Optimization of the ellagic acid synthesis process at the bioreactor level using non-conventional yeasts

Abstract Ellagic acid (EA) is a phenolic biomolecule. For its biosynthesis, a source of ellagitannins is required, such as strawberries and yeasts, as precursors of the tannase and ß-glucosidase enzymes responsible for hydrolysis of ellagitannins. Two experimental mixture designs were applied., varying the yeast concentration and the number of ellagitannins in the culture medium, evaluating the enzymatic activity and ellagic acid biosynthesis. Aiming to find the optimal compositions of the non-conventional yeasts assessed in the research to biosynthesize ellagic acid feasibly and efficiently using a response surface performing the statistical analysis in the StatGraphics® program for obtaining a higher yield and optimizing the ellagic acid synthesis process, the results indicate that the strains Candida parapsilosis ITM LB33 and Debaryomyces hansenii ISA 1510 have a positive effect on the synthesis of ellagic acid, since as its concentration increases in the mixture the concentration of ellagic acid in the medium also increases; on the other hand, the addition of Candida utilis ITM LB02 causes a negative effect, resulting in the compositions of 0.516876, 0.483124 and 2.58687E-9 respectively, for a treatment under the same conditions, an optimal value of ellagic acid production would be obtained. With an approximate value of 7.33036 mg/mL

Intensidad lumínica de las lámparas de fotocurado LED en los consultorios odontológicos de Piura, Perú / Output intensity of LED light curing units in dental offices of Piura, Peru

Introducción: La lámpara de fotocurado, que utiliza diodos emisores de luz (LED), se emplea en odontología para la conversión polimérica de los materiales de restauración dental. Se ha comunicado que una intensidad lumínica inadecuada de la lámpara no aseguraría la correcta polimerización del material de restauración. Objetivo: Determinar la intensidad lumínica de las lámparas de fotocurado LED en consultorios odontológicos de la ciudad de Piura, Perú, 2020. Métodos: Estudio observacional, descriptivo. Se midió la intensidad lumínica en 70 lámparas de fotocurado LED, usando un radiómetro con una longitud de onda de 400-500 nm, con capacidad de medida de la intensidad lumínica de hasta 3500 mw/cm2. Por debajo de los 400 mw/cm2 indica intensidad baja, de 400 a 800 mw/cm2 intensidad media, de 800 a 1200 mw/cm2 intensidad alta y por encima de los 1200 mw/cm2 indica intensidad muy alta. Resultados: El 48,5 por ciento de las lámparas analizadas presentaban intensidad media, el 22,86 por ciento intensidad alta, mientras que el 15,71 por ciento intensidad baja y finalmente el 12,86 por ciento de las lámparas presentaban intensidad muy alta. Se reportó menor frecuencia de lámparas con mayor uso clínico. Conclusiones: Las lámparas de fotocurado LED, utilizadas en los consultorios dentales de la provincia de Piura durante el 2020, emiten una intensidad lumínica promedio de 778,14 mW/cm2, equivalente a la intensidad media(AU)

Introduction: Light curing lamps that use light-emitting diodes (LED) are used in dentistry for the polymeric conversion of dental restorative materials. It has been reported that inadequate light intensity in the lamp would not ensure the appropriate polymerization of restorative materials. Objective: Determine the output intensity of LED light curing units used in dental offices of the city of Piura, Peru, in the year 2020. Methods: An observational descriptive study was conducted. Measurements were taken of the light output of 70 LED light curing lamps using a radiometer with a wavelength of 400-500 nm and a light intensity measurement capacity of up to 3 500 mw/cm2. Intensity below 400 mw/cm2 was recorded as low, from 400 to 800 mw/cm2 as medium, from 800 a 1 200 mw/cm2 as high and above 1 200 mw/cm2 as very high. Results: Intensity was medium in 48.5 percent of the lamps analyzed, high in 22.86 percent, low in 15.71 percent and very high in 12.86 percent. A lower frequency of lamps with greater clinical use was reported. Conclusions: The LED light curing lamps used in dental offices of the province of Piura during the year 2020 emit an average output intensity of 778.14 mW/cm2, which corresponds to medium intensity(AU)

Effect of 2,4-D, hydric stress and light on indica rice (Oryza sativa) somatic embryogenesis

With the purpose of increasing the embryogenesis regeneration process in vitroplants obtained from somatic embryos of the indica rice variety CR-5272 (Oryza sativa L.), two independent experiments were performed. The first experiment consisted in the effect of combination of three concentrations of the gelling agent PhytagelTM (1.8, 2.4, and 3 gL-1) and four 2,4-D concentrations (2.26, 4.52, 6.78, and 9.05 m M) on the induction and subsequent regeneration of embryogenic calli. On the second experiment, the pre-regeneration phase was modified; calli were subjected to darkness or diffuse light conditions for one, two, and three weeks. In embryogenesis induction, 35% calligenesis was obtained using the MS culture medium supplemented with 6.78 m M of 2,4-D and 2.4 gL-1 PhytagelTM , whereas on the control treatment (MS medium supplemented with 9.05 m M of 2,4-D and 3 gL-1 PhytagelTM ) 24% calligenesis was obtained. In addition, regeneration percentages were improved (22% and 16% for calli induced with the above treatments, respectively). Furthermore, in light exposure experiments, the best result was obtained by exposing the embryogenic calli to darkness for one week in pre-regeneration, followed by direct light exposure during the regeneration phase