ABSTRACT
The increasing pressures imposed on ecosystems by the growing needs of the human population are stimulus for research into innovative and unconventional sources of raw materials for different industries. This systematic review was carried out to investigate the available literature on the possible industrial uses of silkworm (Bombyx mori L.) pupae, a residue of silk production. The review was conducted using an adapted version of PRISMA. After a screening process, 105 articles were obtained and subjected to a detailed quantitative and qualitative analysis. It was found that in the last decade there has been a significant increase in the number of papers devoted to the study of the potential use of silkworm pupae in different applications, with a significantly higher number in the last three years of the scope of this review, indicating a growing interest in the subject. From the analysis of the information collected, promising uses in human and animal food, such as fish, mammalian, poultry, swine and companion animals, as well as potential uses for the pharmaceutical industry, were identified. The evaluated research identified compounds with antioxidant activity and important contents of unsaturated fatty acids, which are related to beneficial effects on cardiovascular health, diabetes control, reduction of the risk of developing certain types of cancer and inflammatory activity, among other benefits. One of the most relevant findings is that many studies report a significant concentration of α-linolenic acid in silkworm pupae oil, which is attributed with anticancer, anti-inflammatory, antioxidant, anti-obesity and neuroprotective properties, among others.
ABSTRACT
Hydrogel-type absorbent materials are currently a technological alternative for improving water retention in the soil and reducing nutrient loss by leaching and evaporation. This study aimed to evaluate the application of a new hydrogel based on silk sericin (SS) as a water retention material in soil. The morphology of the hydrogel was characterized using Scanning Electron Microscopy (SEM), and its impact on moisture retention in sandy loam soil (SLS) under different levels of matric pressure (MP) was evaluated. Additionally, water content data were collected over time for both SLS and SLS with hydrogel (SLS + H), and the data were used to fit predictive models. The results indicate that the hydrogel had a porous morphology that promoted water retention and soil release. Under a MP of 0.3 bar, the use of the hydrogel increased water retention by 44.70% with respect to that of SLS. The predictive models developed were adequately adjusted to the behavior of the moisture data over time and evidenced the incidence of the absorbent material on the dynamics of the moisture content in the soil. Therefore, these models could be useful for facilitating subsequent simulations or for designing automatic soil moisture control systems oriented to smart farming.
ABSTRACT
Resumen Introducción: Colombia produce actualmente seda natural. Durante la transformación de esta a hilos, se retira y descarta la sericina, una proteína que recubre las fibras y que presenta diferentes propiedades que pueden ser aprovechadas industrialmente. Objetivo: Caracterizar la sericina obtenida a partir de hilos de seda colombiana y secada por aspersión. Materiales y métodos: La sericina fue extraída usando agua caliente en autoclave y posteriormente secada por aspersión. La muestra en polvo obtenida se caracterizó mediante pruebas morfológicas (SEM), determinación del punto isoeléctrico, contenido de proteína, actividad antimicrobiana, solubilidad, actividad acuosa (aw) y color. Resultados: Los resultados obtenidos por SEM mostraron que se logró remover la mayor parte de sericina presente en los hilos, y que cuando esta se seca adquiere una forma esférica, con superficie rugosa, cóncava y colapsada. Se encontró que la muestra tiene un contenido de proteína y un punto isoeléctrico de 99,50% y 4,07 respectivamente, y no presenta propiedades antimicrobianas frente a los microorganismos estudiados. La solubilidad aumenta con la temperatura, alcanzando un 44,11% ± 5,75 a 90 °C. El aw fue de 0,287 y su color muestra una tendencia al blanco (coordenadas CIELAB: L: 89,55 ± 0,20, a*: +0,44 ± 0,04 y b*: +5,16 ± 0,30). Conclusiones: Los resultados muestran que es posible extraer sericina desde hilos de seda usando autoclave, con altos porcentajes de rendimiento. Se observa que la muestra es susceptible de ser secada por aspersión, mostrando características que pueden ser estudiadas con mayor profundidad para evaluar la viabilidad de utilizarla en el desarrollo de diferentes productos.
Abstract Introduction: During Colombian silk transformation to obtain threads, a protein called sericin is removed and discarded. Nevertheless, due to its properties, it should be industrially recovered and used. Objective: Characterize the sericin obtained, through spray drying, from Colombian silk threads. Materials and methods: The sericin was extracted using hot water in autoclave and later spray-dried. Obtained solution was dehydrated in dry spray equipment. The obtained powdered sample was characterized by morphological tests (SEM), isoelectric point and protein content, antimicrobial activity, solubility, aqueous activity (aw) and color. Results: The results obtained by SEM showed that the degumming process extracted the most of sericin from the threads. In addition, it was seen that dehydrated samples have a spherical shape, with a rough, concave and collapsed surface. The protein content and the isoelectric point of sericin were 99.5 % and 4.07, respectively. No antimicrobial properties were observed against the microorganisms studied. The solubility of the protein increased with temperature (44.11 % ± 5.75 at 90 °C), its aw was 0.287, and its color showed a white trend whose CIELAB coordinates are L: 89.55 ± 0.20, a*: +0.44 ± 0.04 and b*: +5.16 ± 0.30. Conclusions: The results show that it is possible to extract sericin from silk threads using autoclave, with high percentages of yield. Additionally, it was observed that the sample is susceptible to be dehydrated by spray drying, showing characteristics that can be studied in greater depth to evaluate the viability of using this protein in the development of different products.
Resumo Introdução: Colômbia produz atualmente seda natural. Durante a transformação desta aos fios, retira-se e descarta-se a sericina, uma proteína que recobre as fibras e que apresenta diferentes propriedades que podem ser aproveitadas industrialmente. Objetivo: Caracterizar a sericina obtida a partir de fios de seda colombianos e secagem por aspersão. Materiais e métodos: A sericina foi extraída usando água quente no autoclave e posteriormente desidratada com secagem por aspersão. A amostra em pó obtida caracterizou-se mediante provas morfológicas (SEM), determinação do ponto isoelétrico, contido de proteína, atividade antimicrobiana, solubilidade, atividade aquosa (aw) e cor. Resultados: Os resultados obtidos pelo SEM amostram que conseguiu-se remover a maior parte da sericina presente nos fios, e quando esta se seca adquire uma forma esférica, com superfície rugosa, côncava e colapsada. Encontrou-se que a amostra tem um contido de proteína e um ponto isoeléctrico de 99,50% e 4,07 respetivamente, e não apresenta propriedades antimicrobianas frente aos microrganismos estudados. A solubilidade aumenta com a temperatura, atingindo um 44,11% ± 5,75 a 90 °C. O aw foi de 0,287 e sua cor mostra uma tendência ao branco (coordenadas CIELAB: L: 89,55 ± 0,20, a*: +0,44 ± 0,04 y b*: +5,16 ± 0,30). Conclusões: Os resultados mostram que é possível extrair sericina desde fios de seda usando autoclave, com altos percentagens de rendimento. Observa-se que a amostra é suscetível de ser desidratada com secagem por aspersão, mostrando características que podem ser estudadas com maior profundidade para avaliar a viabilidade de utilizarla no desenvolvimento de diferentes produtos.