetic and structural motif analyses of putative CESA and CAD proteins allowed to identify those potentially involved with secondary cell wall formation. RT-qPCR assays revealed enhanced expression levels of AtqCAD5 and AtqCESA7 in parenchyma cells associated with extraxylary fibers, suggesting a mechanism of formation of sclerenchyma fibers in Agave similar to that reported for xylem cells in model eudicots. Overall, our results provide a framework for un-derstanding molecular bases underlying cell wall biogenesis in Agave species studying mechanisms involving in leaf fiber development in monocots. © 2022 by the authors. Licensee MDPI, Basel, Switzerland.
AGAVE CELL WALLS LIGNOCELLULOSE CAD PROTEIN CESA PROTEIN SCLERENCHYMA BIOLOGÍA Y QUÍMICA CIENCIAS DE LA VIDA GENÉTICA GENÉTICA MOLECULAR DE PLANTAS GENÉTICA MOLECULAR DE PLANTAS
The search for cryptic L-Rhamnosyltransferases on the Sporothrix schenckii genome
Hector M. Mora-Montes Karina García-Gutiérrez Laura Cristina García Carnero Nancy Lozoya-Perez Jorge Humberto Ramírez Prado (2022, [Artículo])
The fungal cell wall is an attractive structure to look for new antifungal drug targets and for understanding the host-fungus interaction. Sporothrix schenckii is one of the main causative agents of both human and animal sporotrichosis and currently is the species most studied of the Sporothrix genus. The cell wall of this organism has been previously analyzed, and rhamnoconjugates are signature molecules found on the surface of both mycelia and yeast-like cells. Similar to other reactions where sugars are covalently linked to other sugars, lipids, or proteins, the rhamnosylation process in this organism is expected to involve glycosyltransferases with the ability to transfer rhamnose from a sugar donor to the acceptor molecule, i.e., rhamnosyltransferases. However, no obvious rhamnosyltransferase has thus far been identified within the S. schenckii proteome or genome. Here, using a Hidden Markov Model profile strategy, we found within the S. schenckii genome five putative genes encoding for rhamnosyltransferases. Expression analyses indicated that only two of them, named RHT1 and RHT2, were significantly expressed in yeast-like cells and during interaction with the host. These two genes were heterologously expressed in Escherichia coli, and the purified recombinant proteins showed rhamnosyltransferase activity, dependent on the presence of UDP-rhamnose as a sugar donor. To the best of our knowledge, this is the first report about rhamnosyltransferases in S. schenckii. © 2022 by the authors. Licensee MDPI, Basel, Switzerland.
FUNGAL CELL-WALL GLYCANS RHAMNOCONJUGATES RHAMNOSYLTRANSFERASE BIOLOGÍA Y QUÍMICA CIENCIAS DE LA VIDA BIOLOGÍA VEGETAL (BOTÁNICA) ECOLOGÍA VEGETAL ECOLOGÍA VEGETAL
ANA RUTH ALVAREZ SANCHEZ CLAUDIO HUMBERTO MEJIA RUIZ Héctor Gerardo Nolasco Soria Alberto Peña Rodríguez (2018, [Artículo])
"Marine yeasts used in aquaculture disease control can also be an important protein source for improving feeding and nutrition of crustaceans. Yarrowia lipolyticca has been studied for its capacity to secrete heterologous proteins and high content of unsaturated fatty acids, beta-glucan, and mannane polymers in the cell wall. We measured in vitro digestibility of Y. lipolyticca by whiteleg shrimp Litopenaeus vannamei digestive enzymes, and an in vivo assay of Y. lipolytica in feed onwhiteleg shrimp growth. We found that digestive gland enzymes of shrimp digest Y. lipolytica, based on reduced optical density of a yeast suspension. Digestion was –0.00236 ± 0.00010 OD U min–1 for intact cells and –0.00325 ± 0.00010 OD U min–1 for lysed cells. Release of reducing sugars in intact cells (5.3940 ± 0.1713 μmol h–1), and lysed cells (0.8396 ± 0.2251 μmol h–1) was measured. Digestive gland treatment significantly reduced cell viability (near 100%), relative to the control. Electron microscopy shows that the cell wall of Y. lipolytica exposed to the digestive gland enzymes was severely damaged. Shrimp diet containing Y. lipolytica resulted in significantly higher weight gain and specific growth rate of whiteleg shrimp."
Marine yeast, cell digestibility, cell viability, turbidimetry, reduced sugars BIOLOGÍA Y QUÍMICA CIENCIAS DE LA VIDA BIOQUÍMICA BIOQUÍMICA DE ALIMENTOS BIOQUÍMICA DE ALIMENTOS
Linnea Qvirist RICARDO VAZQUEZ JUAREZ Thomas Andlid (2022, [Artículo])
"Background: Sustainable production of oil for food, feed, fuels and other lipid-based chemicals is essential to meet the demand of the increasing human population. Consequently, novel and sustainable resources such as lignocel- lulosic hydrolysates and processes involving these must be explored. In this paper we screened for naturally-occurring xylose utilizing oleaginous yeasts as cell factories for lipid production, since pentose sugar catabolism plays a major role in efcient utilization of lignocellulosic feedstocks. Glycerol utilization, which is also benefcial in yeast-based oil production as glycerol is a common by-product of biodiesel production, was investigated as well. Natural yeast isolates were studied for lipid accumulation on a variety of substrates, and the highest lipid accumulating strains were further investigated in shake fask cultivations and fermenter studies on xylose and hydrolysate. Results: By collecting leaves from exotic plants in greenhouses and selective cultivation on xylose, a high frequency of oleaginous yeasts was obtained (>40%). Diferent cultivation conditions lead to diferences in fatty acid contents and compositions, resulting in a set of strains that can be used to select candidate production strains for diferent purposes. In this study, the most prominent strains were identifed as Pseudozyma hubeiensis BOT-O and Rhodosporidium toruloides BOT-A2. The fatty acid levels per cell dry weight after cultivation in a nitrogen limited medium with either glucose, xylose or glycerol as carbon source, respectively, were 46.8, 43.2 and 38.9% for P. hubeiensis BOT-O, and 40.4, 27.3 and 42.1% for BOT-A2. Furthermore, BOT-A2 accumulated 45.1% fatty acids per cell dry weight in a natural plant hydrolysate, and P. hubeiensis BOT-O showed simultaneous glucose and xylose consumption with similar growth rates on both carbon sources. The fatty acid analysis demonstrated both long chain and poly-unsaturated fatty acids, depending on strain and medium. Conclusions: We found various natural yeast isolates with high lipid production capabilities and the ability to grow not only on glucose, but also xylose, glycerol and natural plant hydrolysate. R. toruloides BOT-A2 and P. hubeiensis BOT-O specifcally showed great potential as production strains with high levels of storage lipids and comparable growth to that on glucose on various other substrates, especially compared to currently used lipid production strains..."
Microbial lipids, Oleaginous yeast, Lignocellulose, Pseudozyma hubeiensis, Rhodosporidium toruloides BIOLOGÍA Y QUÍMICA CIENCIAS DE LA VIDA MICROBIOLOGÍA MICROBIOLOGÍA MICROBIOLOGÍA
Hacia el desarrollo de un nuevo antiparasitario basado en células en suspensión de Carica papaya
CYNTHIA ALEJANDRA GUZMÁN MEDINA (2023, [Tesis de doctorado])
Las enfermedades parasitarias son un problema de salud pública que afectan a más de la
quinta parte de la población a nivel mundial. Además de la morbilidad que generan, sino
son tratadas y controladas de manera adecuada pueden llegar a causar la muerte.
En el mercado existen diferentes antiparasitarios comerciales, que si bien son efectivos,
presentan diferentes efectos adversos tanto para el individuo parasitado (i.e. destrucción
de la microbiota intestinal) como para el medio ambiente. Este panorama señala la
relevancia de desarrollar tratamientos antiparasitarios más amigables con el ambiente y con
menores efectos adversos que estén disponibles actualmente en el mercado. Productos
obtenidos a partir de plantas con propiedades anti-parasitarias, cultivadas in vitro en
condiciones controladas, podrían representar una alternativa realista. Entre ellas figura la
planta Carica papaya, especie de zonas tropicales y subtropicales del planeta a cuyos frutos
se les adjudica actividades antiparasitarias. Estas propiedades se atribuyen a algunos de
sus compuestos concentrados en el latex y en las semillas como la papaina, la
quimiopapaína, la lisozima, la glicil-endopeptidasa, la proteasa de cisteína y el benzil-
isotiocinato.
El objetivo del presente trabajo fue evaluar la actividad antiparasitaria in vitro e in vivo de
un conjunto de callos y líneas de células de papaya de Carica papaya contra cisticercos de
Taenia crassiceps (cestodo) y contra trofozoitos de Entamoeba histolytica (protozoario). Los
extractos acuosos obtenidos a partir de callos y células cultivados en placa o en suspensión,
respectivamente, de las diferentes líneas de papaya revelaron alta capacidad cisticida
(>98% de mortalidad) in vitro contra cisticercos de Taenia crassiceps. En la evaluación in
vivo la línea no transformada obtuvo mayor efecto cisticida a 10mg/mL reduciendo el
número de cisticercos gemantes y aumentando los cisticercos calcificados en niveles
similares a los obtenidos utilizando antiparasitarios comerciales (albendazol y niclosamida).
Las líneas transformadas y sin transformar de papaya evaluadas indujeron una alta
capacidad amebicida (97% de mortalidad) in vitro contra trofozoitos de Entamoeba
histolytica. Las diferentes líneas transformadas y sin transformar de papaya redujeron
significativamente el número de abscesos amebianos y previnieron la hepatomegalia de
manera no significativamente diferente que el anti-parasitario comercial (metronidazol).
Los resultados generados en el presente estudio señalan al extracto acuoso obtenido a
partir de cultivos en suspensión de células de papaya transformada y no transformada
indujeron alto nivel de protección in vitro e in vivo por lo tanto; este es un producto efectivo
para el tratamiento de la cisticercosis y la amebiasis.
Parasitic diseases are a public health problem that affect more than a fifth of the population
worldwide. Additionally, and along with the morbidity the produce, they can cause death if
they are not treated and controlled adequately.
There are different commercial antiparasitic on the market which, although effective,
present different adverse effects both for the individual (i.e., destruction of the intestinal
microbiota) and for the environment alike. This panorama points out the relevance of
developing more environmentally friendly antiparasitic treatments with fewer adverse effects
than the ones currently available on the market. Products obtained from plants with anti-
parasitic properties, grown in vitro under controlled conditions, could represent a realistic
alternative. Among them is the Carica papaya, a species from tropical and subtropical areas
of the planet whose fruits are believed to have antiparasitic activities. These properties are attributed to some of its compounds concentrated in the latex and seeds such as papain,
chymopapain, lysozyme, glycyl-endopeptidase, cysteine-proteinase and benzyl-
isothiocyanate.
The objective of the present work is to evaluate the in vitro and in vivo antiparasitic activity
of a set of papaya callus and cell lines from Carica papaya against cysticerci of Taenia
crassiceps (cestode) and against trophozoites of Entamoeba histolytica (protozoan). The
aqueous extracts obtained from callus and cells cultured in plates or in suspension,
respectively, of the different papaya lines revealed high cysticidal capacity (>98% mortality)
in vitro against Taenia crassiceps cysticerci. Meanwhile, in the in vivo evaluation, the non-
transformed line obtained a greater cysticidal effect at 10 mg/mL, reducing the number of
budding cysticerci and increasing calcified cysticerci at levels like those obtained using
commercial antiparasitic (albendazole and niclosamide). The papaya lines evaluated
induced a high amoebicidal capacity (97% mortality) in vitro against Entamoeba histolytica
trophozoites. The different papaya lines significantly reduced the number of amoebic
abscesses and prevented hepatomegaly in a non-significantly different manner than the
commercial anti-parasitic (metronidazole).
The results produced in this thesis indicate that the aqueous extract obtained from
suspension cultures of transformed and non-transformed papaya cells induced a high level
of protection in vitro and in vivo. Therefore, this may represent an effective product for the
treatment of cysticercosis and amoebiasis.
CIENCIAS AGROPECUARIAS Y BIOTECNOLOGÍA CIENCIAS AGRARIAS Carica papaya, antiparasitario, células en suspensión, T. crassiceps, E. histolytica. Carica papaya, antiparasitic, in-suspension cells, T. crassiceps, E. histolytica.